CN217742330U - Header is concurrently received to ear of grain stem - Google Patents

Abstract

The utility model relates to the technical field of agricultural machinery, it is specific, relate to an ear of grain stem concurrently header, this header includes the header frame, install feeding system in the header frame and draw the stem to pluck the ear of grain unit, feeding system includes the centre gripping chain, it includes that a pair of installation is drawing the stem to pluck the feeding roller of ear of grain gearbox body top front side and a pair of and feeding roller correspond to draw the stem to pluck the ear of grain gearbox body top rear side, and install and draw the stem roller in drawing the stem to pluck the ear of grain gearbox body top rear side, feeding roller upper portion is connected with the centre gripping sprocket with centre gripping chain matched with, feeding system still includes reel standing grain feeding mechanism and stem clamping mechanism, reel standing grain feeding mechanism includes the reel stand and rotates the reel standing grain chain of installing above that, stem clamping mechanism includes the centre gripping frame, the centre gripping chain rotates to be installed in the centre gripping frame, reel standing grain chain rear end and centre gripping chain front end transmission are connected, the reel standing grain chain outside is equipped with the reel standing grain finger that is used for stirring the stem. The conveying stability and the harvesting efficiency are improved.

Description

Header is concurrently received to ear of grain stem

Technical Field

The utility model relates to the technical field of agricultural machinery, it is specific, relate to a spike stem header of holding concurrently.

Background

The existing corn harvester is provided with a clamping chain and a stalk-pulling roller which are sequentially arranged from front to back, feeding and clamping are mostly carried out by respectively using one clamping chain on the left and the right of a conveying channel, the stalk-pulling roller is connected with an ear picking roller, and a clamping chain wheel for driving the clamping chain is arranged between the stalk-pulling roller and the ear picking roller.

When the corn ear picking device is used, the two clamping chain wheels drive the corn straws to move backwards, and when the corn straws reach the position of the clamping and picking roller, the stem pulling roller and the picking roller continue to pull the corn straws and pick the corn ears.

The above technical solution has the following disadvantages: 1. this transmission mode centre gripping stability is low, at the in-process of carrying the stem stalk jam easily takes place, and the clearance is taken trouble hard for results inefficiency makes the fault rate of harvester rise moreover, has improved cost of maintenance. 2. The stalk-pulling roller and the clamping chain wheel are coaxially arranged, so that the corn straws reaching the rear part of the stalk-pulling roller are easy to move forward again after the clamping chain bypasses the stalk-pulling roller, and the stalk-pulling roller and the clamping chain are easy to be wound by broken leaves.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above problem provide an ear of grain stem concurrently header, improve and carry stability and results efficiency.

In order to achieve the purpose, the utility model discloses an ear and stem header, this header includes the header frame, install feeding system and draw the stem to pluck ear of grain unit in the header frame, feeding system includes the centre gripping chain, draw the stem to pluck ear of grain unit and include a pair of feeding roller of installing at drawing stem to pluck ear of grain gearbox box top front side and a pair of ear of grain pulling roller corresponding with the feeding roller, and install and draw the stem roller of plucking ear of grain gearbox box top rear side, feeding roller upper portion is connected with the centre gripping sprocket with centre gripping chain matched with, feeding system still includes reel feed mechanism and stem stalk fixture, reel feed mechanism includes reel frame and the reel chain of rotating the installation on it, stem stalk fixture includes the centre gripping frame, the centre gripping chain rotates to install in the centre gripping frame, reel chain rear end and centre gripping chain front end transmission are connected, the reel chain link joint outside is equipped with the reel finger that is used for stirring the stem, the reel finger is perpendicular with the direction of reel chain, reel inside and the stem stalk.

In prior art, the feeding and clamping of the ear-stalk and harvesting platform to the stalks are mostly respectively carried out by using a conveying chain on the left and right sides of the conveying channel, but the clamping stability of the conveying mode is low, the blockage phenomenon is easy to occur in the process of conveying the stalks, the cleaning is troublesome and laborious, the harvesting efficiency is low, the failure rate of the harvester is increased, and the maintenance cost is increased.

The straw conveying device has the advantages that one conveying chain is divided into two parts, namely the front feeding reel chain and the rear clamping chain, the straw is fed to the clamping chains by the reel chain, and then the straw is conveyed backwards by the clamping chains, so that the stability of straw conveying is enhanced, and the blocking phenomenon in the straw conveying process is effectively reduced; in addition, the straw can be poked into the clamping channel by the arrangement of the seedling poking fingers, so that the clamping chain is convenient to clamp the straw, and the conveying stability and the harvesting efficiency are enhanced.

The clamping chain is wound on the clamping chain wheel, the clamping chain wheel is located in front of the stem pulling rollers, when the corn stalk picking device is used, the rotating directions of the two stem pulling rollers are opposite, the rotating directions of the two feeding rollers are opposite, the clamping chain drives corn stalks to move backwards, when the corn stalks reach the clamping chain wheel, the stem pulling rollers and the corn stalk picking rollers continue to pull the corn stalks and pick corn ears, the clamping chain continues to rotate, and the next conveying of the corn stalks is completed. The corn straw can not bypass the stalk-pulling roller under the driving of the clamping chain, the probability of failure of the stalk-pulling roller due to the winding of the broken leaves is reduced, and the production efficiency is improved.

Preferably, the upper end and the lower end of the reel finger are respectively and fixedly connected to two reel outer chain plates or two reel inner chain plates which are opposite to each other on the reel chain, so that the structure of the reel chain is simplified.

Preferably, the seedling pulling fingers and the two seedling pulling outer chain plates or the two seedling pulling inner chain plates connected with the upper end and the lower end of the seedling pulling fingers are integrally formed. The stability of the structure of the reeling chain is enhanced, and the stability of the stalk feeding is further increased.

Preferably, the seedling pulling fingers are arranged on the seedling pulling outer chain plates and one seedling pulling finger is arranged at every other pair of seedling pulling outer chain plates, or the seedling pulling fingers are arranged on the seedling pulling inner chain plates and one seedling pulling finger is arranged at every other pair of seedling pulling inner chain plates.

Preferably, a plurality of gear-shaped clamping teeth are arranged on the outer side of the clamping chain at intervals and are positioned on the clamping inner chain plate and the clamping outer chain plate. The clamping stability of the stalks can be enhanced by arranging the gear-shaped clamping teeth, and the blocking phenomenon can be further prevented from occurring in the process of conveying the stalks.

Preferably, a rotary cone pulley is arranged at the joint of the reel frame and the clamping frame, and the front end of the clamping chain and the rear end of the reel chain are both arranged on the rotary cone pulley. The clamping chain transmits power to the reel chain through the rotating tower wheel.

Preferably, a reel chain wheel is arranged on the reel frame.

Preferably, a feeding channel is formed between every two reel feeding mechanisms, a clamping channel is formed between every two stalk clamping mechanisms, the width of a left opening and a right opening at the front end of the clamping channel is larger than that of a left opening and a right opening at the middle rear part of the clamping channel, and stalks can conveniently and smoothly enter the clamping channel from the feeding channel.

Preferably, the left and right clamping frames between two adjacent clamping channels correspond to a reel frame.

In the prior art, a reel stand is respectively connected in front of a left clamping stand and a right clamping stand between two adjacent clamping channels, and the structural stability is poor.

The reel machine frame in front of the left clamping machine frame and the right clamping machine frame between the two adjacent clamping channels is arranged into a whole, so that the structural stability is enhanced.

Preferably, the straw reeling machine further comprises two end reel frames positioned at the left side and the right side of all the clamping frames, the rear ends of the two end reel frames are respectively and rotatably connected with the front ends of the two clamping frames positioned at the leftmost side and the rightmost side, and a feeding channel is also formed between each end reel frame and the adjacent reel frame. The rotatable centre gripping frame front end of connecting of tip reel frame conveniently adjusts the cutting pair of maize results header, can satisfy the results requirement to the different planting interval maize.

Preferably, the standing grain reel further comprises an adjusting rod and a support fixedly arranged, a mounting seat is arranged on the end standing grain reel frame, and two ends of the adjusting rod are respectively hinged to the mounting seat and the support.

Preferably, adjust the pole including two steel pipes that are located both ends respectively and be located middle threaded rod, two steel pipes are close to the one end of threaded rod respectively fixedly connected with screw thread revolve to two opposite fixation nut, the both ends of threaded rod be equipped with respectively with two fixation nut's screw thread looks adaptation the screw thread, and the both ends of threaded rod pass two fixation nut respectively and stretch into in two steel pipes. The opening and closing degree between the end seedling shifting rack and the seedling shifting rack adjacent to the end seedling shifting rack can be adjusted by adjusting the length of the adjusting rod through rotating the threaded rod, so that the cutting pair of the corn harvesting header is adjusted, the operation is convenient, and the structure is simple.

Preferably, two movable nuts which are the same as the two fixing nuts in thread turning direction are respectively arranged at the positions, close to the two fixing nuts, on the threaded rod, and are used for fixing the adjusting rod, so that the stability between the threaded rod and the fixing nuts at the two ends of the threaded rod can be guaranteed. The middle of the threaded rod is provided with a clamping groove convenient for spanner adjustment, namely, the threads at the two ends of the clamping groove on the threaded rod are opposite in rotating direction.

Preferably, the clamping frame is provided with a tensioning wheel set, the tensioning wheel set is positioned on one side of the clamping frame far away from the clamping channel, and the installation position of the other tensioning wheel set is backward compared with one tensioning wheel set in the two tensioning wheel sets between the left clamping channel and the right clamping channel. So that the two opposite tightening wheel groups can not interfere with each other when the tensioning is adjusted, and the tensioning stroke is increased.

Preferably, the tensioning wheel set comprises a clamping tensioning wheel and a clamping pressing wheel, the clamping tensioning wheel is connected with the clamping pressing wheel through a connecting plate, the clamping pressing wheel is rotatably installed on the clamping rack, and the clamping tensioning wheel is hinged to the clamping rack through an adjusting device.

Preferably, the front end part of the clamping rack is provided with a front installation shaft and a rear installation shaft from front to back, the joints of the clamping rack, the reel rack connected with the clamping rack and the end reel rack are provided with tower wheel installation shafts which are in a straight line with the front installation shaft and the rear installation shaft, and the front installation shaft, the rear installation shaft and the tower wheel installation shafts are connected through strip plates, so that the installation strength between the clamping rack and the reel rack connected with the clamping rack or the end reel rack can be increased.

Preferably, in two tight pulley groups between two adjacent left and right clamping channels, the adjusting device of one of the tight pulley groups is hinged with the clamping rack through a front mounting shaft, and the adjusting device of the other tight pulley group is hinged with the clamping rack through a rear mounting shaft.

Preferably, the front end of the end reel stand is connected with reel tension pulleys through an elastic adjusting device, and the left end and the right end of the front end of the reel stand are respectively connected with the two reel tension pulleys through the elastic adjusting device.

Preferably, a plurality of groups of chain positioning mechanisms matched with the clamping chains are arranged on the adjacent side edges of the two clamping racks at intervals respectively, and each chain positioning mechanism comprises an anti-skid wheel and a limiting wheel which are arranged on the clamping racks.

At present, stem clamping device installs usually in the header frame of harvester on, because of the feed quantity increase of stem, can make the centre gripping chain clearance of inter-working increase at the device operation in-process to the centre gripping effect that leads to the centre gripping chain is relatively poor, the phenomenon of skidding appears, and simultaneously, current centre gripping conveying mechanism's fault rate is higher, can waste a large amount of manpower and materials at the maintenance in-process.

Through a plurality of antiskid wheel and spacing wheel that set up in two centre gripping frames, make the stem stalk carry in the centre gripping passageway and be S type route motion, can effectually guarantee the centre gripping effect in the stem stalk transportation process, avoid simultaneously among the transportation process the phenomenon of skidding to appear between stem stalk and the centre gripping chain.

Preferably, the anti-skid wheels and the limiting wheels are arranged at intervals along the front-back direction of the clamping rack, and the interval between the anti-skid wheels and the side edge of the clamping rack is larger than the distance between the limiting wheels and the side edge of the clamping rack. The clamping chain can be supported conveniently by the limit wheel close to the side edge of the clamping rack, and the anti-skidding wheel far away from the side edge of the clamping rack can facilitate the straw to form a depression when entering, so that the anti-skidding function is achieved in the straw clamping and conveying process.

Preferably, the anti-skid wheels and the limiting wheels on the two clamping frames are symmetrically arranged along a clamping channel formed by the two clamping frames, and the central axes of the anti-skid wheels and the central axes of the limiting wheels are positioned in the same vertical plane.

Preferably, the distance between the rotating tower wheel and the chain positioning mechanism is larger than the distance between the anti-skid wheel and the limiting wheel, and a bolt for fixing the clamping rack is arranged between the anti-skid wheel and the limiting wheel close to the clamping chain wheel. The chain positioning mechanism and the rotary cone pulley have a certain distance, so that the stalks can conveniently enter the clamping channel, and the bolts arranged between the anti-skidding wheels at the tail ends of the clamping channel and the limiting wheels are reduced, so that the distance between the anti-skidding wheels and the limiting wheels is reduced, the stalks can be conveniently conveyed, and the stalks can be prevented from being clamped at the tail ends of the clamping channel.

Preferably, the diameter of the antiskid wheel is smaller than that of the limiting wheel.

Preferably, the straw cutting machine further comprises a straw divider, a grain-supporting frame hinged on the header rack is arranged above the straw divider, a plurality of grain-supporting rods positioned above the straw divider are arranged on the grain-supporting frame, and the distance between the front ends of two adjacent grain-supporting rods is matched with the distance between two adjacent straw dividers below the grain-supporting rods.

At present, a grain lifting device is usually arranged on a header rack of a harvester, but most of the grain lifting devices are integrally bent, processed and molded, and the problem that grain dividers on two sides cannot be adjusted left and right exists, so that the adaptability is poor when crops with different row distances are harvested; because there is not locking mechanism on the present divider, so there is the great problem of vibrations when reaping, simultaneously, the fashioned divider of integrative buckling still has problems such as bulky, cost of transportation height, and when the staff overhauld, the process of dismouting also more loaded down with trivial details can waste a large amount of manpower and materials moreover.

The device is convenient to transport and overhaul, the divider and the straw-holding rod are designed into a split structure, so that the device is low in cost and convenient and quick to open during manufacturing and transportation, the divider is clamped on a feeding system through a clamping mechanism, the stability of the divider during harvesting can be effectively guaranteed, and the straw-holding rod hinged above the divider can adapt to harvesting crops with different growth conditions.

Preferably, the crop divider is a shell which is formed by a plurality of covering plates, is closed at the periphery and is opened at the lower part, and comprises a protective shell and a crop dividing shell which is connected to the front end of the protective shell and clamped on the feeding system.

Preferably, the protective shell comprises a first upper covering plate arranged horizontally, first side covering plates arranged on the left side and the right side of the first upper covering plate in an inclined mode, and rear covering plates vertically connected to the rear end of the first upper covering plate, wherein the left side and the right side of the first upper covering plate are connected with the first side covering plates; the seedling dividing shell comprises a second upper covering plate which is arranged at the front end of the first upper covering plate and inclines downwards, the front end of the second upper covering plate is connected with a rectangular plate which is arranged along the vertical direction, the left side and the right side of the second covering plate are provided with second side covering plates which are connected with the first side covering plates, and the lower bottom end of the second inclined covering plate is parallel and level with the lower bottom end of the rectangular plate. The straw divider is arranged into a semi-conical shell, so that the straw can be divided rapidly in the working process, the rectangular plate arranged at the front end of the straw divider can be matched with the straw dividing tension wheel arranged at the front end of the straw dividing rack, and the straws at the end part are pulled open by the straw dividing tension wheel, so that the straws can enter the feeding channel rapidly to avoid knocking down the straws.

A connecting hinge is arranged on the body of the protective shell close to the rear end, and a clamping mechanism connected with the reel stand is arranged in the seedling dividing shell; the rear end of the divider is hinged on the clamping rack through the connecting hinge, and the front part of the divider is clamped on the reel rack through the clamping mechanism, so that the whole divider can be conveniently disassembled and assembled, and the detection and the maintenance of workers are facilitated.

Preferably, the clamping mechanism comprises a clamping rod horizontally arranged in the seedling dividing shell and a clamping seat arranged on the seedling shifting frame, the clamping seat is wrapped and fixed on a connecting base on the seedling shifting frame and a buckle fixedly connected to one side of the connecting base and matched with the clamping rod, a positioning plate is arranged on the clamping rod, a clamping groove matched with the positioning plate is formed in the upper end face of the connecting base, and a clamping opening of the buckle vertically extends upwards and extends out of the upper end face of the connecting base. Through with the locating plate with clamp the pole card respectively and clamp the groove with in the buckle, make more convenient fast when dismouting divider to have and support limiting displacement and effectively avoid the luffing motion of divider.

Preferably, the seedling dividers close to the left end and the right end of the header rack comprise protective shells hinged with side plates of the header rack and seedling dividing shells hinged at the front ends of the protective shells and clamped at the front ends of the feeding systems, rubber plates are arranged on the left side plate and the right side plate of the seedling dividing shells, and the rubber plates cover gaps between the protective shells and the seedling dividing shells. The reel frames at the left end and the right end of the header frame are adjustable, the front ends of the dividers positioned at the left end and the right end of the header frame are arranged to be hinged structures, the dividers can be fully matched with the reel frames at the end parts, and straws positioned at the left end and the right end of the header frame can conveniently enter the feeding channels of the header.

Preferably, the rear end face of the grain divider is provided with a guard plate, the lower bottom edge of the guard plate is flush with the lower bottom edge of the rear end face of the grain divider, and the outer end edges of the upper guard plates of the two adjacent grain dividers are attached to each other. The harvested ears and stalks can be prevented from falling off by matching the upper guard plates of two adjacent grain dividers.

Preferably, the left side plate and the right side plate of the header frame are provided with hinged seats, the two ends of the grain-supporting frame are respectively hinged on the hinged seats of the left side plate and the right side plate of the header frame, each hinged seat comprises a supporting seat fixed on the inner end face of the side plate of the header frame, two hinged plates are arranged on the supporting seat at intervals, corresponding hinged holes are formed in the two hinged plates, the grain-supporting frame is a rod body with two ends bent downwards, through holes corresponding to the hinged holes are formed in the two ends of the rod body, and bolts for hinging the two through holes and the hinged holes are installed in the through holes. The grain-supporting frame is a rod body with two ends bent downwards, so that the grain-supporting frame can have a certain height and is convenient to install.

Preferably, the straw-holding rod is a rod body with the front end bent downwards and the front end attached to the top surface of the straw divider, the rear end of the straw-holding rod is fixedly connected to the straw-holding frame, the direction of the straw-holding rod is adapted to the clamping channel of the header frame, and a straw-holding limiting rod is arranged between two adjacent straw-holding rods positioned right above the clamping channel. The straw-holding rod with the bent front end is matched with the straw divider, so that the lodging of the ear-stalk during harvesting can be avoided, and the ear-stalk can enter the input channel when cutting is convenient.

Preferably, the ear-picking stalk-pulling roller comprises an upper ear-picking roller and a lower stalk-pulling roller, wherein the top of one ear-picking roller is in transmission connection with a reversing gear box for providing power for the ear-picking roller;

draw stem and pluck ear of grain gearbox and go up to rotate and be connected with the stem stalk roll axle of two vertical settings, the stem stalk rolls is installed on the stem stalk roll axle, two left and right settings of stem stalk roll axle, still rotate on the stem stalk plucking ear of grain gearbox and be connected with two vertical settings, and be located the feeding roller in stem stalk axle the place ahead, the feeding roller is installed on the feeding roller, two left and right settings of feeding roller axle, two transmission are connected between the stem stalk roll axle, transmission is connected between two feeding roller axles, one of them is drawn the stem stalk roll axle and one of them is gone into the transmission and is connected between the roller axle.

Preferably, one of the stem drawing roller shafts is provided with a first stem drawing roller gear and a second stem drawing roller gear, the other stem drawing roller shaft is provided with a third stem drawing roller gear meshed with the second stem drawing roller gear, one of the feeding roller shafts is provided with a second feeding roller gear and a first feeding roller gear meshed with the first stem drawing roller gear, the other feeding roller shaft is provided with a third feeding roller gear meshed with the second feeding roller gear, and the stem drawing roller shaft provided with the first stem drawing roller gear and the feeding roller shaft provided with the first feeding roller gear are arranged in a diagonal manner. When the corn ear picking device is used, the reversing gear box of the corn ear picking roller transmits power to the first corn ear picking roller to drive the first corn ear picking roller and the first stem-pulling roller shaft to rotate, the first stem-pulling roller shaft drives the second stem-pulling roller shaft to rotate through the second stem-pulling roller gear and the third stem-pulling roller gear, the first stem-pulling roller shaft drives the first feeding roller shaft to rotate through the first stem-pulling roller gear and the first feeding roller gear, and the first feeding roller shaft drives the second feeding roller shaft to rotate through the second feeding roller gear and the third feeding roller gear. The structure is compact and the transmission is reliable.

Preferably, the first stalk-pulling roller gear and the first feeding roller gear are positioned at the lower part of the inner side of the stalk-pulling ear-picking gear box body, the second stalk-pulling roller gear and the third stalk-pulling roller gear are positioned at the upper part of the inner side of the stalk-pulling ear-picking gear box body, and the second feeding roller gear and the third feeding roller gear are positioned at the middle part of the inner side of the stalk-pulling ear-picking gear box body. When the stem-pulling and ear-picking gearbox is used, gears in the stem-pulling and ear-picking gearbox body are arranged in three layers, so that the risk of mutual interference is reduced, the space utilization rate is improved, the structure is compact, and the transmission is reliable.

Preferably, the height of the upper end of the feeding roller shaft is larger than that of the upper end of the stalk-pulling roller shaft. When the feeding roller is used, the feeding roller shaft is used for installing the feeding roller, and the upper end of the feeding roller is arranged in a suspended mode, so that the feeding roller shaft is longer in length and is beneficial to improving the stability of the feeding roller; the stalk-pulling roller shaft is used for installing the stalk-pulling roller and the snapping roller, and the stalk-pulling roller shaft can be shorter because the upper end of the snapping roller is arranged in a suspension way.

Preferably, a feeding roller shaft sleeve sleeved on a feeding roller shaft is arranged on the stem-pulling ear-picking gearbox body, and the feeding roller shaft is rotatably connected with the upper end of the feeding roller shaft sleeve. When the feeding roller is used, the feeding roller is sleeved on the feeding roller shaft, and the feeding roller shaft sleeve can improve the stability of the feeding roller shaft and the feeding roller.

Preferably, the upper end of the stem pulling roll shaft is provided with a spline shaft structure, and the upper end of the feeding roll shaft is provided with a spline shaft structure. When in use, the utility model is convenient to install.

Preferably, the upper end of the stalk-pulling ear-picking gear box body is arranged in an open manner, and a stalk-pulling ear-picking gear box cover is detachably arranged at the upper end of the stalk-pulling ear-picking gear box body. Manufacturing and installation of gear box body convenient for stalk pulling and ear picking

Preferably, the lower end of the stalk-pulling roll shaft is rotatably connected with the bottom of the stalk-pulling ear-picking gear box body, the stalk-pulling roll shaft penetrates through the stalk-pulling ear-picking gear box cover and is rotatably connected with the stalk-pulling ear-picking gear box cover, the lower end of the feeding roll shaft is rotatably connected with the bottom of the stalk-pulling ear-picking gear box body, and the feeding roll shaft penetrates through the stalk-pulling ear-picking gear box cover and is rotatably connected with the stalk-pulling ear-picking gear box cover. The manufacturing and the installation of the stalk-pulling ear-picking gearbox body are convenient.

Preferably, the distance between the central axes of the two stalk-pulling roll shafts is smaller than the distance between the central axes of the two feeding roll shafts; the width of the gap between the two stalk-pulling rollers is less than that of the gap between the two feeding rollers. When in use, the conveying of the corn straws is convenient.

Preferably, the stem-pulling ear-picking gearbox body is rectangular, and four corners of the stem-pulling ear-picking gearbox body are provided with round corners. And each gear is convenient to mount.

Preferably, the side part of the feeding roller is connected with a plurality of feeding ridges, the feeding ridges extend along the vertical direction, and the outer sides of the feeding ridges are provided with a plurality of convex teeth. When the corn stalk feeding device is used, the feeding edge shifts the corn stalks to the rear part of the feeding roller along with the rotation of the feeding roller.

Preferably, the diameter of the upper end of the stalk-pulling roll is larger than that of the lower end of the stalk-pulling roll, a plurality of stalk-pulling ridges are connected to the side part of the stalk-pulling roll, the stalk-pulling ridges extend along the vertical direction, and the outer sides of the stalk-pulling ridges are vertically arranged. When the corn stalk puller is used, the gap between the lower ends of the two stalk pulling rollers is larger, so that corn stalks can be conveniently fed, and the blockage is reduced.

Preferably, the cross section of the side part of the snapping roll is octagonal, a plurality of first snapping ridges are connected to the side part of the snapping roll, and the first snapping ridges extend along the vertical direction. When the corn ear picking device is used, the first ear picking ridges push the corn straws to the rear part of the ear picking roller along with the rotation of the ear picking roller, so that the corn ears and the corn straws are conveniently separated.

Preferably, the cross section of the first snapping flute is circular. Preferably, the first ear picking ridges are made of threaded round steel, so that the friction force between the ear picking rollers and the corn straws is improved, and the first ear picking ridges push the corn straws to the rear parts of the ear picking rollers, so that the corn ears and the corn straws are conveniently separated.

Preferably, the number of the first snapping ridges is four, and the four first snapping ridges are arranged corresponding to four spaced corners on the side of the snapping roll one by one. When the corn ear picking device is used, the first ear picking ridges are matched with the ear picking rollers to push the corn straws left and right, so that the corn ears and the corn straws are conveniently separated.

Preferably, the cross section of the side part of the snapping roll is circular, the side part of the snapping roll is connected with a plurality of first snapping ridges, the first snapping ridges are U-shaped, the open end of the snapping roll faces the rotating direction of the snapping roll, and the first snapping ridges are distributed in a spiral shape. When the corn ear picking device is used, along with the rotation of the ear picking roller, the first ear picking ridges push the corn straws to the rear part of the ear picking roller, so that the corn ears and the corn straws are conveniently separated.

Preferably, the length of the lower side of the first snapping ridge is greater than that of the upper side of the first snapping ridge. When the corn ear picking device is used, the friction force between the ear picking roller and the corn straws is improved, the first ear picking ridges push the corn straws to the rear part of the ear picking roller, and the corn ears and the corn straws are conveniently separated.

Preferably, the end part of the lower side of the first snapping ridge is inclined downwards. When the corn ear picking device is used, the friction force between the ear picking roller and the corn straws is improved, the first ear picking ridges push the corn straws to the rear part of the ear picking roller, and the corn ears and the corn straws are conveniently separated.

Preferably, the cross section of the side part of the snapping roll is circular, and the side part of the snapping roll is connected with a second snapping ridge in a spiral shape. When the corn ear picking device is used, along with the rotation of the ear picking roller, the second ear picking ridges push the corn straws to the rear part of the ear picking roller, so that the corn ears and the corn straws are conveniently separated.

Preferably, the side part of the snapping roll is also connected with a plurality of first snapping ridges which extend along the vertical direction, and the first snapping ridges are provided with notches for the second snapping ridges to pass through. When the corn ear picking device is used, the friction force between the ear picking roller and the corn straws is improved, the first ear picking ridge and the second ear picking ridge push the corn straws to the rear part of the ear picking roller, and the corn ears and the corn straws are conveniently separated.

Preferably, the cross sections of the first snapping flute and the second snapping flute are circular. Preferably, the first ear picking ridges are made of threaded round steel, so that friction force between the ear picking rollers and the corn straws is improved, the first ear picking ridges and the second ear picking ridges push the corn straws to the rear parts of the ear picking rollers, and the corn ears and the corn straws are conveniently separated.

Preferably, the stalk-pulling roller and the snapping roller are of hollow structures. The manufacturing and the installation are convenient.

Preferably, the lower end of the stem pulling roller is provided with a spline groove structure, and the upper end of the snapping roller is provided with a spline shaft structure. The manufacture and installation are convenient.

Preferably, rotate on the header frame and install the edulcoration roller, the edulcoration roller is located the feeding system below, is equipped with two sets of spiral scrapers on the outer wall of edulcoration roller, and two sets of spiral scrapers revolve to opposite and extend along the axial spiral of edulcoration roller.

The edulcoration roller is installed in the rear side of cutter down, the front side of ear of grain conveyer belt, hold up the downside of standing grain chain, after maize straw is cut off by cutter down, carry backward via holding up the standing grain chain, at this in-process, the edulcoration roller that is driven by power input mechanism constantly rotates, and produce the contact with the straw, spiral scraper blade on the edulcoration roller can clear up maize straw lower extreme sticky earth and weeds, be provided with two sets of spiral scraper blades opposite to revolving on the edulcoration roller, can be with weeds to both sides propelling movement on the straw, guarantee self cleanness, avoid weeder winding weeds.

In order to further improve the cleaning capacity of the impurity removing roller, a transverse rib scraper blade is arranged on the outer wall of the impurity removing roller and extends along the axial direction of the impurity removing roller. The transverse rib scraper can scrape off soil adhered to the straw, so that the straw is effectively cleaned.

Preferably, the cross rib scraper blade is equipped with many, and many cross rib scraper blades encircle edulcoration roller circumference interval arrangement, can further improve the cleaning ability of edulcoration roller to gluing clay.

Preferably, the spiral scraper and/or the transverse rib scraper are/is provided with teeth at one end far away from the impurity removing roller. The tooth teeth can play a role of pulling weeds, so that the weeds wound on the impurity removing roller can be pulled off conveniently.

Regarding the arrangement form of the teeth, the teeth are arranged in a wave shape. The teeth are triangular and provided with a plurality of teeth.

In order to avoid winding weeds on the impurity removing roller, the fixed cutter is further arranged on the header rack and is positioned on the rear side of the impurity removing roller and is arranged at intervals with the impurity removing roller. Decide sword and edulcoration roller interval 2 to 3 millimeters, the cooperation of edulcoration roller is decided the sword and is used together, can prevent the winding debris of edulcoration roller, guarantees self cleanness.

Regarding the specific structure of the fixed knife, the fixed knife extends along the axial direction of the impurity removing roller, and the edge part of the fixed knife faces the impurity removing roller.

Regarding the concrete structure of spiral scraper blade, the spiral scraper blade comprises a plurality of blade subassemblies, and a plurality of blade subassemblies dock end to end in proper order and be the heliciform and arrange, and the butt joint department of blade subassembly is located the junction of two sets of spiral scraper blades. This arrangement mode is convenient for the spiral scraper shaping, when the spiral scraper damaged, only need change one section blade subassembly that damages can, make things convenient for the edulcoration roller to maintain.

Regarding the mounting structure of edulcoration roller, the both ends of edulcoration roller are equipped with the installation axle, and the edulcoration roller passes through the installation axle to rotate to be installed in the header frame.

To sum up, the beneficial effects of the utility model reside in that: 1. the straw conveying device has the advantages that one conveying chain is divided into two parts, namely the front feeding reel chain and the rear clamping chain, the straw is fed to the clamping chains by the reel chain, and then the straw is conveyed backwards by the clamping chains, so that the stability of straw conveying is enhanced, and the blocking phenomenon in the straw conveying process is effectively reduced; in addition, the straw can be pushed into the clamping channel by the aid of the straw pushing fingers, so that the clamping chain can clamp the straw conveniently, and conveying stability and harvesting efficiency are improved. 2. The clamping chain is wound on the clamping chain wheel, the clamping chain wheel is located in front of the stem pulling rollers, when the corn stalk picking device is used, the rotating directions of the two stem pulling rollers are opposite, the rotating directions of the two feeding rollers are opposite, the clamping chain drives corn stalks to move backwards, when the corn stalks reach the clamping chain wheel, the stem pulling rollers and the corn stalk picking rollers continue to pull the corn stalks and pick corn ears, the clamping chain continues to rotate, and the next conveying of the corn stalks is completed. The corn straw can not bypass the stalk-pulling roller under the driving of the clamping chain, the probability of failure of the stalk-pulling roller due to the winding of the broken leaves is reduced, and the production efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of the ear-stem harvesting header of the present invention;

fig. 2 is a schematic top view of the ear-stem header of the present invention;

FIG. 3 is an enlarged schematic view of a portion A of FIG. 2;

FIG. 4 is an enlarged schematic view of a portion B of FIG. 2;

fig. 5 is a schematic structural view of the seedling pulling and feeding mechanism and the stalk clamping mechanism in the ear-stalk and stalk-harvesting header of the present invention;

fig. 6 is a schematic path diagram of the reel chain and the gripper chain of fig. 5;

fig. 7 is a schematic structural view of a reel chain in the ear and stem header of the present invention;

fig. 8 is a schematic structural view of a clamping chain in the ear and stem header of the present invention;

fig. 9 is a schematic structural view of a stalk feeding channel and a stalk clamping channel in the ear-stalk harvesting header of the present invention;

fig. 10 is a schematic front structure view of a header frame and a crop divider in the ear-stem harvesting header of the present invention;

fig. 11 is a schematic back structure view of a header frame and a divider in the ear and stalk harvesting header of the present invention;

fig. 12 is a schematic structural view of a seedling divider in the ear and stem header of the present invention;

fig. 13 is a schematic structural view of a clamping seat in the ear-stem header of the present invention;

fig. 14 is a schematic structural view of a hinge seat in the ear-stem header of the present invention;

fig. 15 is a schematic structural view of the ear and stalk harvesting platform and the clamping chain of the present invention;

fig. 16 is a schematic perspective view of the ear-stem harvesting header of the present invention;

fig. 17 is a schematic front view of the ear-stem harvesting header of the present invention;

FIG. 18 is a schematic view of the section C-C in FIG. 17;

FIG. 19 is a schematic top view of the structure of FIG. 17;

FIG. 20 is a schematic view of section D-D of FIG. 17;

fig. 21 is a schematic three-dimensional structure diagram of a stalk-pulling ear-picking gear box of the ear-stalk and harvesting header of the present invention;

fig. 22 is a schematic front view of the stalk-pulling ear-picking gearbox of the ear-stalk and harvesting header of the present invention;

fig. 23 is a schematic top view of the stem-pulling ear-picking gear box of the ear and stem harvesting header of the present invention;

FIG. 24 is a schematic structural view of section E-E of FIG. 23;

FIG. 25 is a schematic view of the structure of section F-F in FIG. 23;

fig. 26 is a schematic view of a three-dimensional structure inside a stem pulling and ear picking gear box of the ear stem and stalk harvesting header of the present invention;

fig. 27 is a schematic view of the front view structure inside the stem-pulling ear-picking gear box of the ear-stem and harvesting header of the present invention;

fig. 28 is a schematic top view of the stem-pulling ear-picking gear box of the ear-stem and harvesting header of the present invention;

FIG. 29 is a schematic view of section G-G of FIG. 28;

FIG. 30 is a schematic structural view of section H-H in FIG. 28;

fig. 31 is a schematic perspective view of an ear picking roller and a stalk pulling roller in an embodiment of the ear and stalk harvesting header of the present invention;

fig. 32 is a schematic cross-sectional structure view of an ear picking roller in an embodiment of the ear and stalk harvesting header of the present invention;

fig. 33 is a schematic cross-sectional view of a stalk-pulling roll in an embodiment of the ear and stalk harvesting header of the present invention;

fig. 34 is a schematic perspective view of an ear picking roller and a stalk pulling roller in another embodiment of the ear and stalk harvesting header of the present invention;

fig. 35 is a schematic cross-sectional structure view of an ear picking roller in another embodiment of the ear and stalk harvesting header of the present invention;

fig. 36 is a schematic cross-sectional structure view of a stalk-pulling roll in another embodiment of the ear-stalk harvesting header of the present invention;

fig. 37 is a schematic perspective view of an ear-picking roller and a stalk-pulling roller in another embodiment of the ear-stalk harvesting header of the present invention;

fig. 38 is a schematic cross-sectional view of an ear-picking roller in another embodiment of the ear-stem header of the present invention;

fig. 39 is a schematic cross-sectional view of a stalk-pulling roll in yet another embodiment of the ear and stalk harvesting header of the present invention;

fig. 40 is a schematic structural view of a spiral scraper in an embodiment of the ear and stem header of the present invention;

fig. 41 is a schematic structural view of a helical scraper in another embodiment of the ear-stem harvesting header of the present invention;

FIG. 42 is an enlarged view of detail I of FIG. 41;

FIG. 43 is a bottom view of the structure of FIG. 40;

FIG. 44 is a bottom view of the structure of FIG. 41;

fig. 45 is a schematic perspective view of an impurity removing roller in an embodiment of the ear and stem harvesting platform of the present invention;

fig. 46 is a schematic perspective view of an impurity removing roller in another embodiment of the ear and stem harvesting platform of the present invention;

FIG. 47 is a schematic view of the mounting of the trash roller and scraper on the header frame;

fig. 48 is an enlarged view of a portion J of fig. 47.

In the figure:

201. a header frame;

501. a reel stand; 502. a clamping frame; 503. a feed channel; 504. a clamping channel; 505. adjusting a rod; 506. a support: 508. strip-shaped plate: 511. end reel stand: 512. a mounting seat: 521. anti-skid wheels; 522. a limiting wheel; 551. Steel pipe: 552. threaded rod: 553. fixing a nut: 554. a movable nut; 555. a card slot; 571. a front mounting shaft; 572. a rear mounting shaft; 573. a cone pulley mounting shaft; 574. an elastic adjustment device;

601. a reel chain; 602. a clamping chain; 611. a seedling pulling finger; 612. a reel outer chain plate; 613. a seedling pulling inner chain plate; 621. A clamping tooth; 622. clamping the inner chain plate; 623. clamping the outer chain plate;

701. rotating the cone pulley; 702. a reel tension wheel; 703. clamping the chain wheel; 704. a reel sprocket; 705. clamping the tension wheel; 706. clamping the pinch roller; 707. a connecting plate; 751. an adjustment device;

801. snapping a roll; 802. a reversing gear box of the snapping roll; 803. first ear picking ridges; 804. second picking ridges;

901. a stalk-pulling roller; 902. drawing stem ridges;

1001. a gear box body for pulling stems and picking ears; 1002. a feeding roll shaft; 1003. a stalk-pulling roller shaft; 1004. a feeding roller shaft sleeve; 1005. a first stalk-pulling roller gear; 1006. a second stalk-pulling roller gear; 1007. a third stalk-pulling roller gear; 1008. a first feed roller gear; 1009. a second feed roller gear; 1010. a third feed roller gear; 1011. a gear box cover is pulled to pull stems and pick up ears;

1101. a feed roller; 1102. feeding ridges;

12. an impurity removal roller; 1201. helical flighting, 1202, cross rib flighting, 1203, mounting shaft, 1204, teeth, 1205, blade assembly;

13. a grain lifter, 1301 and a grain divider; 1302. a grain-supporting frame; 1303. a grain lifter; 1304. a protective housing; 1305. a seedling dividing shell; 1306. a first upper cover plate; 1307. a first side cover plate; 1308. a rear cover plate; 1309. a second upper cover plate; 1310. a rectangular plate; 1311. a second side cover plate; 1312. connecting a hinge; 1313. clamping the rod; 1314. a connection base; 1315. buckling; 1316. positioning a plate; 1317. clamping grooves; 1318. a rubber plate; 1319. a guard plate; 1320. a hinged seat; 1321. a supporting base; 1322. a hinge plate; 1323. a bolt;

14. fixing a cutter;

15. and (4) a lower cutter.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1 to 48, an ear-stem harvesting header comprises a header frame 201, wherein a feeding system and a stem pulling and ear picking unit are mounted on the header frame 201, the feeding system comprises a clamping chain 602, the stem pulling and ear picking unit comprises a pair of feeding rollers 1101 mounted on the front side of the top of a stem pulling and ear picking gear box 1001 and a pair of ear picking and stem pulling rollers corresponding to the feeding rollers 1101 and mounted on the rear side of the top of the stem pulling and ear picking gear box 1001, the upper portion of the feeding rollers 1101 is connected with a clamping chain wheel 703 matched with the clamping chain 602, the feeding system further comprises a seedling pulling and feeding mechanism and a stem clamping mechanism, the seedling pulling and feeding mechanism comprises a seedling pulling frame 501 and a seedling pulling chain 601 rotatably mounted thereon, the stem clamping mechanism comprises a clamping frame 502, the clamping chain 602 is rotatably mounted on the clamping frame 502, the rear end of the seedling pulling chain 601 is in transmission connection with the front end of the clamping chain 602, a seedling pulling finger 611 for pulling a seedling, and the seedling pulling finger 611 is arranged outside the seedling pulling chain 601, and the seedling pulling finger 611 is perpendicular to the conveying direction of the seedling pulling chain 612, the seedling pulling chain plate and the seedling pulling chain 613 of the seedling pulling chain.

As shown in fig. 2 to 9, the stalks are transported from the front end to the rear end of the feeding system, with the arrow direction in fig. 9 being from front to rear, with reference to the driving path of the stalks as shown in fig. 9, front to rear. A rotary tower wheel 701 is arranged at the joint of the reel stand 501 and the clamping stand 502, and the front end of the clamping chain 602 and the rear end of the reel chain 601 are both arranged on the rotary tower wheel 701. That is, the gripper chain 602 transmits power to the reel chain 601 through the rotating turret 701. A reel chain wheel 704 is arranged on the reel frame 501, the reel chain 601 is arranged on the rotary tower wheel 701, the reel tension wheel 702 and the reel chain wheel 704, and the reel tension wheel 702 is used for enabling the reel chain 601 to be in a tension state; the clamping frame 502 is provided with a clamping tension wheel 705 and a clamping compression wheel 706 for tensioning the clamping chain 602.

The upper and lower ends of the seedling pulling finger 611 are respectively and fixedly connected to two seedling pulling outer chain plates 612 or two seedling pulling inner chain plates 613 which are opposite to each other on the seedling pulling chain 601, and further, the seedling pulling finger 611 and the two seedling pulling outer chain plates 612 or the two seedling pulling inner chain plates 613 which are connected with the two ends of the seedling pulling finger are integrally formed. The seedling pulling fingers 611 are arranged on the seedling pulling outer chain plates 612, one seedling pulling finger 611 is arranged at every other pair of seedling pulling outer chain plates 612, or the seedling pulling fingers 611 are arranged on the seedling pulling inner chain plates 613, and one seedling pulling finger 611 is arranged at every other pair of seedling pulling inner chain plates 613.

A plurality of wheel tooth-shaped clamping teeth 621 which are positioned on the clamping inner chain plate 622 and the clamping outer chain plate 623 are arranged at intervals outside the clamping chain 602, and one side of the clamping chain 602 which is far away from the clamping chain wheel 703 and the rotating cone pulley 701 is the outside. Namely, the outer sides of the clamping inner link plate 622 and the clamping outer link plate 623 are provided with gear-tooth-shaped clamping teeth 621.

A feeding channel 503 is formed between every two reel feeding mechanisms, a clamping channel 504 is formed between every two stalk clamping mechanisms, and the width of the left opening and the right opening at the front end of the clamping channel 504 is larger than that of the left opening and the right opening at the middle rear part of the clamping channel 504.

The left and right clamping frames 502 between the two adjacent clamping channels 504 correspond to a reel frame 501. In addition, the device also comprises two end seedling-pulling frames 511 positioned at the left and right sides of all the seedling-pulling frames 501, the rear ends of the two end seedling-pulling frames 511 are respectively and rotatably connected with the front ends of two clamping frames 502 positioned at the leftmost side and the rightmost side, and a feeding channel 503 is also formed between the end seedling-pulling frame 511 and the adjacent seedling-pulling frame 501. The stalks enter from the front end of the feeding channel 503, are conveyed by the feeding channel 503 and the clamping channel 504 in sequence, and then are subjected to the subsequent treatments such as ear picking and the like.

The harvester header comprises an adjusting rod 505 and a support 506, wherein the adjusting rod 505 can connect the end part reel frame 511 to the header frame 201, the support 506 is fixedly connected to the header frame 201, a mounting seat 512 is arranged on the end part reel frame 511, and two ends of the adjusting rod 505 are respectively hinged to the mounting seat 512 and the support 506. The header frame 201 is a part of the corn harvesting header, and the opening and closing degree between the two end part reel frames 511 and the reel frames 501 adjacent to the two end part reel frames can be conveniently controlled by adjusting the adjusting rods 505, so that the cutting width of the whole corn harvesting header for harvesting straws can be adjusted, and the harvesting requirements for corns with different planting intervals can be met.

Specifically, the adjusting rod 505 includes two steel pipes 551 located at two ends and a threaded rod 552 located in the middle, one ends of the two steel pipes 551 close to the threaded rod 552 are fixedly connected with two fixing nuts 553 with opposite thread turning directions, two ends of the threaded rod 552 are respectively provided with threads matched with the threads of the two fixing nuts 553, and two ends of the threaded rod 552 respectively penetrate through the two fixing nuts 553 and extend into the two steel pipes 551. Furthermore, the position that is close to two fixation nut 553 on the threaded rod 552 is equipped with respectively and revolves to the same two movable nut 554 with two fixation nut 553's screw thread for fixed adjustment pole 505, the centre of threaded rod 552 is equipped with the draw-in groove 555 that the spanner of being convenient for adjusted. I.e., the threads on threaded rod 552 on opposite ends of bayonet 555. The length of the adjusting rod 505 can be adjusted by using a wrench to clamp the clamping groove 555 and turning the threaded rod 552, so as to adjust the opening and closing degree between the end reel stand 511 and the reel stand 501 adjacent to the end reel stand. After adjusting the length of adjusting pole 505, twist movable nut to hugging closely rather than adjacent fixation nut department, can fix and adjust pole 505, can ensure the steadiness between the fixation nut at threaded rod 552 and its both ends, further improve the utility model discloses stability to the straw is carried.

The clamping frame 502 is provided with the tensioning wheel set, the tensioning wheel set is positioned on one side, far away from the clamping channel 504, of the clamping frame 502, the two tensioning wheel sets between the left clamping channel 504 and the right clamping channel 504 are arranged asymmetrically, and compared with the tensioning wheel set, the installation position of the other tensioning wheel set is backward, so that the two opposite tensioning wheel sets cannot interfere with each other when the tensioning is adjusted, and the tensioning stroke is increased. Specifically, the tensioning wheel set comprises a clamping tensioning wheel 705 and a clamping tensioning wheel 706, the clamping tensioning wheel 705 and the clamping tensioning wheel 706 are connected through a connecting plate 707, the clamping tensioning wheel 706 is rotatably mounted on the clamping frame 502, and the clamping tensioning wheel 705 is hinged on the clamping frame 502 through an adjusting device 751. The front end part of the clamping frame 502 is provided with a front mounting shaft 571 and a rear mounting shaft 572 from front to back, and the joints of the left and right clamping frames 502 and the reel frame 501 connected with the clamping frames are provided with two cone pulley mounting shafts 573 which are respectively in a straight line with the front mounting shaft 571 and the rear mounting shaft 572 on the left and right clamping frames 502; a cone pulley mounting shaft 573 which is in a straight line with the front mounting shaft 571 and the rear mounting shaft 572 is arranged at the joint of the clamping frame 502 and the end reel frame 511 connected with the clamping frame. The front mounting shaft 571, the rear mounting shaft 572 and the cone pulley mounting shaft 573 on the same clamping frame 502 are connected by the strip-shaped plate 508, so that the mounting strength between the clamping frame 502 and the reel frame 501 or the end reel frame 511 connected thereto can be increased. Specifically, in two pinch roller sets between two adjacent left and right clamping channels 504, the adjusting device 751 of one of the pinch roller sets is hinged to the clamping frame 502 through the front mounting shaft 571, and the adjusting device 751 of the other pinch roller set is hinged to the clamping frame 502 through the rear mounting shaft 572, so that the mounting position of the other pinch roller set is backward compared with that of one pinch roller set, and the tensioning of the two opposite pinch roller sets is conveniently adjusted.

The reel feeding mechanism comprises a reel frame 501, a reel chain 601 or an end reel frame 511 which is rotatably arranged on the reel frame 501, and a reel chain 601 which is rotatably arranged on the end reel frame 511, and the stem clamping mechanism comprises a clamping frame 502 and a clamping chain 602 which is rotatably arranged on the clamping frame. A rotary step pulley 701 is arranged at the junction of the reel stand 501 or the end reel stand 511 and the clamping stand 502, the rotary step pulley 701 is mounted on a step pulley mounting shaft 573, and the front end of the clamping chain 602 and the rear end of the reel chain 601 are mounted on the rotary step pulley 701. That is, the gripper chain 602 transmits power to the reel chain 601 through the rotating turret 701.

The front end of the end reel frame 511 is connected with reel tension wheels 702 through an elastic adjusting device 574, and the left and right ends of the front end of the reel frame 501 are respectively connected with the reel tension wheels 702 through the elastic adjusting device 574. The rear end of the clamping frame 502 is rotatably provided with a clamping chain wheel 703, and the rear end of the clamping chain 602 is mounted on the clamping chain wheel 703. Two reel chain wheels 704 corresponding to the two reel tension wheels 702 are arranged on the reel stand 501, a reel chain wheel 704 is arranged on the end reel stand 511, the reel chain 601 is arranged on the rotary tower wheel 701, the reel tension wheels 702 and the reel chain wheel 704, and the reel tension wheels 702 are used for enabling the reel chain 601 to be in a tension state; the clamp tensioner 705 and clamp pinch roller 706 of the tensioner pulley set are used to tension the clamp chain 602.

The adjacent side edges of the two clamping frames 502 form a clamping channel for conveying stalks; when in design, the clamping frames 502 are in a strip-like plate shape, the two clamping frames 502 are positioned in the same horizontal plane, the rear end of each clamping frame 502 is installed on the header frame, and the number of the stalk clamping mechanisms can be set according to the size of the header frame; the clamping frame 502 is provided with a driving chain wheel set and a clamping chain 602 matched with the driving chain wheel set, the driving chain wheel set comprises a rotary cone pulley 701 arranged at the front end of the clamping frame 502, a clamping chain wheel 703 arranged at the rear end of the clamping frame 502, a clamping pressure pulley 706 and a clamping tension wheel 705 arranged on the clamping frame 502, the clamping pressure pulley 706 and the clamping tension wheel 705 are arranged at one side of the clamping frame 502 far away from a clamping channel, usually the clamping pressure pulley 706 and the clamping tension wheel are arranged close to the rotary cone pulley 701, the clamping chain 602 is arranged on the driving chain wheel set, so that the clamping chain 602 forms a longer conveying channel by matching the rotary cone pulley 701 with the clamping chain wheel 703, a triangular chain stable supporting structure is formed by matching the clamping tension wheel 705, the rotary cone pulley 701 and the clamping chain wheel, stable operation of the clamping chain 602 can be effectively ensured, stability of the clamping pressure pulley 706 and the clamping tension wheel 705 can be more effectively ensured when the clamping chain 602 conveys stalks, and adjustment of the clamping chain 602 is facilitated.

A plurality of groups of chain positioning mechanisms matched with the clamping chains 602 are arranged on the adjacent sides of the two clamping frames 502 at intervals respectively, each chain positioning mechanism comprises an anti-skid wheel 521 and a limiting wheel 522 which are arranged on the clamping frame 502, in the design process, the anti-skid wheels 521 and the limiting wheels 522 are arranged at intervals along the front and back directions of the clamping frames 502, the interval between the anti-skid wheels 521 and the sides of the clamping frames 502 is larger than the distance between the limiting wheels 522 and the sides of the clamping frames 502, the distance between each limiting wheel 522 on the clamping frames 502 and the sides is equal, the distance between each anti-skid wheel 521 on the clamping frames 502 and the sides is also equal, the clamping chains 602 can be conveniently supported by the sides of the limiting wheels 522 close to the clamping frames 502, when the clamping chains 602 do not work, the clamping chains 602 are supported by the limiting wheels 522 for limiting, the clamping chains 602 on the two clamping channels are parallel, and the anti-skid wheels 521 far away from the sides of the clamping frames 502 can facilitate the stalks to enter to enable the clamping chains 602 to form depressions, the limiting is carried out, and the anti-skid effect is achieved in the clamping and conveying process of stalks.

The antiskid wheel 521 and the spacing wheel 522 on the two clamping frames 502 are symmetrically arranged along the clamping channel formed by the two clamping frames 502, and the central axes of the antiskid wheel 521 and the spacing wheel 522 are positioned in the same vertical plane, in the design process, the antiskid wheel 521 and the spacing wheel 522 on the two clamping frames are oppositely arranged, the spacing wheel 522 on the clamping frame 502 on one side is corresponding to the antiskid wheel 521 on the clamping frame 502 on the other side, so that the stalks are conveyed in the clamping channel to move in an S-shaped path, the clamping effect can be effectively ensured, the phenomenon of skidding is avoided, of course, the diameter of the antiskid wheel 521 during manufacturing is smaller than that of the spacing wheel 522, and the manufacturing cost can be saved.

The distance between the rotary tower wheel 701 and the chain positioning mechanism is greater than the distance between the anti-skid wheel 521 and the limiting wheel 522, the bolt for fixing the clamping rack 502 is arranged between the anti-skid wheel 521 and the limiting wheel 522 close to the clamping chain wheel 703, a certain distance is reserved between the chain positioning mechanism and the rotary tower wheel 701, more stalks can conveniently and stably enter the clamping channel, the bolt is arranged between the anti-skid wheel 521 at the tail end of the clamping channel and the limiting wheel 522, the distance between the anti-skid wheel 521 and the limiting wheel 522 is reduced, the stalks can be conveniently conveyed and prevented from being clamped at the tail end of the clamping channel.

The front ends of the two clamping frames 502 are respectively provided with a reel frame 501, the reel frame 501 is provided with a reel chain 601, a feeding channel 503 is formed by the two reel frames 501, and in design, the reel frames 501 arranged at the front ends of the two clamping frames 502 are in a flaring shape, so that more stalks can be conveniently collected, the stalks are controlled to enter the clamping channels, and the stalks are conveniently conveyed; during manufacturing, a rotary tower wheel 701 is arranged at the joint of the reel stand 501 and the clamping stand 502, the front end of the clamping chain 602 and the rear end of the reel chain 601 are both arranged on the rotary tower wheel 701, stable conveying of the stalks can be facilitated by controlling the reel chain 601 and the clamping chain 602 through the rotary tower wheel 701, a reel tension wheel 704 is arranged at the front end of the reel stand 501, a reel chain wheel 702 matched with the reel chain 601 is also arranged on the reel stand 501, and a stable triangular structure is formed by matching the reel chain wheel 702, the reel tension wheel 704 and the rotary tower wheel 701, so that the reel chain 601 arranged on the three is more stable when the stalks are conveyed.

As shown in fig. 10 to 14, the harvester also comprises a grain divider 1301, a grain support 1302 hinged on the header frame 201 is arranged above the grain divider 1301, a plurality of grain holding rods 1303 positioned above the grain divider 1301 are arranged on the grain support 1302, and the distance between the front ends of two adjacent grain holding rods 1303 is matched with the distance between two adjacent grain dividers 1301 below the grain holding rods 1303;

the divider 1301 is a casing formed by a plurality of covering plates, the periphery of the casing is closed, the lower part of the casing is open, and the divider 1301 comprises a protective casing 1304 and a dividing casing 1305 which is connected to the front end of the protective casing 1304 and is clamped on the reel stand 501.

The protective shell 1304 comprises a first upper covering plate 1306, first side covering plates 1307 and rear covering plates 1308, wherein the first upper covering plate 1306 is horizontally arranged, the first side covering plates 1307 are obliquely arranged on the left side and the right side of the first upper covering plate 1306, the rear covering plates 1308 are vertically connected to the rear end of the first upper covering plate 1306, the left side and the right side of the first upper covering plate 1307 are connected with the first side covering plates 1307, in design, the first side covering plates 1307 are obliquely arranged towards the outer sides of the first upper covering plate 1306, and plates close to the lower end edges of the first side covering plates 1307 are vertically arranged and are perpendicular to the plane where the first upper covering plate 1306 is located; the crop dividing case 1305 comprises a second upper covering plate 1309 which is arranged at the front end of the first upper covering plate 1306 and inclines downwards, the front end of the second upper covering plate 1309 is connected with a rectangular plate 1310 arranged along the vertical direction, second side covering plates 1311 connected with the first side covering plate 1307 are arranged on the left side and the right side of the second covering plate, meanwhile, the lower bottom end of the second inclined covering plate is flush with the lower bottom end of the rectangular plate 1310, when the crop dividing device is installed, the crop divider 1301 is installed on a feeding system, and a crop dividing tension wheel at the front end of the feeding system extends out of the vertical plane where the rectangular plate 1310 of the crop divider 1301 is located. The divider 1301 is arranged into a semi-conical shell, so that the straw can be quickly divided in the working process conveniently, the rectangular plate 1310 arranged at the front end of the divider 1301 can be matched with a straw dividing tension wheel arranged at the front end of the straw dividing rack, the straws at the end part are pulled open by the straw dividing tension wheel, the straws can quickly enter a feeding channel, and the problem that the front end part of the divider 1301 is knocked down is effectively avoided.

The reel frames 501 on the left and right sides of the header frame 201 are adjustable structures, a seedling dividing shell 1305 connected to the front end of a protective shell 1304 is divided into a hinge structure and a fixed connection structure during manufacturing, seedling dividers 1301 arranged on feeding systems on the left and right sides of the header frame 201 are swingable seedling dividers 1301 hinged to the seedling dividing shell 1305, and a seedling divider 1301 between the two swingable seedling dividers 1301 is fixedly connected to the front end of the protective shell 1304 for the seedling dividing shell 1305; when in design, the seedling dividers 1301 arranged on the left side and the right side of the header frame 201 comprise a protective shell 1304 hinged with side plates of the header frame 201 and a seedling dividing shell 1305 hinged with the front end of the protective shell 1304 and clamped at the front end of a feeding system, rubber plates 1318 are arranged on the left side plate and the right side plate of the seedling dividing shell 1305, the rubber plates 1318 cover a gap between the protective shell 1304 and the seedling dividing shell 1305, during manufacturing, a hinged baffle is arranged on an upper top plate of the seedling dividing shell 1305, an arc-shaped opening is formed in the hinged baffle, and a hinged bolt for hinging the seedling dividing shell 1305 on the protective shell 1304 is arranged on the arc-shaped opening. Through setting up rubber slab 1318 can prevent that debris from getting into divider 1301 by the clearance between protection casing 1304 and the divider casing 1305 inside, and the reel frame 501 of controlling both ends on header frame 201 is adjustable, the divider 1301 front end that will be located on header frame 201 controls both ends sets up to hinge structure, can fully cooperate with tip reel frame 501, conveniently be located in the feed channel of header of the straw entering header of header frame 201 controls both ends, of course, the outer terminal surface of divider 1301 that is located on controlling both ends feeding system when making is parallel and level with the outer terminal surface of the left and right sides board of header frame 201.

A connecting hinge 1312 is arranged on the body of the protective casing 1304 near the rear end, and a clamping mechanism connected with the reel stand 501 is arranged in the seedling dividing casing 1305. The rear ends of the top plates of the grain dividers 1301 positioned at the left end and the right end are provided with connecting hinges 1312 hinged on the side plates of the header frame 201, the rear covering plates 1308 of the grain dividers 1301 positioned between the grain dividers 1301 are provided with connecting hinges 1312 connected on the clamping frame 502, and the grain dividers 1301 are hinged on the header frame 201 or the clamping frame 502 through the connecting hinges 1312, so that the disassembly, assembly and maintenance of workers can be facilitated; the clamping mechanism comprises clamping rods 1313 horizontally and fixedly connected to the left and right inner walls of the seedling dividing shell 1305, clamping seats arranged on the seedling shifting rack 501, a connecting base 1314 fixed on the seedling shifting rack 501 and a buckle 1315 fixedly connected to one side of the connecting base 1314 and matched with the clamping rods 1313, a positioning plate 1316 is arranged on the clamping rods 1313, a clamping groove 1317 matched with the positioning plate 1316 is arranged on the upper end face of the connecting base 1314, a clamping opening of the buckle 1315 vertically extends upwards and out of the upper end face of the connecting base 1314, and during manufacturing, in order to enable the seedling divider 1301 to be stably clamped on the feeding system, two clamping seats are required to be matched with the clamping rods 1313, and two parallel positioning plates 1316 corresponding to the clamping seats are arranged on the clamping rods 1313. Through with locating plate 1316 with clamp in pole 1313 the card clamps groove 1317 and buckle 1315 respectively, make more convenient when dismouting divider 1301 to have and support limiting displacement and effectively avoid the luffing motion of divider 1301. A protective plate 1319 is further mounted on the rear end face of the grain divider 1301, the protective plate 1319 is made of rubber materials, the lower bottom edge of the protective plate 1319 is flush with the lower bottom edge of the rear end face of the grain divider 1301, and the outer end edges of the upper protective plates 1319 of the two adjacent grain dividers 1301 are attached to each other, so that harvested ears and stalks can be prevented from falling off due to the fact that the upper protective plates 1319 of the two adjacent grain dividers 1301 are matched.

A crop divider 1301, wherein a grain holding frame 1302 hinged on the header frame 201 is arranged above the crop divider 1301, a plurality of grain holding rods 1303 positioned above the crop divider 1301 are arranged on the grain holding frame 1302, and the distance between the front ends of two adjacent grain holding rods 1303 is adapted to the distance between two adjacent crop dividers 1301 below the grain holding rods 1303; during design, hinge seats 1320 are installed on the left and right side plates of the header frame 201, and two ends of the grain-holding frame 1302 are respectively hinged on the hinge seats 1320 on the left and right side plates of the header frame 201; the hinge base 1320 comprises a support base 1321 horizontally fixed on the inner end surface of the side plate of the header frame 201, two hinge plates 1322 are arranged on the support base 1321 at intervals, hinge holes are arranged on the two hinge plates 1322, the grain-supporting frame 1302 is a rod body with two ends bent downwards, through holes corresponding to the hinge holes are arranged at the two ends of the rod body, the two ends of the grain-supporting frame 1302 are bent and not arranged between the two hinge plates 1322, bolts 1323 for hinging the grain-supporting frame 1302 are arranged in the through holes and the hinge holes, the grain-supporting frame 1302 is hinged on the hinge base 1320 through the bolts 1323, and the grain-supporting frame 1302 is a rod body with two ends bent downwards, so that the grain-supporting frame 1302 can have a certain height and is convenient for installing the grain-supporting rod 1303. A grain-holding rod 1303 arranged on the grain-holding frame 1302 is a rod body with the front end bent downwards and the front end part attached to the top surface of the grain divider 1301, the rear end of the grain-holding rod 1303 is fixedly connected to the grain-holding frame 1302, and the fore-and-aft arrangement direction of the grain-holding rod 1303 is adapted to the clamping channel of the header frame 201; in order to facilitate the harvesting of the stalks, a grain-lifting limiting rod is arranged between two adjacent grain-lifting rods 1303 which are positioned right above the clamping channel, and when the stalks enter the conveying channel through the limiting rod, the grain-lifting rods 1303 above the limiting rod form a grain-lifting path with a large front end opening and a small rear end opening. Through the cooperation of the grain-holding rod 1303 with the curved front end and the grain divider 1301, the lodging of the ears and stalks during harvesting can be avoided, and the ears and stalks can conveniently enter the conveying channel during cutting.

As shown in fig. 15 to 39, the ear-picking stalk-pulling rollers comprise an upper ear-picking roller 801 and a lower stalk-pulling roller 901, wherein the top of one ear-picking roller 801 is in transmission connection with a reversing gear box 802 for providing power for the ear-picking roller;

the stalk-pulling ear-picking gearbox body 1001 is rotatably connected with two stalk-pulling rollers 1003 which are vertically arranged, the stalk-pulling rollers 901 are installed on the stalk-pulling rollers 1003, one of the two stalk-pulling rollers 1003 is arranged on the left and the other one are arranged on the right, the stalk-pulling ear-picking gearbox body 1001 is also rotatably connected with two vertical arrangements and is positioned on a feeding roller shaft 1002 in front of the stalk-pulling rollers 1003, the feeding roller 1101 is installed on the feeding roller shaft 1002, one of the two feeding roller shafts 1002 is arranged on the left and the other one are arranged on the right, the two stalk-pulling rollers 1003 are in transmission connection, the two feeding roller shafts 1002 are in transmission connection, and one of the stalk-pulling rollers 1003 and one of the feeding roller shafts 1002 are in transmission connection.

One of the stalk-pulling roll shafts 1003 is provided with a first stalk-pulling roll gear 1005 and a second stalk-pulling roll gear 1006, the other stalk-pulling roll shaft 1003 is provided with a third stalk-pulling roll gear 1007 meshed with the second stalk-pulling roll gear 1006, one of the feeding roll shafts 1002 is provided with a second feeding roll gear 1009 and a first feeding roll gear 1008 meshed with the first stalk-pulling roll gear 1005, the other feeding roll shaft 1002 is provided with a third feeding roll gear 1010 meshed with the second feeding roll gear 1009, and the stalk-pulling roll shaft 1003 provided with the first stalk-pulling roll gear 1005 and the feeding roll shaft 1002 provided with the first feeding roll gear 1008 are arranged in a diagonal manner. When the corn ear picking roller reversing gearbox is used, power is transmitted to the first picking roller 801 by the picking roller reversing gearbox 802 to drive the first picking roller 801 and the first stalk-pulling roller shaft 1003 to rotate, the second stalk-pulling roller shaft 1003 is driven to rotate by the first stalk-pulling roller shaft 1003 through the second stalk-pulling roller gear 1006 and the third stalk-pulling roller gear 1007, the first stalk-pulling roller shaft 1003 drives the first feeding roller shaft 1002 to rotate through the first stalk-pulling roller gear 1005 and the first feeding roller gear 1008, and the second 2 feeding roller shaft 1002 is driven to rotate by the first feeding roller shaft 1002 through the second feeding roller gear 1009 and the third feeding roller gear 1010. The structure is compact and the transmission is reliable.

The first stalk-pulling roller gear 1005 and the first feeding roller gear 1008 are positioned at the lower part of the inner side of the stalk-pulling ear-picking gear box 1001, the second stalk-pulling roller gear 1006 and the third stalk-pulling roller gear 1007 are positioned at the upper part of the inner side of the stalk-pulling ear-picking gear box 1001, and the second feeding roller gear 1009 and the third feeding roller gear 1010 are positioned at the middle part of the inner side of the stalk-pulling ear-picking gear box 1001. When the stem-pulling and ear-picking gearbox body 1001 is used, gears in the stem-pulling and ear-picking gearbox body are arranged in three layers, so that the risk of mutual interference is reduced, the space utilization rate is improved, and the structure is compact and the transmission is reliable.

The height of the upper end of the feeding roller shaft 1002 is larger than that of the upper end of the stalk-pulling roller shaft 1003. When the feeding roller is used, the feeding roller shaft 1002 is used for installing the feeding roller 1101, and the feeding roller 1101 is suspended at the upper end, so that the feeding roller shaft 1002 is longer in length, and the stability of the feeding roller 1101 is improved; the stalk-pulling roller shaft 1003 is used for mounting the stalk-pulling roller 901 and the snapping roller 801, and the stalk-pulling roller shaft 1003 can be shorter because the upper end of the snapping roller 801 is suspended.

A feeding roller shaft sleeve 1004 sleeved on a feeding roller shaft 1002 is arranged on the stem pulling and ear picking gear box 1001, and the feeding roller shaft 1002 is rotatably connected with the upper end of the feeding roller shaft sleeve 1004. When the feeding roller 1101 is used, the feeding roller 1002 is sleeved with the feeding roller shaft, and the feeding roller sleeve 1004 can improve the stability of the feeding roller 1002 and the feeding roller 1101.

The upper end of the stalk-pulling roll shaft 1003 is provided with a spline shaft structure, and the upper end of the feeding roll shaft 1002 is provided with a spline shaft structure. When in use, the utility model is convenient to install.

The upper end of the stalk-pulling ear-picking gear box body 1001 is arranged in an open mode, and the stalk-pulling ear-picking gear box cover 1011 is detachably arranged at the upper end of the stalk-pulling ear-picking gear box body 1001. The manufacturing and installation of the stalk pulling and ear picking gearbox body 1001 are convenient.

The lower end of a stalk-pulling roller shaft 1003 is rotatably connected with the bottom of a stalk-pulling ear-picking gear box body 1001, the stalk-pulling roller shaft 1003 penetrates through a stalk-pulling ear-picking gear box cover 1011 and is rotatably connected with the stalk-pulling ear-picking gear box cover 1011, the lower end of a feeding roller shaft 1002 is rotatably connected with the bottom of the stalk-pulling ear-picking gear box body 1001, and the feeding roller shaft 1002 penetrates through the stalk-pulling ear-picking gear box cover 1011 and is rotatably connected with the stalk-pulling ear-picking gear box cover 1011. The manufacturing and installation of the stalk pulling and ear picking gearbox body 1001 are convenient.

The distance between the central axes of the two stalk-pulling rollers 1003 is smaller than the distance between the central axes of the two feeding roller 1002; the width of the gap between the two stalk rolls 901 is smaller than the width of the gap between the two feed rolls 1101. When in use, the utility model is convenient for conveying the corn stalks.

The stalk-pulling ear-picking gearbox 1001 is rectangular in shape, and four corners of the stalk-pulling ear-picking gearbox 1001 have rounded corners. And each gear is convenient to install.

The side of the feeding roller 1101 is connected with a plurality of feeding ridges 1102, the feeding ridges 1102 extend along the vertical direction, and the outer side of the feeding ridges 1102 is provided with a plurality of convex teeth. When the corn stalk feeding device is used, the feeding ridge 1102 shifts corn stalks to the rear part of the feeding roller 1101 along with the rotation of the feeding roller 1101.

The diameter of the upper end of the stalk pulling roll 901 is larger than that of the lower end of the stalk pulling roll 901, the side part of the stalk pulling roll 901 is connected with a plurality of stalk pulling ridges 902, the stalk pulling ridges 902 extend along the vertical direction, and the outer sides of the stalk pulling ridges 902 are vertically arranged. When the corn stalk puller is used, the gap between the lower ends of the two stalk pulling rollers 901 is large, so that corn stalks can be conveniently fed, and blockage is reduced.

In one embodiment: the cross section of the side part of the snapping roll 801 is octagonal, the side part of the snapping roll 801 is connected with a plurality of first snapping ridges 803, and the first snapping ridges 803 extend along the vertical direction. When the corn ear picking device is used, the first ear picking ridges 803 pick corn straws to the rear part of the ear picking roller 801 along with the rotation of the ear picking roller 801, so that corn ears and the corn straws are conveniently separated.

The cross section of the first snapping ridges 803 is round. Preferably, the first ear picking ridges 803 are made of threaded round steel, so that the friction force between the ear picking rollers 801 and the corn straws is improved, and the corn straws are pulled to the rear parts of the ear picking rollers 801 by the first ear picking ridges 803, so that the corn ears and the corn straws are conveniently separated.

The number of the first snapping ridges 803 is four, and the four first snapping ridges 803 are arranged corresponding to four spaced corners on the side of the snapping roll 801 one by one. When the corn ear picking device is used, the first ear picking ridges 803 are matched with the ear picking rollers 801 to push the corn straws left and right, so that the corn ears and the corn straws are conveniently separated.

In another embodiment: the cross section of the side of the snapping roll 801 is circular, the side of the snapping roll 801 is connected with a plurality of first snapping ridges 803, the first snapping ridges 803 are U-shaped, the open end of the snapping roll 801 faces the rotation direction of the snapping roll 801, and the first snapping ridges 803 are spirally distributed. When the corn ear picking device is used, the first ear picking ridges 803 pick corn straws to the rear part of the ear picking roller 801 along with the rotation of the ear picking roller 801, so that corn ears and the corn straws are conveniently separated.

The length of the lower side of the first ear-picking ridge 803 is longer than that of the upper side of the first ear-picking ridge 803. When the corn ear picking device is used, the friction force between the ear picking roller 801 and corn straws is improved, the corn straws are pushed to the rear part of the ear picking roller 801 by the first ear picking ridges 803, and the corn ears and the corn straws are conveniently separated.

The end part of the lower side of the first ear picking ridge 803 is inclined downwards. When the corn ear picking device is used, the friction force between the ear picking roller 801 and corn straws is improved, the corn straws are pushed to the rear part of the ear picking roller 801 by the first ear picking ridges 803, and the corn ears and the corn straws are conveniently separated.

In yet another embodiment: the cross section of the side part of the snapping roll 801 is circular, and the side part of the snapping roll 801 is connected with a second snapping ridge 804 which is spiral. When the corn ear picking device is used, the second ear picking ridges 804 are used for poking the corn straws to the rear part of the ear picking roller 801 along with the rotation of the ear picking roller 801, so that the corn ears and the corn straws are conveniently separated.

The side of the ear picking roller 801 is also connected with a plurality of first ear picking ridges 803, the first ear picking ridges 803 extend along the vertical direction, and the first ear picking ridges 803 are provided with notches for the second ear picking ridges 804 to pass through. When the corn ear picking device is used, the friction force between the ear picking roller 801 and corn straws is improved, the first ear picking ridge 803 and the second ear picking ridge 804 pick the corn straws to the rear part of the ear picking roller 801, and the corn ears and the corn straws are conveniently separated.

The cross sections of the first stripping ridges 803 and the second stripping ridges 804 are circular. Preferably, the first ear picking ridges 803 are made of threaded round steel, so that the friction force between the ear picking rollers 801 and the corn straws is improved, and the corn straws are pulled to the rear parts of the ear picking rollers 801 by the first ear picking ridges 803 and the second ear picking ridges 804, so that the corn ears and the corn straws are conveniently separated.

The stalk-pulling roller 901 and the snapping roller 801 are hollow structures. The manufacture and installation are convenient.

The lower end of the stalk-pulling roller 901 is provided with a spline groove structure, and the upper end of the snapping roller 801 is provided with a spline shaft structure. The manufacture and installation are convenient.

As shown in fig. 40 to 48, the header frame 201 is rotatably provided with the impurity removing roller 12, the impurity removing roller 12 is located below the feeding system, the outer wall of the impurity removing roller 12 is provided with two sets of spiral scrapers 1201, and the two sets of spiral scrapers 1201 extend spirally in opposite directions and along the axial direction of the impurity removing roller 12. Referring to the attached drawings 1 and 8, an impurity removing roller 12 is installed on the rear side of a lower cutter 15, the front side of a fruit ear conveying belt and the lower side of a grain lifting chain, corn straws are cut off by the lower cutter 15 and then conveyed backwards through the grain lifting chain, in the process, the impurity removing roller 12 driven by a power input mechanism rotates constantly and contacts with the straws, soil and weeds adhered to the lower ends of the corn straws can be cleaned by spiral scraping plates 1201 on the impurity removing roller 12, two groups of spiral scraping plates 1201 with opposite rotating directions are arranged on the impurity removing roller 12, the weeds on the straws can be pushed to two sides, self-cleaning is guaranteed, and the phenomenon that a weed remover winds the weeds is avoided.

In order to further improve the cleaning ability of the trash roller 12, a transverse rib scraper 1202 is provided on the outer wall of the trash roller 12, and the transverse rib scraper 1202 extends in the axial direction of the trash roller 12. The transverse rib scrapers 1202 can scrape off soil adhered to the straws, and the straws are effectively cleaned. Referring to fig. 4 and 5, a plurality of transverse rib scrapers 1202 are provided, and the plurality of transverse rib scrapers 1202 are circumferentially arranged around the impurity removing roller 12 at intervals, so that the cleaning capability of the impurity removing roller 12 on clay can be further improved.

The helical blade 1201 and/or the cross-rib blade 1202 are provided with teeth 1204 at the end facing away from the stripping roll 12. The teeth 1204 can play a role of pulling weeds, so that the weeds wound on the impurity removing roller 12 can be pulled off conveniently. With respect to the arrangement of the teeth 1204, the teeth 1204 are arranged in a wave shape. The teeth 1204 are triangular in shape, and the teeth 1204 are provided in plurality.

In order to avoid winding weeds on the impurity removing rollers 12, the fixed knife device further comprises a fixed knife 14, the fixed knife 14 is installed on the header rack 201, and the fixed knife 14 is located on the rear side of the impurity removing rollers 12 and is arranged at intervals with the impurity removing rollers 12. The fixed knife 14 and the edulcoration roller 12 interval is 2 to 3 millimeters, and the edulcoration roller 12 cooperates fixed knife 14 to use together, can prevent the winding debris of edulcoration roller 12, guarantees self-cleanness. The fixed knife 14 has a specific configuration in which the fixed knife 14 extends in the axial direction of the trash roller 12 and the edge of the fixed knife 14 faces the trash roller 12.

Regarding the specific structure of the spiral scraper 1201, the spiral scraper 1201 is composed of a plurality of blade assemblies 1205, the blade assemblies 1205 are sequentially butted end to end and arranged in a spiral shape, and the butted position of the blade assemblies 1205 is located at the intersection of two sets of spiral scrapers 1201. This arrangement mode is convenient for spiral scraper 1201 to take shape, when spiral scraper 1201 damaged, only need change one section blade subassembly 1205 that damages can, make things convenient for the edulcoration roller to maintain.

Regarding the mounting structure of the impurity removal roller 12, mounting shafts 1203 are provided at both ends of the impurity removal roller 12, and the impurity removal roller 12 is rotatably mounted on the header frame 201 via the mounting shafts 1203.

The utility model discloses a power is transmitted for snapping roll switching-over tooth case 802, transition axle and back licker-in by the header transmission shaft.

The reversing gear box 802 of the snapping roll is transmitted to a first stalk-pulling roll 901, the first stalk-pulling roll 901 is transmitted to a stalk-pulling snapping gear box, and the stalk-pulling snapping gear box is transmitted to a second stalk-pulling roll 901 and a feeding roll 1101. The feed rollers 1101 deliver to the gripping chain 602 and to the reel chain 601.

The transition shaft is transmitted to the impurity removing roller 12, the reversing gear box of the conveying belt and the lower cutting knife 15, and the reversing gear box of the conveying belt is transmitted to the conveying belt.

Header transmission shaft, transition shaft, back licker-in, conveyer belt switching-over gear case conveyer belt are prior art, do not give unnecessary details here.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be considered as the protection scope of the present invention.

Claims (10)

1. The ear-stem header is characterized by comprising a header rack (201), wherein a feeding system and a stem pulling and ear picking unit are installed on the header rack (201), the feeding system comprises a clamping chain (602), the stem pulling and ear picking unit comprises a pair of feeding rollers (1101) installed on the front side of the top of a stem pulling and ear picking gear box body (1001) and a pair of ear picking and stem pulling rollers corresponding to the feeding rollers (1101) and installed on the rear side of the top of the stem pulling and ear picking gear box body (1001), the upper portion of each feeding roller (1101) is connected with a clamping chain wheel (703) matched with the clamping chain (602), the feeding system further comprises a seedling pulling feeding mechanism and a stem clamping mechanism, the seedling pulling feeding mechanism comprises a seedling pulling rack (501) and a seedling pulling chain (601) rotatably installed on the seedling pulling and stem clamping mechanism comprises the clamping rack (502), the clamping chain (602) is rotatably installed on the clamping rack (502), the rear end of the seedling pulling chain (601) is in transmission connection with the front end of the clamping chain (602), a seedling pulling finger (611) for pulling the seedling pulling chain (601) is arranged on the outer side of the seedling pulling chain (601), and a seedling pulling chain plate (613) for pulling in the direction perpendicular to the seedling pulling chain (611) and an outer seedling pulling chain plate (612) for conveying the seedling pulling chain plate.

2. A corncob and stalk header as claimed in claim 1, wherein the front end of the reel stand (501) is provided with a reel tension wheel (702), and the front end of the reel chain (601) is arranged on the reel tension wheel (702);

a rotary tower wheel (701) is arranged at the joint of the reel stand (501) and the clamping stand (502), and the front end of the clamping chain (602) and the rear end of the reel chain (601) are both arranged on the rotary tower wheel (701);

a reel chain wheel (704) is arranged on the reel frame (501).

3. The ear-stem header as claimed in claim 2, wherein a feeding channel (503) is formed between every two reel feeding mechanisms, a clamping channel (504) is formed between every two stalk clamping mechanisms, and the width of the left and right openings at the front end of the clamping channel (504) is greater than the width of the left and right openings at the middle and rear part of the clamping channel (504);

the left and right clamping frames (502) between two adjacent clamping channels (504) correspond to a reel frame (501).

4. A ear and stem header as claimed in claim 3, wherein the adjacent side edges of the two clamping frames (502) are respectively provided with a plurality of groups of chain positioning mechanisms at intervals, the chain positioning mechanisms are matched with the clamping chains (602), and each chain positioning mechanism comprises an anti-skid wheel (521) and a limiting wheel (522) which are arranged on the clamping frame (502);

the anti-skid wheels (521) and the limiting wheels (522) are arranged at intervals along the front-rear direction of the clamping rack (502), and the interval between the anti-skid wheels (521) and the side edge of the clamping rack (502) is larger than the distance between the limiting wheels (522) and the side edge of the clamping rack (502);

the anti-skid wheels (521) and the limiting wheels (522) on the two clamping frames (502) are symmetrically arranged along a clamping channel formed by the two clamping frames (502), and the central axes of the anti-skid wheels (521) and the limiting wheels (522) are positioned in the same vertical plane;

the distance between the rotary tower wheel (701) and the chain positioning mechanism is greater than the distance between the anti-skid wheel (521) and the limiting wheel (522), and a bolt for fixing the clamping rack (502) is arranged between the anti-skid wheel (521) and the limiting wheel (522) close to the clamping chain wheel (703);

the diameter of the antiskid wheel (521) is smaller than that of the limiting wheel (522).

5. The stalk-harvesting header as claimed in claim 4, further comprising a crop divider (1301), wherein a grain-holding frame (1302) hinged to the header frame (201) is disposed above the crop divider (1301), a plurality of grain-holding rods (1303) disposed above the crop divider (1301) are disposed on the grain-holding frame (1302), and the distance between the front ends of two adjacent grain-holding rods (1303) is adapted to the distance between two adjacent crop dividers (1301) below the grain-holding rods (1303).

6. A corncob and stalk header as claimed in any one of claims 1 to 5 wherein the ear-plucking stalk rolls comprise an upper ear-plucking roll (801) and a lower stalk-plucking roll (901), wherein the top of one ear-plucking roll (801) is drivingly connected to a reversing gearbox (802) powering it;

the stalk-pulling ear-picking gearbox body (1001) is connected with two stalk-pulling rollers (1003) which are vertically arranged in a rotating mode, the stalk-pulling rollers (901) are installed on the stalk-pulling rollers (1003), one of the two stalk-pulling rollers (1003) is arranged on the left and the other one of the two stalk-pulling rollers (1003) are arranged on the right, the stalk-pulling ear-picking gearbox body (1001) is also connected with two feeding rollers (1002) which are vertically arranged and located in front of the stalk-pulling rollers (1003) in a rotating mode, the feeding rollers (1101) are installed on the feeding rollers (1002), one of the two feeding rollers (1002) is arranged on the left and the other one of the two stalk-pulling rollers (1003) in a driving mode, the two feeding rollers (1002) are connected in a driving mode, and one of the stalk-pulling rollers (1003) is connected with one of the feeding rollers (1002) in a driving mode;

a first stem drawing roller gear (1005) and a second stem drawing roller gear (1006) are installed on one stem drawing roller shaft (1003), a third stem drawing roller gear (1007) meshed with the second stem drawing roller gear (1006) is installed on the other stem drawing roller shaft (1003), a second feeding roller gear (1009) and a first feeding roller gear (1008) meshed with the first stem drawing roller gear (1005) are installed on one feeding roller shaft (1002), a third feeding roller gear (1010) meshed with the second feeding roller gear (1009) is installed on the other feeding roller shaft (1002), and the stem drawing roller shaft (1003) provided with the first stem drawing roller gear (1005) and the feeding roller shaft (1002) provided with the first feeding roller gear (1008) are arranged in a diagonal manner;

the first stalk-pulling roller gear (1005) and the first feeding roller gear (1008) are positioned at the lower part of the inner side of the stalk-pulling ear-picking gear box body (1001), the second stalk-pulling roller gear (1006) and the third stalk-pulling roller gear (1007) are positioned at the upper part of the inner side of the stalk-pulling ear-picking gear box body (1001), and the second feeding roller gear (1009) and the third feeding roller gear (1010) are positioned at the middle part of the inner side of the stalk-pulling ear-picking gear box body (1001).

7. A stalk-harvesting header according to claim 6 wherein the distance between the central axes of the two stalk-pulling rollers (1003) is less than the distance between the central axes of the two feed rollers (1002); the width of the gap between the two stalk-pulling rollers (901) is smaller than the width of the gap between the two feeding rollers (1101).

8. The scion-stalk header as claimed in claim 6, wherein the side of the feeding roller (1101) is connected with a plurality of feeding ridges (1102), the feeding ridges (1102) extend along the vertical direction, and the outer side of the feeding ridges (1102) is provided with a plurality of convex teeth;

the diameter of the upper end of the stem drawing roller (901) is larger than that of the lower end of the stem drawing roller, the side part of the stem drawing roller (901) is connected with a plurality of stem drawing ridges (902), the stem drawing ridges (902) extend along the vertical direction, and the outer side of the stem drawing ridges (902) is vertically arranged.

9. The combined ear and stem header as claimed in claim 8, wherein the side cross section of the snapping roll (801) is octagonal, the side of the snapping roll (801) is connected with a plurality of first snapping ridges (803), the first snapping ridges (803) extend in the vertical direction; the cross section of the first ear picking arris (803) is round; the number of the first ear picking ridges (803) is four, and the four first ear picking ridges (803) are arranged corresponding to four spaced corners on the side of the ear picking roller (801) one by one; or the cross section of the side part of the snapping roll (801) is circular, the side part of the snapping roll (801) is connected with a plurality of first snapping ridges (803), the first snapping ridges (803) are U-shaped, the open end of the snapping roll (801) faces to the rotation direction of the snapping roll (801), and the first snapping ridges (803) are distributed in a spiral shape; the length of the lower side edge of the first ear picking ridge (803) is greater than that of the upper side edge of the first ear picking ridge (803); the end part of the lower side of the first ear picking ridge (803) is inclined downwards; or the cross section of the side part of the snapping roll (801) is circular, and the side part of the snapping roll (801) is connected with a second snapping ridge (804) which is spiral; the side part of the ear picking roller (801) is also connected with a plurality of first ear picking ridges (803), the first ear picking ridges (803) extend along the vertical direction, and the first ear picking ridges (803) are provided with gaps for the second ear picking ridges (804) to pass through; the cross sections of the first ear picking ridges (803) and the second ear picking ridges (804) are circular.

10. A ear and stem harvesting platform according to any one of claims 1 to 5, characterized in that the harvesting platform frame (201) is rotatably provided with an impurity removing roller (12), the impurity removing roller (12) is positioned below the feeding system, the outer wall of the impurity removing roller (12) is provided with two groups of spiral scrapers (1201), and the two groups of spiral scrapers (1201) have opposite rotation directions and spirally extend along the axial direction of the impurity removing roller (12);

a transverse rib scraper blade (1202) is arranged on the outer wall of the impurity removing roller (12), and the transverse rib scraper blade (1202) extends along the axial direction of the impurity removing roller (12);

the transverse rib scrapers (1202) are provided with a plurality of transverse rib scrapers (1202), and the plurality of transverse rib scrapers (1202) are arranged at intervals in the circumferential direction around the impurity removing roller (12);

teeth (1204) are arranged at one end of the spiral scraper (1201) and/or the transverse rib scraper (1202) far away from the impurity removing roller (12);

the teeth (1204) are arranged in a wave shape;

still include stationary knife (14), stationary knife (14) are installed on header frame (201), and stationary knife (14) are located the rear side of edulcoration roller (12) and set up with edulcoration roller (12) interval.

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