Intelligent agricultural machine corn harvester
Technical Field
The invention relates to an agricultural corn harvester, in particular to an intelligent agricultural mechanical corn harvester, and particularly relates to a corn silk separating harvester of an agricultural mechanical corn harvester, which can separate and harvest corn silk while harvesting corn cobs.
Background
The continuous innovation of the agricultural mechanization level is further promoted along with the continuous development of the scientific technology, wherein the corn harvesters are increasingly popularized and used in the existing agricultural mechanization, so that the corn harvesters can be used for harvesting corn, the labor force can be further reduced, the corn silk on the corn cobs has the effects of promoting urination and detumescence in the existing traditional Chinese medicine, the effects of clearing liver and benefiting gallbladder are important raw materials for treating diseases such as edema, urine, jaundice, cholecystitis, gall-stone, hypertension, diabetes and the like, most of the corn silk harvesting processes are manually harvested, and the corn silk on the corn cobs is picked one by utilizing the manpower, so that the purpose of harvesting the corn silk is achieved, although the purpose of harvesting can be achieved by utilizing the same method for manually harvesting the corn silk, the workload of manually harvesting the corn silk is very large, and the efficiency of harvesting the corn silk is very low, therefore, the cost of the corn silk is further increased, the medical cost is further increased for the sick patients, the burden of the patients is further increased, only the corn cobs can be harvested in the existing corn harvester, and the corn silk cannot be harvested, so that the practicability of the corn harvester is further reduced.
Therefore, there is a need to design a corn stigma separating harvester for harvesting corn in agricultural machinery to solve the above technical problems.
Disclosure of Invention
The invention aims to overcome the problems in the prior art, and provides an intelligent agricultural machinery corn harvester which can be used for harvesting corn by using a header, further conveying corn cobs into a second corn conveying cylinder, further conveying the corn cobs by using a conveying belt, further cutting the corn cobs by using a cutting disc, chopping husks on the corn cobs, further conveying the corn cobs into a corn cob clamping and conveying cavity, clamping the corn cobs by using a conveying clamping belt and further conveying the corn cobs, clamping and conveying corn stigma on the corn cobs by using a meshing rubber wheel, thereby achieving the purpose of harvesting the corn stigma, further conveying the corn stigma into a corn stigma collecting cavity, and can further carry the intracavity is concentrated to corn silk to can reach the purpose of results corn silk, avoid the trouble that artifical results corn silk caused, can further improvement results corn silk's efficiency, also further reduce the processing cost of corn silk simultaneously, thereby further reduction patient's burden.
The invention is realized by the following technical scheme:
an intelligent agricultural machine corn harvester comprises a machine body, wherein a driver cab is arranged on the machine body, rollers are further arranged on the machine body, a harvesting table is arranged at the end part of the machine body, a first corn conveying barrel corresponding to the harvesting table is arranged in the machine body, a second corn conveying barrel corresponding to and communicated with the first corn conveying barrel is further arranged in the machine body, a rotating conveying belt is arranged in the second corn conveying barrel, a circle of corresponding conveying support is arranged on the conveying belt, a corn cob clamping conveying cavity corresponding to and communicated with the second corn conveying barrel is further arranged in the machine body, a corresponding rotating conveying clamping belt is respectively arranged on two sides of the corn cob clamping conveying cavity, corns can be harvested through the harvesting table, and further conveying of the corns can be carried out through the second corn conveying barrel, be equipped with a pivoted conveyor belt in the second maize transport cylinder to can utilize the last conveying support who sets up of conveyor belt to carry out further transport to the corn-on-cob, can press from both sides tight transport intracavity with the further transport of corn-on-cob, thereby can utilize conveying clamp belt carries out further transport after pressing from both sides the corn-on-cob, carries out further processing to the corn-on-cob.
Still be equipped with one in the organism with the corresponding cutting disc of carriage can utilize the cutting disc to cut the crust on the corn-on-cob to can be further cut up the crust on the corn-on-cob.
Still be equipped with a corn silk separation chamber in the organism, the corn silk separation chamber is established the both ends in the tight transport chamber of corn-on-cob clamp respectively and with the corresponding intercommunication in the tight transport chamber of corn-on-cob clamp, both ends the corn silk separation intracavity is equipped with two corresponding tight pivoted meshing rubber wheels of clamp respectively, both ends the meshing rubber wheel with the tight area of clamp of transport is corresponding, can pass through the meshing rubber wheel that the corn silk separation intracavity set up, can pass through the rotation of meshing rubber wheel can be further press from both sides the tight with corn silk on the corn-on-cob, and can the meshing rubber wheel continues the pivoted in-process can be further with plucking down on the corn-on-cob thereby reach the mesh of results corn silk.
The corn stigma separating machine is characterized in that a corn stigma conveying cavity is further arranged in the machine body, the corn stigma conveying cavity is provided with two air supply pipes which are respectively communicated with the corn stigma separating cavities at the two ends correspondingly, a first air supply pipe is further arranged in the machine body, the first air supply pipe is respectively connected with a second air supply pipe and a third air supply pipe, the second air supply pipe is respectively communicated with the corn stigma conveying cavities at the two ends correspondingly, the third air supply pipe is respectively communicated with the corn stigma separating cavities at the two ends correspondingly, a corn stigma concentrating cavity which is correspondingly communicated with the corn stigma conveying cavities at the two ends is further arranged in the machine body, wind power can be further transmitted into the corn stigma separating cavities through the first air supply pipe, and accordingly corn stigma can be blown through the wind power, the corn stigma can be in a vertical state, the corn stigma can be further guaranteed to be clamped by the meshing rubber wheels, and air can be supplied through the second air supply pipes, thereby can be further carry corn silk under the effect of wind power to can be further concentrate the intracavity to corn silk, thereby can reach the purpose of collecting corn silk.
Still be equipped with in the organism with the corresponding maize results groove that communicates of cob clamp transport chamber can be collected the back that finishes with corn silk, can be with the further collection of corn silk to in the maize results groove to can reach the purpose of results maize.
Furthermore, two ends of the corn cob clamping and conveying cavity are respectively provided with two first rotating shafts which rotate in the machine body, the first rotating shafts are respectively provided with a first rolling shaft which rotates in the corn cob clamping and conveying cavity, the conveying clamping belts on two sides respectively rotate on the first rolling shafts at two ends, the first rotating shafts at one end are respectively provided with a first gear which is correspondingly meshed and connected, the first rotating shafts at one end are respectively provided with a first bevel gear and a second bevel gear which are correspondingly arranged at two ends of the first rotating shafts, the first bevel gear rotates in a first inner cavity arranged in the machine body, the second bevel gear rotates in a third inner cavity arranged in the machine body, the machine body is also respectively provided with a fourth rotating shaft which corresponds to the first rotating shafts, one end of the fourth rotating shaft is respectively connected with a third bevel gear which is correspondingly meshed and connected with the first bevel gear and the second bevel gear, the other end of the fourth rotating shaft is respectively connected with a fourth bevel gear, the fourth bevel gears respectively rotate in a second inner cavity arranged in the machine body, the corn stigma separating cavity is respectively provided with two second rotating shafts and a third rotating shaft which rotate in the machine body, the meshing rubber wheels are respectively arranged on the second rotating shafts and the third rotating shafts, the second rotating shafts and the third rotating shafts are respectively provided with a fifth bevel gear correspondingly meshed and connected with the fourth bevel gears, the fifth bevel gears can correspondingly meshed and connected with the first bevel gears arranged at the end parts of the first rotating shafts when the first rotating shafts rotate, so that the two first rotating shafts can be simultaneously driven to rotate, the first rotating shafts can be further driven to rotate simultaneously when the two first rotating shafts rotate simultaneously, and the conveying clamping belt can be further driven to rotate, thereby can be further carry the corn-on-cob, and can be in when first pivot is rotated, can further drive the rotation of meshing rubber tyer, thereby can pass through the rotation of meshing rubber tyer can be further press from both sides the maize tight transport, thereby can reach the purpose of plucking the corn silk, and can further carry the corn silk transport intracavity, thereby can carry out further transport to the corn silk.
Furthermore, an air supply cavity is arranged in the machine body, an exhaust fan driven by a motor is arranged in the air supply cavity, 4 air supply pipes are arranged in the first air supply pipe and are respectively communicated with the air supply cavity correspondingly, a row of second air supply pipes and a row of third air supply pipes are respectively arranged on two sides of the corn silk separation cavity, a connecting hose is respectively connected onto the third air supply pipes, the connecting hoses on the two sides are respectively corresponding to the meshing rubber wheels, the connecting hoses on the two sides are arranged in a crossed and corresponding manner, corn silk conveying pipes correspondingly communicated with the corn silk conveying cavities at two ends are respectively arranged in the machine body, the corn silk conveying pipes are respectively communicated with the corn silk concentration cavity correspondingly, the second air supply pipes are arranged in an inclined manner, and the opening directions of the second air supply pipes are respectively corresponding to the corn silk concentration cavity, the corn silk is concentrated and is equipped with a filter screen on the chamber, can pass through the motor that sets up in the supply-air chamber further drives the rotation of exhaust fan to can produce wind-force, and can be in be connected with a coupling hose respectively on the third supply-air duct, thereby can utilize coupling hose airs exhaust, thereby can further blow to corn silk, thereby make corn silk be in the vertically state, and can utilize coupling hose airs exhaust, thereby can further make meshing rubber tyer and the normal meshing of corn silk, and will the second supply-air duct is the slope form setting, thereby can further make the wind arrange into the intracavity is concentrated to corn silk, thereby can further make corn silk blow into the intracavity is concentrated to corn silk.
Furthermore, the second corn conveying cylinder comprises a fixing rod connected to the machine body, the cutting disc is connected to the fixing rod, a cutting groove corresponding to the conveying support is formed in the cutting disc and is in a circular ring shape, a circle of fixing block connected to the cutting disc is arranged in the cutting groove, second grooves in an L shape are formed in the fixing block respectively, sixth rotating shafts are arranged in the second grooves respectively, the end portions of the cutting knives rotate on the sixth rotating shafts respectively, a seventh rotating shaft is arranged at the center of each cutting knife, a rotating connecting shaft is arranged on each seventh rotating shaft, second springs for elastically pressing the connecting shafts are arranged in the second grooves respectively, a cutting groove can be formed in the cutting disc, and therefore corn cobs can further pass through, and can be through the cutting knife cuts on the corn-on-cob to can be with the crust on the corn-on-cob comminution, thereby can further make the meshing rubber tyer take off corn silk, and can pass through the bullet pressure of second spring can be further to the cutting knife suppress, thereby can further assurance to the cutting effect of cutting knife to the corn-on-cob crust.
Furthermore, two sides of the corn cob clamping and conveying cavity are respectively provided with a jacking block connected to the machine body, the conveying clamping belts respectively correspond to the jacking blocks, one side of each jacking block is respectively provided with a corresponding fifth inner cavity, the fifth inner cavity is arranged in a T shape, a sliding fifth rotating shaft is respectively arranged in the fifth inner cavity, each fifth rotating shaft is respectively provided with a jacking disc sliding in the fifth inner cavity, the fifth inner cavity is also respectively provided with a first spring for elastically pressing the jacking disc, each fifth rotating shaft is respectively connected with a jacking head, each jacking head is respectively provided with a concave first groove, each first groove is respectively internally provided with a ninth rotating shaft connected to the jacking head, each ninth rotating shaft is respectively provided with a rotating jacking wheel, and the conveying clamping belts at two sides respectively slide on the jacking wheels, and the top pressure wheels on the two sides are arranged in a crossed and corresponding mode, the fifth rotating shaft can be further pressed by the elastic pressure of the first spring, so that the top pressure wheels can be further pressed, the conveying clamping belt can be further pressed by the top pressure wheels, the two sides of the conveying clamping belt can be used for clamping the corn cobs, and the first springs on the two sides can be used for further ensuring the clamping effect of the conveying clamping belt on the corn cobs.
Furthermore, both ends of the second corn conveying cylinder are respectively provided with an eighth rotating shaft which rotates in the machine body, the eighth rotating shaft is respectively provided with a first rotating wheel and a second rotating wheel, the conveying belt rotates on the first rotating wheel and the second rotating wheel, the end part of the eighth rotating shaft arranged on the second rotating wheel is connected with a seventh bevel gear, the first rotating shaft is provided with a sixth bevel gear correspondingly engaged and connected with the seventh bevel gear, the seventh bevel gear and the sixth bevel gear rotate in a sixth inner cavity arranged on the machine body,
the rotation of the sixth bevel gear can be further driven while the first rotating shaft rotates, so that the sixth bevel gear and the seventh bevel gear can be correspondingly meshed and connected, the eighth rotating shaft can be further driven to rotate, the conveying belt can be further driven to rotate, and the corn cobs can be further conveyed.
Further, be equipped with a semicircular in shape fixed slot on the conveyer belt, the transfer gantry establishes in the fixed slot, can set up semicircular in shape fixed slot on the conveyer belt to can utilize the half slot to fix the corn-on-cob, thereby prevent that the corn-on-cob from taking place the slope, thereby guarantee that the corn-on-cob can be perpendicular in the fixed slot, thereby can step forward the assurance to the cutting function of cutting knife.
Furthermore, be equipped with round rubber antiskid ribbed tile on the conveyor clamp takes respectively, rubber antiskid ribbed tile sets up, can utilize the rubber antiskid ribbed tile can be further guaranteed to the conveyor clamp takes the tight function of clamp to the corn-on-cob to can be further prevent that the corn-on-cob slippage from going out the conveyor clamp takes.
Compared with the prior art, the invention has the beneficial effects that: the corn harvester can further convey corn cobs into the second corn conveying cylinder while harvesting corns by using the header, further convey the corn cobs by using the conveying belt, further cut the corn cobs by using the cutting disc, cut husks on the corn cobs, further ensure that the corn stigma can be meshed by using the meshing rubber wheel, can take off the corn stigma, further convey the corn cobs into the corn cob clamping conveying cavity, clamp the corn cobs by using the conveying clamping belt and further convey the corn stigma, clamp and convey the corn stigma on the corn cobs by using the meshing rubber wheel, achieve the purpose of harvesting the corn stigma, further convey the corn stigma into the corn stigma collecting cavity under the action of wind power, and can further carry the intracavity is concentrated to corn silk to can reach the purpose of results corn silk, avoid the trouble that artifical results corn silk caused, can further improvement results corn silk's efficiency, also further reduce the processing cost of corn silk simultaneously, thereby further reduce the pharmaceutic cost of corn silk, thereby further alleviate patient's burden.
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 corn silk separating harvester of a corn harvester of the embodiment of the invention.
FIG. 2 is a schematic view of the overall structure of a corn silk separating harvester of the agricultural machine corn harvester according to the embodiment of the invention.
FIG. 3 is a schematic view of the overall structure of a corn cob gripping and conveying chamber according to an embodiment of the present invention.
FIG. 4 is a top view of the overall structure of a corn cob gripping and conveying chamber in accordance with an embodiment of the present invention.
Fig. 5 is a schematic view of the overall structure of the pressing wheel according to the embodiment of the present invention.
Fig. 6 is a schematic view of a connection structure between an eighth rotating shaft and the first rotating shaft according to an embodiment of the present invention.
Fig. 7 is a schematic view of the overall structure of a conveyor belt according to an embodiment of the invention.
Fig. 8 is a side view showing the overall structure of a conveyor belt according to an embodiment of the present invention.
FIG. 9 is a schematic view of the overall structure of the cutting disk according to the embodiment of the present invention.
Fig. 10 is a side view of the overall structure of the fixing block according to the embodiment of the present invention.
FIG. 11 is a side view of the overall construction of a conveyor fastener strip in accordance with an embodiment of the invention.
In the figure: 1 machine body, 2 driver's cab, 3 cutting platform, 4 rollers, 5 first corn conveying cylinder, 6 second corn conveying cylinder, 7 first rotating wheel, 8 second rotating wheel, 9 conveying belt, 10 conveying bracket, 11 fixed rod, 12 corn cob clamping conveying cavity, 13 conveying clamping belt, 14 corn silk separating cavity, 15 corn silk conveying cavity, 16 corn silk conveying pipe, 17 corn silk concentrating cavity, 18 filter screen, 19 air supply cavity, 20 motor, 21 exhaust fan, 22 corn harvesting groove, 23 first rotating shaft, 24 first roller, 25 first gear, 26 second rotating shaft, 27 third rotating shaft, 28 first air supply pipe, 29 second air supply pipe, 30 third air supply pipe, 31 first bevel gear, 32 second bevel gear, 33 third bevel gear, 34 fourth rotating shaft, 35 fourth bevel gear, 36 fifth bevel gear, 37 first inner cavity, 38 second inner cavity, 39 third inner cavity, 40 rubber antiskid sheet, 41 meshing rubber wheels, 42 jacking pressing blocks, 43 jacking wheels, 44 fifth inner cavities, 45 fifth rotating shafts, 46 jacking disks, 47 first springs, 48 jacking heads, 49 first grooves, 50 cutting disks, 51 cutting grooves, 52 fixing blocks, 53 cutting knives, 54 second grooves, 55 sixth rotating shafts, 56 connecting shafts, 57 second springs, 58 seventh rotating shafts, 59 fixing grooves, 60 eighth rotating shafts, 61 connecting hoses, 62 ninth rotating shafts, 63 sixth bevel gears, 64 seventh bevel gears, 65 sixth inner cavities, 66 eighth rotating shafts and 67 ninth rotating shafts.
Detailed Description
As shown in fig. 1 to 11, an intelligent agricultural machinery corn harvester comprises a machine body 1, wherein a driver cab 2 is arranged on the machine body 1, rollers 4 are further arranged on the machine body 1, a header 3 is arranged at an end portion of the machine body 1, a first corn conveying cylinder 5 corresponding to the header 3 is arranged in the machine body 1, a second corn conveying cylinder 6 corresponding to the first corn conveying cylinder 5 is further arranged in the machine body 1, a rotary conveying belt 9 is arranged in the second corn conveying cylinder 6, a circle of corresponding conveying support 10 is arranged on the conveying belt 9, a corn cob clamping conveying cavity 12 corresponding to the second corn conveying cylinder 6 is further arranged in the machine body 1, a corresponding rotary conveying clamping belt 13 is respectively arranged on two sides of the corn cob clamping conveying cavity 12, a driver cab 2 is arranged on the machine body 1, therefore, the machine can be controlled by the cab 2, the machine body 1 is also provided with the header 3, so that corns can be harvested by the header 3, the harvested corns can be further conveyed by the first corn conveying cylinder 5 arranged in the machine body 1, the machine body 1 is also internally provided with a second corn conveying cylinder 6, the second corn conveying cylinder 6 is obliquely arranged, the first corn conveying cylinder 5 can be correspondingly communicated with the second corn conveying cylinder 6, the second corn conveying cylinder 6 is internally provided with a rotary conveying belt 9, the conveying belt 9 is provided with a circle of corresponding conveying support 10, so that the conveying support 10 can be further driven to rotate in the rotating process of the conveying belt 9, and the corns can be further conveyed by the conveying support 10, still be equipped with a corn-on-cob in the organism 1 and press from both sides tight transport chamber 12 to can pass through conveyor belt 9 further carry the corn-on-cob presss from both sides tight transport chamber 12 in the both sides of corn-on-cob presss from both sides tight transport chamber 12 are equipped with a corresponding pivoted transport clamp belt 13 respectively, both sides transport clamp belt 13 can corresponding rotation, and both sides transport clamp belt 13 can further with corn-on-conveyor support 10 carries out corresponding clamp, thereby can be in transport clamp belt 13's rotation in-process can further carry the corn-on-cob.
Still be equipped with one in the organism 1 with the corresponding cutting dish 50 of transfer gantry 10 still be equipped with a cutting dish 50 in the organism 1 to can be in conveyor belt 9 rotates the slip that the in-process can further drive the corn-on-cob, slides when the corn-on-cob to cutting dish 50 department can utilize cutting dish 50 to carry out further cutting to the corn-on-cob, thereby can produce the shear mark on the corn-on-cob, can cut up the crust on the corn-on-cob.
A corn silk separating cavity 14 is further arranged in the machine body 1, the corn silk separating cavity 14 is arranged at two ends of the corn cob clamping and conveying cavity 12 and is respectively communicated with the corn cob clamping and conveying cavity 12 correspondingly, two engaging rubber wheels 41 which are clamped and rotated correspondingly are arranged in the corn silk separating cavity 14 at two ends respectively, the engaging rubber wheels 41 at two ends correspond to the conveying and clamping belt 13, a corn silk separating cavity 14 is further arranged in the machine body 1, the corn silk separating cavity 14 is arranged at two ends of the corn cob clamping and conveying cavity 12 respectively, the corn silk separating cavity 14 is respectively communicated with the corn cob clamping and conveying cavity 12 correspondingly, two engaging rubber wheels 41 which are rotated correspondingly are arranged in the corn silk separating cavity 14 at two ends respectively, the two engaging rubber wheels 41 can rotate correspondingly, and when the conveying and clamping belt 13 clamps the corn cobs, the corn silks can be at the end parts of the corn cobs, and the corn silk is exposed out of the corn cob, when the upper and lower engaging rubber wheels 41 can further clamp the corn silk in the corresponding rotating process, so that the corn silk can be further conveyed in the process that the two engaging rubber wheels 41 continuously rotate, wherein the head of the corn cob cannot be determined in the process of further conveying the corn cob by the conveying belt 9, and the heads of the corn cob can be at different two ends in the process of clamping the corn cob by the conveying clamping belt 13, so that the two corn silk separating cavities 14 are respectively arranged at two ends of the corn cob clamping conveying cavity 12, and the corn silk on the corn cob at two ends can be simultaneously clamped and harvested by the rotation of the engaging rubber wheels 41 at two ends.
A corn silk conveying cavity 15 is further arranged in the machine body 1, two corn silk conveying cavities 15 are arranged and are respectively communicated with the corn silk separating cavities 14 at the two ends correspondingly, a first air supply pipe 28 is further arranged in the machine body 1, a second air supply pipe 29 and a third air supply pipe 30 are respectively connected to the first air supply pipe 28, the second air supply pipe 29 is respectively communicated with the corn silk conveying cavities 15 at the two ends correspondingly, the third air supply pipe 30 is respectively communicated with the corn silk separating cavities 14 at the two ends correspondingly, a corn silk concentrating cavity 17 communicated with the corn silk conveying cavities 15 at the two ends correspondingly is further arranged in the machine body 1, a corn silk conveying cavity 15 is further arranged in the wall of the machine body, so that the corn silk can be further conveyed into the corn silk conveying cavities 15 after being meshed and clamped correspondingly by the meshing rubber wheels 41, and two corn silk conveying cavities 15 are arranged, thus, the corn silk can be simultaneously conveyed into the two corn silk conveying cavities 15, the machine body 1 is also internally provided with a first air supply pipe 28, the first air supply pipe 28 is respectively connected with a second air supply pipe 29 and a third air supply pipe 30, so that the wind power can be further transmitted into the first air supply pipe 29 and the third air supply pipe 30 through the first air supply pipe 28, the second air supply pipe 29 can be respectively communicated with the corn silk conveying cavities 15 at the two ends, so that the corn silk can be further conveyed into the corn silk concentrating cavity 17 through the wind power through the second air supply pipe 29 in the corn silk conveying cavities 15, the third air supply pipe 30 is respectively communicated with the corn silk separating cavities 12 at the two ends, and the air supply opening of the third air supply pipe 30 corresponds to the air exhaust cavity 14, therefore, air can be further discharged through the third air supply pipe 30 in the process of exhausting air from the third air supply pipe 30, after the corn cobs can be clamped by the conveying clamping belts 13 at the two sides, the two ends of the corn cobs respectively correspond to the meshing rubber wheels 41 at the two ends, corn silk at the end parts of the corn cobs can be respectively blown by wind force in the process of exhausting air from the third air supply pipe 30, so that the corn silk at the end parts of the corn cobs can be further in a vertical state, the meshing rubber wheels 41 can be further conveniently clamped, the problem that the meshing rubber wheels 41 cannot be clamped due to bending of the corn silk is prevented, the corn silk can be further recycled after being conveyed to the corn silk concentration cavity 17, the collection of the corn silk can be further facilitated, and the problem that the efficiency is low due to manual collection of the corn silk is avoided, the purchasing cost of the corn stigma can be further reduced, so that the treatment cost of the patient can be further reduced, and the burden of the patient is relieved.
Still be equipped with in the organism 1 one with the corresponding maize results groove 22 of intercommunication in the tight transport chamber 12 of corn cob clamp, can be in both sides after the corn silk is taken to the corn cob carry that the tight area 13 of clamp continues pivoted in-process can be further carry the corn cob in the maize results groove 22 to accomplish the results of corn cob, the practical value of improvement machine that can be further guarantees the diversity of machine function.
As shown in fig. 1 to 3, two ends of the corn cob clamping and conveying cavity 12 are respectively provided with two first rotating shafts 23 rotating in the machine body 1, the first rotating shafts 23 are respectively provided with a first roller 24 rotating in the corn cob clamping and conveying cavity 12, the conveying clamping belts 13 on two sides respectively rotate on the first roller 24 on two ends, the first rotating shaft 23 on one end is respectively provided with a first gear 25 correspondingly engaged and connected, the first rotating shaft 23 on one end is respectively provided with a first bevel gear 31 and a second bevel gear 32 correspondingly arranged on two ends of the first rotating shaft 23, the first bevel gear 31 and the second bevel gear 32 respectively rotate in a first inner cavity 37 and a third inner cavity 39 arranged in the machine body 1, the first bevel gear 31 rotates in the first inner cavity 37 arranged in the machine body 1, and the second bevel gear 32 rotates in the third inner cavity 39 arranged in the machine body 1, a fourth rotating shaft 34 corresponding to the first rotating shaft 23 is further respectively arranged in the machine body 1, one end of the fourth rotating shaft 34 is respectively connected with a third bevel gear 33 correspondingly engaged and connected with the first bevel gear 31 and the second bevel gear 32, the other end of the fourth rotating shaft 34 is respectively connected with a fourth bevel gear 35, the fourth bevel gear 35 rotates in a second inner cavity 38 arranged in the machine body 1, the corn silk separation cavity 14 is respectively provided with two second rotating shafts 26 and a third rotating shaft 27 which rotate in the machine body 1, the engaging rubber wheels 41 are respectively arranged on the second rotating shafts 26 and the third rotating shafts 27, and the second rotating shafts 26 and the third rotating shafts 27 are respectively provided with a fifth bevel gear 36 correspondingly engaged and connected with the fourth bevel gear 35.
Two first rotating shafts 23 which rotate in the machine body 1 are respectively arranged at two ends of the corn cob clamping and conveying cavity 12, the first rotating shafts 23 respectively rotate in the rotation arranged in the machine body 1 and are respectively arranged at two ends of the corn cob clamping and conveying cavity 12, a first rolling shaft 24 is respectively connected to the first rotating shafts 23, the first rolling shafts 24 respectively rotate in the corn cob clamping and conveying cavity 12, the first rotating shafts 23 are respectively arranged at two ends of the corn cob clamping and conveying cavity 12, two ends of the corn cob clamping and conveying cavity 12 are respectively provided with two conveying clamping belts 13, two sides of the conveying clamping belts can respectively rotate on the first rolling shafts 24 at two sides, two first rotating shafts 23 at one end are respectively provided with a first gear 25 which is correspondingly engaged and connected, so that the first rotating shafts 23 can be correspondingly engaged and connected through the first gears 25 in the rotating process, so that the conveying clamping belts 13 on the two sides can further rotate correspondingly, so that the corn cobs can be further conveyed after being clamped by the conveying clamping belts 13 on the two sides, two first rotating shafts 23 are arranged at one end, a first bevel gear 31 and a second bevel gear 32 are respectively arranged on the first rotating shaft 23 at one end, the first bevel gear 31 and the second bevel gear 32 are arranged correspondingly, a first inner cavity 37 and a third inner cavity 39 corresponding to the first bevel gear 31 and the second bevel gear 32 are respectively arranged in the machine body 1, the first bevel gear 31 and the second bevel gear 32 can respectively rotate in the first inner cavity 37 and the third inner cavity 39, a fourth rotating shaft 34 corresponding to the first rotating shaft 23 is also respectively arranged in the machine body 1, and four fourth rotating shafts 34 are arranged, a third bevel gear 33 correspondingly engaged with the first bevel gear 31 and the second bevel gear 32 is connected to one end of the fourth rotating shaft 34, a fourth bevel gear 35 is connected to the other end of the fourth rotating shaft 34, the fourth bevel gear 35 rotates in a second inner cavity 38 formed in the machine body 1, two second rotating shafts 26 and a third rotating shaft 27 which rotate correspondingly are arranged in the corn stigma separating cavity 14, engaging rubber wheels 41 are arranged on the second rotating shaft 26 and the third rotating shaft 27, a fifth bevel gear 36 is connected to the ends of the second rotating shaft 26 and the third rotating shaft 27, the fifth bevel gear 36 can be correspondingly engaged with the fourth bevel gear 35, and the second rotating shaft 26 and the third rotating shaft 27 are arranged in parallel at two ends, the second rotating shaft 26 and the third rotating shaft 27 are respectively arranged to intersect with the first rotating shaft 23 perpendicularly, so that the first rotating shaft 23 can be correspondingly engaged and connected through the first gear 25 in the rotating process, so that the two first rotating shafts 23 can be further driven to correspondingly rotate simultaneously, the first bevel gear 31 and the second bevel gear 32 can be correspondingly engaged and connected with the third bevel gear 33, so that the fourth rotating shaft 34 can be further driven to synchronously rotate, the fourth bevel gear 35 can be correspondingly engaged and connected with the fifth bevel gear 36, so that the second rotating shaft 26 and the third rotating shaft 27 can be further driven to synchronously rotate, and since the first bevel gear 31 and the second bevel gear 32 which are arranged on the first rotating shaft 23 are correspondingly arranged, therefore, the second rotating shaft 26 and the third rotating shaft 27 at two ends can be further rotated correspondingly, so that the corn silk can be further clamped through the corresponding rotation of the two engaging rubber wheels 41, and the corn silk can be further clamped and conveyed into the corn silk conveying cavity 15 in the rotating process of the engaging rubber wheels 41.
As shown in fig. 1 and 3, an air supply cavity 19 is provided in the machine body 1, an exhaust fan 21 driven by a motor 20 is provided in the air supply cavity 19, 4 air supply pipes 28 are provided and are respectively communicated with the air supply cavity 19, a row of second air supply pipes 29 and a row of third air supply pipes 30 are provided respectively, the third air supply pipes 30 are respectively provided at two sides of the corn silk separation cavity 14, a connection hose 61 is connected to each of the third air supply pipes 30, the connection hoses 61 at two sides are respectively corresponding to the meshing rubber wheels 41, the connection hoses 61 at two sides are arranged in a crossed and corresponding manner, a corn silk conveying pipe 16 correspondingly communicated with the corn silk conveying cavities 15 at two ends is provided in the machine body 1, the corn silk conveying pipe 16 is respectively communicated with the corn silk concentration cavity 17, the second air supply pipe 29 is arranged in an inclined manner, the opening directions of the second air supply pipes 29 correspond to the corn silk concentrating cavity 17, a filter screen 18 is arranged on the corn silk concentrating cavity 17, an air supply cavity 19 is arranged in the machine body 1, an exhaust fan 21 driven by a motor 20 is arranged in the air supply cavity 19, so that the rotation of the exhaust fan 21 can be further driven by the rotation of the motor 20, wind power can be generated by the rotation of the exhaust fan 21, 4 first air supply pipes 28 are arranged, the first air supply pipes 28 are correspondingly communicated with the air supply cavity 19, 4 first air supply pipes 28 are respectively arranged at two sides of the corn silk conveying cavity 15, a row of second air supply pipes 29 and a row of third air supply pipes 30 are respectively arranged at two sides of the corn silk separating cavity 14, the number of the first blowing pipes 4 is 4, so that the third blowing pipes 30 are provided on four end surfaces of the corn silk separating chamber 14, the third blowing pipes 30 are respectively connected with one connection hose 61, the third blowing pipes 30 are provided on four end surfaces of the corn silk separating chamber 14, the third blowing pipes 30 are respectively provided on both sides of the corn silk separating chamber 14, the connection hoses 61 on both sides respectively correspond to the engaging rubber wheels 41, so that air can be further blown to the engaging rubber wheels 41 after being discharged by the connection hoses 61, the engaging rubber wheels 41 correspond to the corn silk on the corn cobs, so that the corn silk can be blown by the connection hoses 61, the corn silk can be further vertically operated, and the corn silk can be further clamped by the engaging rubber wheels 41, a corn silk conveying pipe 16 is further arranged in the machine body 1, the corn silk conveying cavities 15 are arranged at two ends of the corn silk separating cavity 14, the corn silk conveying cavities 15 are respectively connected with the corn silk conveying pipes 16, the machine body 1 is further provided with a corn silk concentrating cavity 17, the corn silk conveying pipes 16 are respectively communicated with the corn silk concentrating cavities 17 correspondingly, the second air supply pipes 29 are respectively connected at two sides of the corn silk conveying cavities 15, so that the corn silk conveying cavities 15 can be respectively exhausted through the second air supply pipes 29, the second air supply pipes 29 are obliquely arranged and have openings respectively corresponding to the corn silk concentrating cavities 17, the exhausted air can face the position of the corn silk concentrating wind cavity 17, and the corn silks can be further conveyed into the corn silk concentrating cavities 17, thereby can further take corn silk, and be equipped with a filter screen 18 on the chamber 17 is concentrated to corn silk, thereby can utilize filter screen 18 filters corn silk, thereby can make corn silk remain in chamber 17 is concentrated to corn silk, and thus can reach the purpose of results corn silk, thereby further alleviate the trouble that artifical results corn silk caused, further alleviate the amount of labour.
As shown in fig. 1, 9 and 10, the second corn conveying cylinder 6 includes a fixing rod 11 connected to the machine body 1, the cutting disc 50 is connected to the fixing rod 11, the cutting disc 50 is provided with a cutting groove 51 corresponding to the conveying support 10, the cutting groove 51 is arranged in a circular ring shape, the cutting groove 51 includes a circle of fixing blocks 52 connected to the cutting disc 50, the fixing blocks 52 are respectively provided with an L-shaped second groove 54, the second grooves 54 are respectively provided with a sixth rotating shaft 55, the ends of the cutting knife 53 respectively rotate on the sixth rotating shaft 55, the center of the cutting knife 53 is respectively provided with a seventh rotating shaft 58, the seventh rotating shaft 58 is respectively provided with a rotating connecting shaft 56, the second grooves 54 are respectively provided with a second spring 57 for elastically pressing the connecting shaft 56, the second corn conveying cylinder 6 is internally provided with a fixing rod 11 connected to the machine body 1, the cutting disc 50 is connected to the fixing rod 11, the cutting disc 50 is provided with a cutting groove 51, the cutting groove 51 is arranged in a circular ring shape, the conveying belt 9 drives the conveying support 10 to rotate so that the conveying support 10 can pass through the cutting groove 51, a circle of fixing blocks 52 connected to the cutting disc 50 is arranged in the cutting groove 51, the fixing blocks 52 are respectively provided with an L-shaped second groove 54, the second grooves 54 are respectively provided with a sixth rotating shaft 55 connected to the fixing blocks 52, the cutting knives 53 are arranged in a sheet shape, the end parts of the cutting knives 53 can respectively rotate on the sixth rotating shaft 55, and the number of the cutting knives 53 can be set according to the design requirements, a seventh rotating shaft 58 is arranged at the center of the cutting knife 53, a rotating connecting shaft 56 is arranged on each seventh rotating shaft 58, and a second spring 57 is arranged in each second groove 54, so that the second springs 57 can be respectively connected to the connecting shafts 56, and the connecting shafts 56 can be respectively pressed by the second springs 57, so that the cutting knife 53 can be further pressed, after corn cobs are arranged on the conveying support 10, in the process that the conveying belt 9 drives the corn cobs to slide, when the corn cobs are conveyed into the cutting groove 51, the outer skins on the corn cobs can be cut by the cutting knife 53, corn husks can be cut, the engaging rubber wheel 41 can further clamp corn stigma, and the engaging rubber wheel 41 can further clamp and convey the corn stigma into the corn stigma conveying cavity 15.
As shown in fig. 4 and 5, two sides of the corn cob clamping and conveying cavity 12 are respectively provided with a top pressing block 42 connected to the machine body 1, the conveying clamping belts 13 respectively correspond to the top pressing blocks 42, one side of each top pressing block 42 is respectively provided with a corresponding fifth inner cavity 44, the fifth inner cavities 44 are arranged in a T shape, the fifth inner cavities 44 are respectively provided with a sliding fifth rotating shaft 45, the fifth rotating shafts 45 are respectively provided with a top pressing disc 46 sliding in the fifth inner cavities 44, the fifth inner cavities 44 are respectively provided with a first spring 47 for elastically pressing the top pressing discs 46, the fifth rotating shafts 45 are respectively connected with a top pressing head 48, the top pressing heads 48 are respectively provided with a concave first groove 49, the first grooves 49 are respectively provided with a ninth rotating shaft 62 connected to the top pressing heads 48, the ninth rotating shafts 62 are respectively provided with a rotating top pressing wheel 43, the conveying clamping belts 13 on two sides respectively slide on the jacking wheels 43, the jacking wheels 43 on two sides are arranged in a crossed and corresponding manner, jacking blocks 42 connected to the machine body 1 are respectively arranged on two sides of the corn cob clamping conveying cavity 12, the conveying clamping belts 13 on two sides rotate in a circumferential manner in the rotating process, so that the conveying clamping belts 13 can rotate around the jacking blocks 42, one sides of the jacking blocks 42 are respectively provided with a corresponding fifth inner cavity 44, the fifth inner cavities 44 on two sides are correspondingly arranged, a sliding fifth rotating shaft 45 is respectively arranged in the fifth inner cavities 44, the fifth rotating shafts 45 are respectively connected with a jacking plate 46, the jacking plates 46 can slide in the fifth inner cavities 44, the fifth inner cavities 44 are arranged in a T shape, and therefore the jacking plates 46 can be utilized to further prevent the fifth rotating shafts 45 from slipping out of the fifth inner cavities 44, first springs 47 for biasing the pressing plates 46 are respectively arranged in the fifth inner cavities 44, so that the pressing plates 46 can be respectively biased by the first springs 47, pressing heads 48 are respectively connected to the fifth rotating shafts 45, first grooves 49 are respectively arranged on the pressing heads 48, ninth rotating shafts 62 are respectively arranged in the first grooves 49, the pressing wheels 43 respectively rotate on the ninth rotating shafts 62, the conveying clamping belts 13 respectively slide on the pressing wheels 43, so that the conveying clamping belts 13 on both sides can be respectively supported by the pressing wheels 43 arranged on both sides, the pressing wheels 43 can be respectively biased by the first springs 47, so that the conveying clamping belts 13 can be further biased, and corn cobs can be clamped by the conveying clamping belts 13 on both sides, and the two pressing wheels 43 are arranged in a cross state, so that the corn cobs can be further clamped by the conveying clamping belt 13.
As shown in fig. 6 and 7, both ends of the second corn conveying cylinder 6 are respectively provided with an eighth rotating shaft 60 which rotates in the machine body 1, the eighth rotating shaft 60 is respectively provided with a first rotating wheel 7 and a second rotating wheel 8, the conveying belt 9 rotates on the first rotating wheel 7 and the second rotating wheel 8, the end of the eighth rotating shaft 60 provided on the second rotating wheel 8 is connected with a seventh bevel gear 64, the first rotating shaft 23 is provided with a sixth bevel gear 63 which is correspondingly engaged and connected with the seventh bevel gear 64, the seventh bevel gear 64 and the sixth bevel gear 63 rotate in a sixth inner cavity 65 provided on the machine body, both ends of the second corn conveying cylinder 6 are respectively provided with a rotating eighth rotating shaft 60, the eighth rotating shaft 60 is respectively provided with a first rotating wheel 7 and a second rotating wheel 8, the conveying belt 9 can rotate on the first rotating wheel 7 and the second rotating wheel 8, a seventh bevel gear 64 is arranged at the end of the eighth rotating shaft 60 at one end, that is, a seventh bevel gear 64 is arranged at the end of the eighth rotating shaft 60 arranged on the second rotating wheel 8, and a sixth bevel gear 63 is connected to the first rotating shaft 23, so that the sixth bevel gear 63 and the seventh bevel gear 64 can be correspondingly engaged and connected, and thus the second rotating wheel 8 can be simultaneously driven to rotate in the rotating process of the first rotating shaft 23, and the conveying belt 9 can be further driven to rotate, so that the corn cobs can be further conveyed, and the first rotating shaft 23 can be correspondingly connected with a power output shaft arranged in the machine body 1, so that the first rotating shaft 23 can be driven to rotate by power in the machine body.
As shown in fig. 8, a semicircular fixing groove 59 is formed in the conveyor belt 9, the conveying support 10 is arranged in the fixing groove 59, and the semicircular fixing groove 59 is formed in the conveyor belt 9, so that the corn cobs can be fixed by using the fixing groove 59, the problem that the corn cobs fall off due to inclination is prevented, and the corn cobs can be further guaranteed to be perpendicular to the conveying support 10.
As shown in fig. 11, a circle of rubber anti-slip sheets 40 are respectively arranged on the conveying clamping belts 13, the rubber anti-slip sheets 40 are arranged in a sheet shape, and the rubber anti-slip sheets 40 are arranged in a sheet shape and are distributed on the conveying clamping belts 13, so that after the conveying clamping belts 13 clamp corn cobs, the corn cobs can be further prevented from slipping by using the rubber anti-slip sheets 40, and the effect of clamping the corn cobs is ensured.
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.