CN103053270B - Corn harvester and edulcoration and screening device for grains of corn harvester - Google Patents

Abstract

The invention relates to a corn harvester and an edulcoration and screening device for grains of the corn harvester. The edulcoration and screening device for grains of the corn harvester comprises a machine frame and a screen body with the length direction extending in the front and the back. A following mechanism and a moving mechanism are arranged on the machine frame in the front and the back directions at intervals. The moving mechanism comprises a planer connection rod transmission mechanism and a driving shaft arranged on the machine frame. The planer connection rod transmission mechanism comprises a driving arm and an eccentric block, wherein the driving arm is fixedly arranged on the driving shaft, the length of the driving arm extends in the radial direction of the driving shaft, the eccentric block is provided with two hinged positions with the radial directions respectively extending in the lateral direction, one hinged position of the eccentric block is connected with the screen body in hinged mode, a connection rod is hinged to the other hinged position of the eccentric block, and one end of the connection rod far away from the eccentric block is connected with one end of the driving arm far away from the driving shaft so as to lead the eccentric block to drive the screen body to be in forward slanting and backward slanting reciprocating motion when the driving shaft circumferentially rotates. The edulcoration and screening device for grains of the corn harvester solves the problem in the prior art that the screen body cannot screen grains in vibration mode.

Description

Maize harvesting machine and seed removal of impurities screening plant thereof

Technical field

The present invention relates to maize harvesting machine and seed removal of impurities screening plant thereof.

Background technology

Existing maize harvesting machine mainly comprises corn harvesting apparatus, debarker and seed removal of impurities screening plant, the broken stipe of the bracteal leaf of corn divested by debarker and removing is mainly carried by chain harrow and is discharged by seed removal of impurities screening plant, by the bract come off in debarker, broken stipe and a small amount of seed are fallen on sorting screen by the sieve nest of seed removal of impurities screening plant, bracteal leaf of corn and disconnected stem stalk are then transported to far-end by corresponding carrier chain target until discharge maize harvesting machine outside, seed moves along with the revolution of carrier chain target, discharging by bract and broken stipe gradually, and kernel recovery box below sieve nest and sorting screen fall into thus reclaim, wherein sieve nest is fixed in the frame of seed removal of impurities screening plant.Due to the difference of various places pattern of farming, the difference of varieties of plant, the impact such as maturity difference and results later stage weather conditions during harvesting, some corn broken stipe increases, the seed phenomenon that comes off is serious, and be fixed on the effect that frame can not produce vibration screening due to sieve nest, make corn kernel and bract, the separating abnormality of broken stipe is difficult, a lot of seed because of with bract, it is not thorough that broken stipe is separated, totally do not taken out of outside body, grain loss rate sharply increases, high yield can not be had a good harvest, adverse effect is caused to the popularization of maize harvesting machine and use.

Summary of the invention

The object of the present invention is to provide a kind of seed removal of impurities screening plant, can not the problem of vibration screening seed to solve sieve nest in prior art; The present invention also aims to provide a kind of maize harvesting machine using this seed removal of impurities screening plant.

In order to solve the problem, in the present invention, the technical scheme of seed removal of impurities screening plant is:

Seed removal of impurities screening plant, comprise the sieve nest that frame and length direction extend along front and back, described frame is arranged at intervals with along the longitudinal direction follower and drives described sieve nest to produce front and back, pump the motion of amplitude, described motion comprises planar linkage transmission mechanism and to arrange in described frame, pivot center extends and the driving shaft driven by corresponding power source in left-right direction, described planar linkage transmission mechanism comprises and is fixedly arranged on driving shaft, the actuating arm that length extends along the radial direction of described driving shaft, described planar linkage motion also comprises the eccentric block with the articulated position that two axis extend all in left-right direction, an articulated position of described eccentric block and described sieve nest are hinged and connected, another articulated position place is hinged with connecting rod, described connecting rod is hinged and connected away from one end of described eccentric block and described actuating arm one end away from described driving shaft, described sieve nest is driven to tilt forward and the reciprocating motion of tilting backwards to make described eccentric block when described driving shaft circumference is rotated.

Described connecting rod is an expansion link with straight-line displacement stroke.

Described follower comprises rocking lever, and described rocking lever one end and described frame are hinged and connected, and the other end and described sieve nest are hinged and connected, and the pivot center of the pin joint at described rocking lever two ends extends all in left-right direction.

Described motion and follower are arranged at the both sides up and down of described sieve nest respectively.

Described motion and follower are arranged at the rear and front end of described sieve nest respectively.

In the present invention, the technical scheme of maize harvesting machine is:

Maize harvesting machine, comprise the seed removal of impurities screening plant of mainframe and upper setting thereof, described seed removal of impurities screening plant comprises the sieve nest that screening plant frame and length direction extend along front and back, described screening plant frame is arranged at intervals with along the longitudinal direction follower and drives described sieve nest to produce front and back, pump the motion of amplitude, described motion comprises planar linkage transmission mechanism and to arrange in described screening plant frame, pivot center extends and the driving shaft driven by corresponding power source in left-right direction, described planar linkage transmission mechanism comprises and is fixedly arranged on driving shaft, the actuating arm that length extends along the radial direction of described driving shaft, described planar linkage motion also comprises the eccentric block with the articulated position that two axis extend all in left-right direction, an articulated position of described eccentric block and described sieve nest are hinged and connected, another articulated position place is hinged with connecting rod, described connecting rod is hinged and connected away from one end of described eccentric block and described actuating arm one end away from described driving shaft, described sieve nest is driven to tilt forward and the reciprocating motion of tilting backwards to make described eccentric block when described driving shaft circumference is rotated.

Described connecting rod is an expansion link with straight-line displacement stroke.

Described follower comprises rocking lever, and described rocking lever one end and described frame are hinged and connected, and the other end and described sieve nest are hinged and connected, and the pivot center of the pin joint at described rocking lever two ends extends all in left-right direction.

Described motion and follower are arranged at the both sides up and down of described sieve nest respectively.

Described motion and follower are arranged at the rear and front end of described sieve nest respectively.

Beneficial effect of the present invention is: during work, driving shaft is driven by corresponding power source and rotates, driving shaft drives actuating arm circumference to rotate, in the process that actuating arm rotates in circumference by planar linkage motion to sieve nest transmission, thus drive sieve nest to tilt forward and the reciprocating motion of tilting backwards, sieve nest is made to produce front and back, amplitude on above-below direction, under the effect of this amplitude, corn kernel, Bao Yeyu broken stipe mutually rolls on the compass screen surface of sieve nest, jump, collide and be separated, suitable amplitude and vibration frequency make corn kernel and bract, broken stipe is thoroughly separated, maize kernel falls into corresponding kernel recovery box through sieve nest, bract and broken stipe are then discharged by body.The present invention greatly reduces the percent of loss of seed, achieves high yield good harvest.

Further, connecting rod is an expansion link, like this under the rotation of driving shaft, connecting rod stretches thereupon, excessive amplitude is caused to sieve nest with buffered-display driver arm, effectively avoid the corn kernel in sieve nest, bract and broken stipe by the problem of deviating from sieve nest, the use of simultaneous retractable bar also can reduce complete machine size in the vertical direction, makes the structure of complete machine compacter.

Accompanying drawing explanation

Fig. 1 is the structural representation of the seed removal of impurities screening plant in maize harvesting machine embodiment of the present invention, is also the structural representation of a kind of embodiment of seed removal of impurities screening plant in the present invention simultaneously;

Fig. 2 is the end view of Fig. 1.

Embodiment

The embodiment of maize harvesting machine is as shown in Figure 1 and 2: comprise the corn harvesting apparatus of mainframe and upper setting thereof, debarker and seed removal of impurities screening plant, seed removal of impurities screening plant comprises the sieve nest 6 that screening plant frame and length direction extend along front and back, sieve nest 6 by motion and follower can produce movable amplitude and move up and down amplitude be assemblied in screening plant frame, motion and follower are arranged at intervals at the rear and front end of sieve nest along the longitudinal direction, and motion and follower are divided into the both sides up and down of sieve nest.Motion is included in and frame arranges, pivot center extends and the driving shaft 1 driven by corresponding power source in left-right direction, driving shaft 1 is installed with the length actuating arm consistent with the radial bearing of trend of driving shaft 12, motion also comprises the eccentric block 5 with the articulated position that two axis extend all in left-right direction, two articulated position eccentric settings of eccentric block, an articulated position of eccentric block 5 is hinged and connected by link 4 and sieve nest 6, another articulated position place is hinged with connecting rod 3, connecting rod 3 is an expansion link with straight-line displacement telescopic adjustment amount, connecting rod 3 is hinged and connected away from one end of eccentric block 5 and actuating arm 2 one end away from driving shaft 1, sieve nest 6 is driven to tilt forward and the reciprocating motion of tilting backwards to make eccentric block 5 when driving shaft circumference is rotated, wherein eccentric block, connecting rod and actuating arm constitute planar linkage transmission mechanism.Follower comprises rocking lever 7; lower end of rocking lever 7 is hinged and connected with frame by the first articulated structure 8; upper end is hinged and connected with sieve nest 6 by the second articulated structure 9; during to drive sieve nest 6 to move at motion; rocking lever also moves thereupon; axially extending all in left-right direction of first and second articulated structure; rocking lever 7 has two and the left and right sides being arranged at sieve nest corresponding respectively; two rocking levers 7 are the U-shaped structure with vertical arm 7-2 and two transverse arm 7-1, and wherein two transverse arms of first and second articulated structure and respective rocker arm bar 7 are hinged and connected.

During work, can be dropped on the compass screen surface of sieve nest 6 by the corn kernel that debarker falls, bract and broken stipe, driving shaft 1 circles under the driving of corresponding power source, corresponding actuating arm 2 also moves around the pivot center of driving shaft 1,3, connecting rod stretches under the drive of actuating arm 2 while swing in certain angle, the swing of connecting rod can make eccentric block swing thereupon, and then makes the mobile range on sieve nest generation fore-and-aft direction; In the process that actuating arm upwards rotates, connecting rod first can reach oneself a flexible stroke limit position, actuating arm continues upwards to rotate subsequently, connecting rod pulls on eccentric block and sieve nest and moves, thus make sieve nest produce mobile range on an above-below direction, under the synthesis of both direction motion amplitude, sieve nest will tilt forward and the reciprocating motion of tilting backwards along with the rotation of actuating arm.Sieve nest is reciprocating while, and follower is also and then servo-actuated.Motion and follower synergy; whole sieve nest is made to produce the Oscillation Amplitude of front and back and above-below direction; make mutually to be rolled, jump, collide and be separated with broken stipe on the compass screen surface of sieve nest by the corn kernel that debarker falls, Bao Ye; suitable amplitude and vibration frequency make corn kernel thoroughly be separated with bract, broken stipe; maize kernel falls into corresponding kernel recovery box through sieve nest, and bract and broken stipe are then discharged by body.Greatly reduce the percent of loss of seed, achieve high yield good harvest; The use of expansion link, reduces sieve nest Oscillation Amplitude in all directions, prevents corn kernel, bract and broken stipe from being deviate from by the top of sieve nest, also reduces whole complete machine size in the vertical direction simultaneously.

In other embodiment of this maize harvesting machine: the rocking lever lifting that can be arranged between frame and sieve nest draws other followers such as the rope of effect or chain to replace; When needing sieve nest to have less amplitude, the reduction that the distance between follower and motion can be suitable, is such as arranged on the middle part of sieve nest, front portion or rear portion simultaneously by follower and motion; Link also can not be established, and now eccentric block can directly be articulated with on sieve nest; Follower and motion can also be arranged at upside or the downside of sieve nest simultaneously; Certainly, connecting rod can also be a common rigid rod without Telescopic.

The embodiment of seed removal of impurities screening plant is as shown in Figure 1 and 2: the seed removal of impurities screening plant of concrete structure as described in above-mentioned each maize harvesting machine embodiment of seed removal of impurities screening plant, is not described in detail in this.

Claims (10)

1. seed removal of impurities screening plant, comprise the sieve nest that frame and length direction extend along front and back, it is characterized in that: described frame is arranged at intervals with along the longitudinal direction follower and drives described sieve nest to produce front and back, pump the motion of amplitude, described motion comprises planar linkage transmission mechanism and to arrange in described frame, pivot center extends and the driving shaft driven by corresponding power source in left-right direction, described planar linkage transmission mechanism comprises and is fixedly arranged on driving shaft, the actuating arm that length extends along the radial direction of described driving shaft, described motion also comprises the eccentric block with the articulated position that two axis extend all in left-right direction, an articulated position of described eccentric block and described sieve nest are hinged and connected, another articulated position place is hinged with connecting rod, described connecting rod is hinged and connected away from one end of described eccentric block and described actuating arm one end away from described driving shaft, described sieve nest is driven to tilt forward and the reciprocating motion of tilting backwards to make described eccentric block when described driving shaft circumference is rotated.

2. seed removal of impurities screening plant according to claim 1, is characterized in that: described connecting rod is an expansion link with straight-line displacement stroke.

3. seed removal of impurities screening plant according to claim 1, it is characterized in that: described follower comprises rocking lever, described rocking lever one end and described frame are hinged and connected, the other end and described sieve nest are hinged and connected, and the pivot center of the pin joint at described rocking lever two ends extends all in left-right direction.

4. seed removal of impurities screening plant according to claim 1, is characterized in that: described motion and follower are arranged at the both sides up and down of described sieve nest respectively.

5. the seed removal of impurities screening plant according to claim 1 ~ 4 any one, is characterized in that: described motion and follower are arranged at the rear and front end of described sieve nest respectively.

6. maize harvesting machine, comprise the seed removal of impurities screening plant of mainframe and upper setting thereof, described seed removal of impurities screening plant comprises the sieve nest that screening plant frame and length direction extend along front and back, it is characterized in that: described screening plant frame is arranged at intervals with along the longitudinal direction follower and drives described sieve nest to produce front and back, pump the motion of amplitude, described motion comprises planar linkage transmission mechanism and to arrange in described screening plant frame, pivot center extends and the driving shaft driven by corresponding power source in left-right direction, described planar linkage transmission mechanism comprises and is fixedly arranged on driving shaft, the actuating arm that length extends along the radial direction of described driving shaft, described motion also comprises the eccentric block with the articulated position that two axis extend all in left-right direction, an articulated position of described eccentric block and described sieve nest are hinged and connected, another articulated position place is hinged with connecting rod, described connecting rod is hinged and connected away from one end of described eccentric block and described actuating arm one end away from described driving shaft, described sieve nest is driven to tilt forward and the reciprocating motion of tilting backwards to make described eccentric block when described driving shaft circumference is rotated.

7. maize harvesting machine according to claim 6, is characterized in that: described connecting rod is an expansion link with straight-line displacement stroke.

8. maize harvesting machine according to claim 6, it is characterized in that: described follower comprises rocking lever, described rocking lever one end and described frame are hinged and connected, and the other end and described sieve nest are hinged and connected, and the pivot center of the pin joint at described rocking lever two ends extends all in left-right direction.

9. maize harvesting machine according to claim 6, is characterized in that: described motion and follower are arranged at the both sides up and down of described sieve nest respectively.

10. the maize harvesting machine according to claim 6 ~ 9 any one, is characterized in that: described motion and follower are arranged at the rear and front end of described sieve nest respectively.