CN204634384U - A kind of rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction - Google Patents

Abstract

The utility model relates to the rolling grating pseudo-ginseng reaping machine of a kind of four-wheel tractor traction, belongs to agricultural machinery technology field.The utility model regulating wheel is positioned at the back lower place of frame, for carrying weight and the walking of harvesting system; Hitch frame is positioned at front in frame, connects the traction of harvesting system for four-wheel tractor; Breast boards, digger blade are positioned at frame inferoanterior, cut soil for shovel; Rolling grid are positioned at digger blade back upper place, and are positioned at the inside of frame, for first time de-soil; Driven shake grid are positioned at rolling grid rear, and are positioned at the inside of frame, for accepting root earth mixtures, and have certain de-soil effect; Firm bar grizzl(e)y is positioned at driven shake grid rear, for the de-soil of second time; Adjustable cam mechanism shaft is positioned at firm bar grizzl(e)y interior volume, for increasing the de-soil nature energy of firm bar grizzl(e)y; Collecting box is positioned at frame rear, for collecting Roots of Panax Notoginseng.The utility model not only can solve the problem of pseudo-ginseng mechanization, and can gather in the crops the pseudo-ginseng of Different age group.

Description

A kind of rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction

Technical field

The utility model relates to the rolling grating pseudo-ginseng reaping machine of a kind of four-wheel tractor traction, belongs to agricultural machinery technology field.

Background technology

Pseudo-ginseng do mechanization operation of gathering is seriously delayed, the amount of labour used accounts for production overall process more than 2/3, operating cost accounts for total production cost about 70%, at present mainly rely on artificial and semi-mechanization and complete, labour intensity is large, operating cost is high, efficiency is low, loss is large, and oneself becomes the main bottleneck problem of the sector production development, Industry growth.Therefore, develop a kind of pseudo-ginseng reaping machine, improve operating efficiency and the labor productivity of pseudo-ginseng results, alleviate the labour intensity of peasant, significant.

Summary of the invention

In order to reduce labor intensity, the utility model provides the rolling grating pseudo-ginseng reaping machine of a kind of four-wheel tractor traction, can improve operating efficiency and the labor productivity of pseudo-ginseng results, and improve results quality.

The technical solution of the utility model is: a kind of rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction, comprise power input shaft 1, hitch frame 2, frame 3, Bevel Gear Drive 4, chain I 5, steel bar sieve 6, collecting box 7, adjusting screw 8, steel bar sieve rear axle 9, regulating wheel 10, regulate wheel shaft 11, adjustable cam mechanism shaft 12, auxiliary driving sprocket wheel IV 13, chain II 14, steel bar sieve front axle 15, auxiliary driving chain wheel I 16, rolling grid main shaft 17, auxiliary driving chain wheel II 18, chain III 19, breast boards 20, transmission main shaft 21, sprocket for main drive 22, digger blade 23, rolling grid 24, digger blade adjusting rod 25, auxiliary driving sprocket wheel III 26, auxiliary driving sprocket wheel VIII 27, chain IV 28, auxiliary driving sprocket wheel V 29, auxiliary driving sprocket wheel VI 30, arc 31, auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel Ⅸ 33, block 34, driven shake grid axle 35, driven shake grid 36, protruding 37, amplitude adjusting rod 38,

Frame 3 is fixed frames of whole harvesting system; Regulating wheel 10 is placed in and regulates on wheel shaft 11 and be positioned at the back lower place of frame 3, for carrying weight and the walking of harvesting system; Hitch frame 2 is positioned at front in frame 3, connects the traction of harvesting system for four-wheel tractor; Breast boards 20, digger blade 23 are positioned at frame 3 inferoanterior, cut soil for shovel; Rolling grid 24 are positioned at digger blade 23 back upper place, and are positioned at the inside of frame 3, for first time de-soil; Driven shake grid 36 are positioned at rolling grid 24 rear, and are positioned at the inside of frame 3, for accepting root earth mixtures, and have certain de-soil effect; Firm bar grizzl(e)y 6 is positioned at driven shake grid 36 rear, has necessarily angle of inclination obliquely, and is positioned at the inside of frame 3, for the de-soil of second time; Adjustable cam mechanism shaft 12 is positioned at firm bar grizzl(e)y 6 interior volume, and is positioned at the inside of frame 3, for increasing the de-soil nature energy of firm bar grizzl(e)y 6; Collecting box 7 is positioned at frame 3 rear, for collecting Roots of Panax Notoginseng;

Power is transported to Bevel Gear Drive 4 by power input shaft 1, through Bevel Gear Drive 4 input power to transmission main shaft 21, then be positioned at upper left side sprocket for main drive 22, by chain III 19, power be sent to auxiliary driving chain wheel I 16, power is flowed to rolling grid main shaft 17 by auxiliary driving chain wheel I 16, drives the rolling grid 24 being positioned at digger blade 23 rear to rotate by rolling grid main shaft 17;

Auxiliary driving chain wheel II 18 and auxiliary driving chain wheel I 16 are arranged on rolling grid main shaft 17, and are positioned at the left side of reaping machine; Auxiliary driving sprocket wheel III 26 is also arranged on rolling grid main shaft 17, but is positioned at the right side of reaping machine;

Moment of torsion on rolling grid main shaft 17 drives auxiliary driving sprocket wheel III 26 to rotate, the chain IV 28 that rotates through of auxiliary driving sprocket wheel III 26 drives auxiliary driving sprocket wheel V 29 to rotate, the rotation of auxiliary driving sprocket wheel V 29 drives steel bar to sieve rear axle 9 simultaneously and rotates, the rotation of steel bar sieve rear axle 9 drives auxiliary driving sprocket wheel VI 30 to rotate together with auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel VI 30 drives auxiliary driving sprocket wheel VIII 27 and auxiliary driving sprocket wheel Ⅸ 33 with auxiliary driving sprocket wheel VII 32 by being with ear chain I 5, make steel bar sieve front axle 15 with this to rotate, and form steel bar sieve 6 with inserting reinforcing bar in the ear hole of ear chain, for de-soil,

Moment of torsion on rolling grid main shaft 17 also drives auxiliary driving chain wheel II 18 to rotate, auxiliary driving chain wheel II 18 drives auxiliary driving sprocket wheel IV 13 to rotate by chain II 14, auxiliary driving sprocket wheel IV 13 drives adjustable cam mechanism shaft 12 to rotate, adjustable cam mechanism shaft 12 drives the arc 31 welded with amplitude adjusting rod 38 to rotate, arc 31 has the rotation of frequency to clash into steel bar sieve 6, make steel bar sieve about 6 to shake, increase the de-soil nature energy of steel bar sieve 6;

And be welded with protruding 37 in the reinforcing bar both sides of steel bar sieve 6, when protruding 37 along with steel bar sieves the grizzly bar that 6 athletic meeting strike driven shake grid 36 rear, and drive the front grizzly bar welded with driven shake grid axle 35 to move up and down, but limit the motion amplitude of grizzly bar with block 34, increase the vibration trend of root-earth mixtures on steel bar sieve 6 with this.

Described digger blade 23 grizzly bar gap and rolling grid 24 grizzly bar gap interlaced, the grizzly bar of driven shake grid axle 35 and the grizzly bar gap of rolling grid 24 interlaced.

The pseudo-ginseng of results different year can regulate the penetrating angle of digger blade 23, and the grizzly bar gap of adjustment roll moving grid 24 and adjusting amplitude adjusting rod 38.

The penetrating angle of described digger blade 23 can be regulated by digger blade adjusting rod 25, and the adjusting screw 8 also by regulating wheel 10 regulates, can also be lever regulated by four-wheel tractor trifilar suspension.

Operation principle of the present utility model is:

Pseudo-ginseng reaping machine is connected with four-wheel tractor trifilar suspension connecting rod by adjustable hitch frame 2, and spline power input shaft 1 shaft joint is connected with four-wheel tractor output shaft, and ensure input power, power slows down through Bevel Gear Drive 4; The output of Bevel Gear Drive 4 connects transmission main shaft 21, transmission main shaft 21 connects sprocket for main drive 22, sprocket for main drive 22 connects the auxiliary driving chain wheel I 16 being positioned at rolling grid main shaft 17 one end by chain III 19, the auxiliary driving chain wheel II 18 of rolling grid main shaft 17 one end connects the auxiliary driving sprocket wheel IV 13 of adjustable cam mechanism shaft 12 one end be positioned in the middle of steel bar sieve 6 by chain II 14, the auxiliary driving sprocket wheel III 26 of rolling grid main shaft 17 other end connects steel bar sieve rear axle 9 one end auxiliary driving sprocket wheel V 29 by chain IV 28; Auxiliary driving sprocket wheel VI 30 on steel bar sieve rear axle 9, auxiliary driving sprocket wheel VII 32 connect respectively by the chain I 5 of band ear auxiliary driving sprocket wheel VIII 27, the auxiliary driving sprocket wheel Ⅸ 33 that steel bar sieves front axle 15; Whole pseudo-ginseng reaping machine frame 3 is fixed, supported by regulating wheel 10, the penetrating angle of the digger blade 23 of pseudo-ginseng reaping machine can be regulated by digger blade adjusting rod 25, and the adjusting screw 8 also by regulating wheel 10 regulates, can also be lever regulated by four-wheel tractor trifilar suspension.

On the other hand, along with the walking traction reaping machine of four-wheel tractor moves ahead, regulate penetrating angle, digger blade 23 buries immediately, the grizzly bar that root earth mixtures is scrolled grid 24 through digger blade 23 grizzly bar is packed up, along with the rotation backward of rolling grid axle 17, root earth mixtures rotates in rolling grid 24, carries out Preliminary screening; When rolling grid 24 intersect with driven shake grid 36, root earth mixtures on rolling grid 24 enters on driven shake grid 36, shake root earth mixtures along with driven shake grid 36 drops on steel bar sieve 6, along with rotating backward and the vibrations of arc 31 in adjustable cam mechanism of steel bar sieve 6, root earth mixtures completes postsearch screening, finally drops into and receives in seedling case 7.

In addition, when rolling grid 24 intersect with driven shake grid 36, root earth mixtures on rolling grid 24 enters on driven shake grid 36, the projection 37 of moving backward along with steel bar sieve 6 collides the lower grid bar of driven shake grid 36, lower grid bar moves downward and the upper motion mutually of upper grid bar, root soil is moved downward along upper grid, makes root soil drop on steel bar sieve 6; The pseudo-ginseng of results different year can regulate the penetrating angle of digger blade 23, and the grizzly bar gap of adjustment roll moving grid 24 and adjusting amplitude adjusting rod 38, carry out results (the 1. adjustment of digger blade penetrating angle: cut effect for reaching desirable shovel of pseudo-ginseng, reduce resistance, first set up original penetrating angle to digger blade, original penetrating angle is by regulating digger blade adjusting rod 24; Digger blade adjusting rod 24 primary structure is made up of leading screw, nut, rotary handle, and be welded on digger blade shovel face below leading screw, when excavation 1 year pseudo-ginseng, due to 1 year, the Panax notoginseng Growth degree of depth was more shallow, rotate counterclockwise rotary handle, reduce original penetrating angle with this, make excavating depth reach 1 year Panax notoginseng Growth degree of depth; When excavation 3 years pseudo-ginseng, due to 3 years, the Panax notoginseng Growth degree of depth was comparatively dark, rotated clockwise rotary handle, increased original penetrating angle with this, make excavating depth reach 3 years Panax notoginseng Growth degree of depth; The effect of digger blade adjusting rod 24 regulates original penetrating angle, in order to reduce kinetic equation loss according to the pseudo-ginseng of results different year.When original penetrating angle has regulated, when reaping machine works with tractor, due to being uneven of ground, cause the difference of excavating depth, the trifilar suspension connecting rod that now hydraulic means of tractor is connected with reaping machine can produce profiling effect, automatically regulate digger blade penetrating angle, reach stable excavating depth.Because the adjustable range of digger blade adjusting rod 24 limits, the back lower place of frame is provided with regulating wheel 10 auxiliary adjustment and excavates penetrating angle.This device, due to technical perfection, can arrive Market Selection and be equipped with.2. the primary structure of rolling grid 24 is installed on the drum screen main shaft 17 of tapping by the flange of multiple internal diameter tapping, and complete radial direction welding six has the reinforcing bar of certain radian on flange; When results 1 year pseudo-ginseng, because the average-size of 1 year Roots of Panax Notoginseng is little, rotary flange dish, shortens the distance between each flange, reduces grizzly bar gap, prevents Roots of Panax Notoginseng from losing.When results 3 years pseudo-ginseng, because the average-size of 3 years Roots of Panax Notoginsengs is large, rotary flange dish, strengthens the spacing of each flange, increases the gap of grizzly bar, optimizes the native effect of sieve.3. (amplitude adjusting rod 38 primary structure is a leading screw, two nuts, arc 31 welds with leading screw, when results 1 year pseudo-ginseng, because the clay of pseudo-ginseng is few, the displacement that the leading screw that turns clockwise makes arc 31 jack-up steel bar sieve 6 reduces, reduce Oscillation Amplitude with this, reduce unnecessary power loss; When results 3 years pseudo-ginseng, because pseudo-ginseng fibrous root causes clay many more, be rotated counterclockwise the displacement increase that leading screw makes arc 31 jack-up steel bar sieve, increase Oscillation Amplitude with this, accelerate de-native process, reach optimum de-native effect.）。

The beneficial effects of the utility model are:

Not only can solve the problem of pseudo-ginseng mechanization, and the pseudo-ginseng of Different age group can be gathered in the crops; The pull bar of the trifilar suspension that the penetrating angle of digger blade not only can be connected by hitch frame regulates, and can also regulate by the leading screw of regulating wheel, also by the adjusting screw adjustment above digger blade, effectively increases the adjustable range of penetrating angle; The Roots of Panax Notoginseng dug and soil are transported on rolling grid by the grizzly bar on digger blade, and Roots of Panax Notoginseng earth mixtures reaches the effect of first screening along with rolling; The root earth mixtures of initial gross separation falls on steel bar sieve through driven shake grid, and the vibrations along with adjustable cam mechanism shaft make the second time of Roots of Panax Notoginseng soil be separated, and Roots of Panax Notoginseng falls back in collecting box.

Accompanying drawing explanation

Fig. 1 is the utility model axle side schematic diagram;

Fig. 2 is the utility model schematic top plan view;

Fig. 3 is utility model works theory structure schematic diagram;

Each label in figure: 1-power input shaft, 2-hitch frame, 3-frame, 4-Bevel Gear Drive, 5-chain I, 6-steel bar sieves, 7-collecting box, 8-adjusting screw, 9-steel bar sieve rear axle, 10-regulating wheel, 11-regulates wheel shaft, 12-adjustable cam mechanism shaft, 13-auxiliary driving sprocket wheel IV, 14-chain II, 15-steel bar sieve front axle, 16-auxiliary driving chain wheel I, 17-rolling grid main shaft, 18-auxiliary driving chain wheel II, 19-chain III, 20-breast boards, 21-transmission main shaft, 22-sprocket for main drive, 23-digger blade, 24-rolling grid, 25-digger blade adjusting rod, 26-auxiliary driving sprocket wheel III, 27-auxiliary driving sprocket wheel VIII, 28-chain IV, 29-auxiliary driving sprocket wheel V, 30-auxiliary driving sprocket wheel VI, 31-arc, 32-auxiliary driving sprocket wheel VII, 33-auxiliary driving sprocket wheel Ⅸ, 34-block, 35-driven shake grid axle, the driven shake grid of 36-, 37-is protruding, 38-amplitude adjusting rod.

Embodiment

Embodiment 1: as Figure 1-3, a kind of rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction, comprise power input shaft 1, hitch frame 2, frame 3, Bevel Gear Drive 4, chain I 5, steel bar sieve 6, collecting box 7, adjusting screw 8, steel bar sieve rear axle 9, regulating wheel 10, regulate wheel shaft 11, adjustable cam mechanism shaft 12, auxiliary driving sprocket wheel IV 13, chain II 14, steel bar sieve front axle 15, auxiliary driving chain wheel I 16, rolling grid main shaft 17, auxiliary driving chain wheel II 18, chain III 19, breast boards 20, transmission main shaft 21, sprocket for main drive 22, digger blade 23, rolling grid 24, digger blade adjusting rod 25, auxiliary driving sprocket wheel III 26, auxiliary driving sprocket wheel VIII 27, chain IV 28, auxiliary driving sprocket wheel V 29, auxiliary driving sprocket wheel VI 30, arc 31, auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel Ⅸ 33, block 34, driven shake grid axle 35, driven shake grid 36, protruding 37, amplitude adjusting rod 38,

Frame 3 is fixed frames of whole harvesting system; Regulating wheel 10 is placed in and regulates on wheel shaft 11 and be positioned at the back lower place of frame 3, for carrying weight and the walking of harvesting system; Hitch frame 2 is positioned at front in frame 3, connects the traction of harvesting system for four-wheel tractor; Breast boards 20, digger blade 23 are positioned at frame 3 inferoanterior, cut soil for shovel; Rolling grid 24 are positioned at digger blade 23 back upper place, and are positioned at the inside of frame 3, for first time de-soil; Driven shake grid 36 are positioned at rolling grid 24 rear, and are positioned at the inside of frame 3, for accepting root earth mixtures, and have certain de-soil effect; Firm bar grizzl(e)y 6 is positioned at driven shake grid 36 rear, has necessarily angle of inclination obliquely, and is positioned at the inside of frame 3, for the de-soil of second time; Adjustable cam mechanism shaft 12 is positioned at firm bar grizzl(e)y 6 interior volume, and is positioned at the inside of frame 3, for increasing the de-soil nature energy of firm bar grizzl(e)y 6; Collecting box 7 is positioned at frame 3 rear, for collecting Roots of Panax Notoginseng;

Power is transported to Bevel Gear Drive 4 by power input shaft 1, through Bevel Gear Drive 4 input power to transmission main shaft 21, then be positioned at upper left side sprocket for main drive 22, by chain III 19, power be sent to auxiliary driving chain wheel I 16, power is flowed to rolling grid main shaft 17 by auxiliary driving chain wheel I 16, drives the rolling grid 24 being positioned at digger blade 23 rear to rotate by rolling grid main shaft 17;

Auxiliary driving chain wheel II 18 and auxiliary driving chain wheel I 16 are arranged on rolling grid main shaft 17, and are positioned at the left side of reaping machine; Auxiliary driving sprocket wheel III 26 is also arranged on rolling grid main shaft 17, but is positioned at the right side of reaping machine;

Moment of torsion on rolling grid main shaft 17 drives auxiliary driving sprocket wheel III 26 to rotate, the chain IV 28 that rotates through of auxiliary driving sprocket wheel III 26 drives auxiliary driving sprocket wheel V 29 to rotate, the rotation of auxiliary driving sprocket wheel V 29 drives steel bar to sieve rear axle 9 simultaneously and rotates, the rotation of steel bar sieve rear axle 9 drives auxiliary driving sprocket wheel VI 30 to rotate together with auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel VI 30 drives auxiliary driving sprocket wheel VIII 27 and auxiliary driving sprocket wheel Ⅸ 33 with auxiliary driving sprocket wheel VII 32 by being with ear chain I 5, make steel bar sieve front axle 15 with this to rotate, and form steel bar sieve 6 with inserting reinforcing bar in the ear hole of ear chain, for de-soil,

Moment of torsion on rolling grid main shaft 17 also drives auxiliary driving chain wheel II 18 to rotate, auxiliary driving chain wheel II 18 drives auxiliary driving sprocket wheel IV 13 to rotate by chain II 14, auxiliary driving sprocket wheel IV 13 drives adjustable cam mechanism shaft 12 to rotate, adjustable cam mechanism shaft 12 drives the arc 31 welded with amplitude adjusting rod 38 to rotate, arc 31 has the rotation of frequency to clash into steel bar sieve 6, make steel bar sieve about 6 to shake, increase the de-soil nature energy of steel bar sieve 6;

And be welded with protruding 37 in the reinforcing bar both sides of steel bar sieve 6, when protruding 37 along with steel bar sieves the grizzly bar that 6 athletic meeting strike driven shake grid 36 rear, and drive the front grizzly bar welded with driven shake grid axle 35 to move up and down, but limit the motion amplitude of grizzly bar with block 34, increase the vibration trend of root-earth mixtures on steel bar sieve 6 with this.

The pseudo-ginseng of results different year can regulate the penetrating angle of digger blade 23.

The penetrating angle of described digger blade 23 can be regulated by digger blade adjusting rod 25.

Embodiment 2: as Figure 1-3, with embodiment 1 basic simlarity, difference is that described digger blade 23 grizzly bar gap and rolling grid 24 grizzly bar gap are interlaced, the grizzly bar of driven shake grid axle 35 and the grizzly bar gap of rolling grid 24 interlaced.

Embodiment 3: as Figure 1-3, a kind of rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction, comprise power input shaft 1, hitch frame 2, frame 3, Bevel Gear Drive 4, chain I 5, steel bar sieve 6, collecting box 7, adjusting screw 8, steel bar sieve rear axle 9, regulating wheel 10, regulate wheel shaft 11, adjustable cam mechanism shaft 12, auxiliary driving sprocket wheel IV 13, chain II 14, steel bar sieve front axle 15, auxiliary driving chain wheel I 16, rolling grid main shaft 17, auxiliary driving chain wheel II 18, chain III 19, breast boards 20, transmission main shaft 21, sprocket for main drive 22, digger blade 23, rolling grid 24, digger blade adjusting rod 25, auxiliary driving sprocket wheel III 26, auxiliary driving sprocket wheel VIII 27, chain IV 28, auxiliary driving sprocket wheel V 29, auxiliary driving sprocket wheel VI 30, arc 31, auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel Ⅸ 33, block 34, driven shake grid axle 35, driven shake grid 36, protruding 37, amplitude adjusting rod 38,

Frame 3 is fixed frames of whole harvesting system; Regulating wheel 10 is placed in and regulates on wheel shaft 11 and be positioned at the back lower place of frame 3, for carrying weight and the walking of harvesting system; Hitch frame 2 is positioned at front in frame 3, connects the traction of harvesting system for four-wheel tractor; Breast boards 20, digger blade 23 are positioned at frame 3 inferoanterior, cut soil for shovel; Rolling grid 24 are positioned at digger blade 23 back upper place, and are positioned at the inside of frame 3, for first time de-soil; Driven shake grid 36 are positioned at rolling grid 24 rear, and are positioned at the inside of frame 3, for accepting root earth mixtures, and have certain de-soil effect; Firm bar grizzl(e)y 6 is positioned at driven shake grid 36 rear, has necessarily angle of inclination obliquely, and is positioned at the inside of frame 3, for the de-soil of second time; Adjustable cam mechanism shaft 12 is positioned at firm bar grizzl(e)y 6 interior volume, and is positioned at the inside of frame 3, for increasing the de-soil nature energy of firm bar grizzl(e)y 6; Collecting box 7 is positioned at frame 3 rear, for collecting Roots of Panax Notoginseng;

Power is transported to Bevel Gear Drive 4 by power input shaft 1, through Bevel Gear Drive 4 input power to transmission main shaft 21, then be positioned at upper left side sprocket for main drive 22, by chain III 19, power be sent to auxiliary driving chain wheel I 16, power is flowed to rolling grid main shaft 17 by auxiliary driving chain wheel I 16, drives the rolling grid 24 being positioned at digger blade 23 rear to rotate by rolling grid main shaft 17;

Auxiliary driving chain wheel II 18 and auxiliary driving chain wheel I 16 are arranged on rolling grid main shaft 17, and are positioned at the left side of reaping machine; Auxiliary driving sprocket wheel III 26 is also arranged on rolling grid main shaft 17, but is positioned at the right side of reaping machine;

Moment of torsion on rolling grid main shaft 17 drives auxiliary driving sprocket wheel III 26 to rotate, the chain IV 28 that rotates through of auxiliary driving sprocket wheel III 26 drives auxiliary driving sprocket wheel V 29 to rotate, the rotation of auxiliary driving sprocket wheel V 29 drives steel bar to sieve rear axle 9 simultaneously and rotates, the rotation of steel bar sieve rear axle 9 drives auxiliary driving sprocket wheel VI 30 to rotate together with auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel VI 30 drives auxiliary driving sprocket wheel VIII 27 and auxiliary driving sprocket wheel Ⅸ 33 with auxiliary driving sprocket wheel VII 32 by being with ear chain I 5, make steel bar sieve front axle 15 with this to rotate, and form steel bar sieve 6 with inserting reinforcing bar in the ear hole of ear chain, for de-soil,

Moment of torsion on rolling grid main shaft 17 also drives auxiliary driving chain wheel II 18 to rotate, auxiliary driving chain wheel II 18 drives auxiliary driving sprocket wheel IV 13 to rotate by chain II 14, auxiliary driving sprocket wheel IV 13 drives adjustable cam mechanism shaft 12 to rotate, adjustable cam mechanism shaft 12 drives the arc 31 welded with amplitude adjusting rod 38 to rotate, arc 31 has the rotation of frequency to clash into steel bar sieve 6, make steel bar sieve about 6 to shake, increase the de-soil nature energy of steel bar sieve 6;

And be welded with protruding 37 in the reinforcing bar both sides of steel bar sieve 6, when protruding 37 along with steel bar sieves the grizzly bar that 6 athletic meeting strike driven shake grid 36 rear, and drive the front grizzly bar welded with driven shake grid axle 35 to move up and down, but limit the motion amplitude of grizzly bar with block 34, increase the vibration trend of root-earth mixtures on steel bar sieve 6 with this.

The pseudo-ginseng of results different year can regulate the penetrating angle of digger blade 23.

The penetrating angle of described digger blade 23 regulates by the adjusting screw 8 of regulating wheel 10.

Embodiment 4: as Figure 1-3, with embodiment 3 basic simlarity, difference is that described digger blade 23 grizzly bar gap and rolling grid 24 grizzly bar gap are interlaced, the grizzly bar of driven shake grid axle 35 and the grizzly bar gap of rolling grid 24 interlaced.

Embodiment 5: as Figure 1-3, a kind of rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction, comprise power input shaft 1, hitch frame 2, frame 3, Bevel Gear Drive 4, chain I 5, steel bar sieve 6, collecting box 7, adjusting screw 8, steel bar sieve rear axle 9, regulating wheel 10, regulate wheel shaft 11, adjustable cam mechanism shaft 12, auxiliary driving sprocket wheel IV 13, chain II 14, steel bar sieve front axle 15, auxiliary driving chain wheel I 16, rolling grid main shaft 17, auxiliary driving chain wheel II 18, chain III 19, breast boards 20, transmission main shaft 21, sprocket for main drive 22, digger blade 23, rolling grid 24, digger blade adjusting rod 25, auxiliary driving sprocket wheel III 26, auxiliary driving sprocket wheel VIII 27, chain IV 28, auxiliary driving sprocket wheel V 29, auxiliary driving sprocket wheel VI 30, arc 31, auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel Ⅸ 33, block 34, driven shake grid axle 35, driven shake grid 36, protruding 37, amplitude adjusting rod 38,

Frame 3 is fixed frames of whole harvesting system; Regulating wheel 10 is placed in and regulates on wheel shaft 11 and be positioned at the back lower place of frame 3, for carrying weight and the walking of harvesting system; Hitch frame 2 is positioned at front in frame 3, connects the traction of harvesting system for four-wheel tractor; Breast boards 20, digger blade 23 are positioned at frame 3 inferoanterior, cut soil for shovel; Rolling grid 24 are positioned at digger blade 23 back upper place, and are positioned at the inside of frame 3, for first time de-soil; Driven shake grid 36 are positioned at rolling grid 24 rear, and are positioned at the inside of frame 3, for accepting root earth mixtures, and have certain de-soil effect; Firm bar grizzl(e)y 6 is positioned at driven shake grid 36 rear, has necessarily angle of inclination obliquely, and is positioned at the inside of frame 3, for the de-soil of second time; Adjustable cam mechanism shaft 12 is positioned at firm bar grizzl(e)y 6 interior volume, and is positioned at the inside of frame 3, for increasing the de-soil nature energy of firm bar grizzl(e)y 6; Collecting box 7 is positioned at frame 3 rear, for collecting Roots of Panax Notoginseng;

Power is transported to Bevel Gear Drive 4 by power input shaft 1, through Bevel Gear Drive 4 input power to transmission main shaft 21, then be positioned at upper left side sprocket for main drive 22, by chain III 19, power be sent to auxiliary driving chain wheel I 16, power is flowed to rolling grid main shaft 17 by auxiliary driving chain wheel I 16, drives the rolling grid 24 being positioned at digger blade 23 rear to rotate by rolling grid main shaft 17;

Auxiliary driving chain wheel II 18 and auxiliary driving chain wheel I 16 are arranged on rolling grid main shaft 17, and are positioned at the left side of reaping machine; Auxiliary driving sprocket wheel III 26 is also arranged on rolling grid main shaft 17, but is positioned at the right side of reaping machine;

Moment of torsion on rolling grid main shaft 17 drives auxiliary driving sprocket wheel III 26 to rotate, the chain IV 28 that rotates through of auxiliary driving sprocket wheel III 26 drives auxiliary driving sprocket wheel V 29 to rotate, the rotation of auxiliary driving sprocket wheel V 29 drives steel bar to sieve rear axle 9 simultaneously and rotates, the rotation of steel bar sieve rear axle 9 drives auxiliary driving sprocket wheel VI 30 to rotate together with auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel VI 30 drives auxiliary driving sprocket wheel VIII 27 and auxiliary driving sprocket wheel Ⅸ 33 with auxiliary driving sprocket wheel VII 32 by being with ear chain I 5, make steel bar sieve front axle 15 with this to rotate, and form steel bar sieve 6 with inserting reinforcing bar in the ear hole of ear chain, for de-soil,

Moment of torsion on rolling grid main shaft 17 also drives auxiliary driving chain wheel II 18 to rotate, auxiliary driving chain wheel II 18 drives auxiliary driving sprocket wheel IV 13 to rotate by chain II 14, auxiliary driving sprocket wheel IV 13 drives adjustable cam mechanism shaft 12 to rotate, adjustable cam mechanism shaft 12 drives the arc 31 welded with amplitude adjusting rod 38 to rotate, arc 31 has the rotation of frequency to clash into steel bar sieve 6, make steel bar sieve about 6 to shake, increase the de-soil nature energy of steel bar sieve 6;

And be welded with protruding 37 in the reinforcing bar both sides of steel bar sieve 6, when protruding 37 along with steel bar sieves the grizzly bar that 6 athletic meeting strike driven shake grid 36 rear, and drive the front grizzly bar welded with driven shake grid axle 35 to move up and down, but limit the motion amplitude of grizzly bar with block 34, increase the vibration trend of root-earth mixtures on steel bar sieve 6 with this.

The pseudo-ginseng of results different year can regulate the penetrating angle of digger blade 23.

The penetrating angle of described digger blade 23 can be lever regulated by four-wheel tractor trifilar suspension.

Embodiment 6: as Figure 1-3, with embodiment 5 basic simlarity, difference is that described digger blade 23 grizzly bar gap and rolling grid 24 grizzly bar gap are interlaced, the grizzly bar of driven shake grid axle 35 and the grizzly bar gap of rolling grid 24 interlaced.

Embodiment 7: as Figure 1-3, a kind of rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction, comprise power input shaft 1, hitch frame 2, frame 3, Bevel Gear Drive 4, chain I 5, steel bar sieve 6, collecting box 7, adjusting screw 8, steel bar sieve rear axle 9, regulating wheel 10, regulate wheel shaft 11, adjustable cam mechanism shaft 12, auxiliary driving sprocket wheel IV 13, chain II 14, steel bar sieve front axle 15, auxiliary driving chain wheel I 16, rolling grid main shaft 17, auxiliary driving chain wheel II 18, chain III 19, breast boards 20, transmission main shaft 21, sprocket for main drive 22, digger blade 23, rolling grid 24, digger blade adjusting rod 25, auxiliary driving sprocket wheel III 26, auxiliary driving sprocket wheel VIII 27, chain IV 28, auxiliary driving sprocket wheel V 29, auxiliary driving sprocket wheel VI 30, arc 31, auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel Ⅸ 33, block 34, driven shake grid axle 35, driven shake grid 36, protruding 37, amplitude adjusting rod 38,

Frame 3 is fixed frames of whole harvesting system; Regulating wheel 10 is placed in and regulates on wheel shaft 11 and be positioned at the back lower place of frame 3, for carrying weight and the walking of harvesting system; Hitch frame 2 is positioned at front in frame 3, connects the traction of harvesting system for four-wheel tractor; Breast boards 20, digger blade 23 are positioned at frame 3 inferoanterior, cut soil for shovel; Rolling grid 24 are positioned at digger blade 23 back upper place, and are positioned at the inside of frame 3, for first time de-soil; Driven shake grid 36 are positioned at rolling grid 24 rear, and are positioned at the inside of frame 3, for accepting root earth mixtures, and have certain de-soil effect; Firm bar grizzl(e)y 6 is positioned at driven shake grid 36 rear, has necessarily angle of inclination obliquely, and is positioned at the inside of frame 3, for the de-soil of second time; Adjustable cam mechanism shaft 12 is positioned at firm bar grizzl(e)y 6 interior volume, and is positioned at the inside of frame 3, for increasing the de-soil nature energy of firm bar grizzl(e)y 6; Collecting box 7 is positioned at frame 3 rear, for collecting Roots of Panax Notoginseng;

Power is transported to Bevel Gear Drive 4 by power input shaft 1, through Bevel Gear Drive 4 input power to transmission main shaft 21, then be positioned at upper left side sprocket for main drive 22, by chain III 19, power be sent to auxiliary driving chain wheel I 16, power is flowed to rolling grid main shaft 17 by auxiliary driving chain wheel I 16, drives the rolling grid 24 being positioned at digger blade 23 rear to rotate by rolling grid main shaft 17;

Auxiliary driving chain wheel II 18 and auxiliary driving chain wheel I 16 are arranged on rolling grid main shaft 17, and are positioned at the left side of reaping machine; Auxiliary driving sprocket wheel III 26 is also arranged on rolling grid main shaft 17, but is positioned at the right side of reaping machine;

Moment of torsion on rolling grid main shaft 17 drives auxiliary driving sprocket wheel III 26 to rotate, the chain IV 28 that rotates through of auxiliary driving sprocket wheel III 26 drives auxiliary driving sprocket wheel V 29 to rotate, the rotation of auxiliary driving sprocket wheel V 29 drives steel bar to sieve rear axle 9 simultaneously and rotates, the rotation of steel bar sieve rear axle 9 drives auxiliary driving sprocket wheel VI 30 to rotate together with auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel VI 30 drives auxiliary driving sprocket wheel VIII 27 and auxiliary driving sprocket wheel Ⅸ 33 with auxiliary driving sprocket wheel VII 32 by being with ear chain I 5, make steel bar sieve front axle 15 with this to rotate, and form steel bar sieve 6 with inserting reinforcing bar in the ear hole of ear chain, for de-soil,

Moment of torsion on rolling grid main shaft 17 also drives auxiliary driving chain wheel II 18 to rotate, auxiliary driving chain wheel II 18 drives auxiliary driving sprocket wheel IV 13 to rotate by chain II 14, auxiliary driving sprocket wheel IV 13 drives adjustable cam mechanism shaft 12 to rotate, adjustable cam mechanism shaft 12 drives the arc 31 welded with amplitude adjusting rod 38 to rotate, arc 31 has the rotation of frequency to clash into steel bar sieve 6, make steel bar sieve about 6 to shake, increase the de-soil nature energy of steel bar sieve 6;

And be welded with protruding 37 in the reinforcing bar both sides of steel bar sieve 6, when protruding 37 along with steel bar sieves the grizzly bar that 6 athletic meeting strike driven shake grid 36 rear, and drive the front grizzly bar welded with driven shake grid axle 35 to move up and down, but limit the motion amplitude of grizzly bar with block 34, increase the vibration trend of root-earth mixtures on steel bar sieve 6 with this.

The pseudo-ginseng of results different year can the grizzly bar gap of adjustment roll moving grid 24.

Embodiment 8: as Figure 1-3, with embodiment 7 basic simlarity, difference is that described digger blade 23 grizzly bar gap and rolling grid 24 grizzly bar gap are interlaced, the grizzly bar of driven shake grid axle 35 and the grizzly bar gap of rolling grid 24 interlaced.

Embodiment 9: as Figure 1-3, a kind of rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction, comprise power input shaft 1, hitch frame 2, frame 3, Bevel Gear Drive 4, chain I 5, steel bar sieve 6, collecting box 7, adjusting screw 8, steel bar sieve rear axle 9, regulating wheel 10, regulate wheel shaft 11, adjustable cam mechanism shaft 12, auxiliary driving sprocket wheel IV 13, chain II 14, steel bar sieve front axle 15, auxiliary driving chain wheel I 16, rolling grid main shaft 17, auxiliary driving chain wheel II 18, chain III 19, breast boards 20, transmission main shaft 21, sprocket for main drive 22, digger blade 23, rolling grid 24, digger blade adjusting rod 25, auxiliary driving sprocket wheel III 26, auxiliary driving sprocket wheel VIII 27, chain IV 28, auxiliary driving sprocket wheel V 29, auxiliary driving sprocket wheel VI 30, arc 31, auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel Ⅸ 33, block 34, driven shake grid axle 35, driven shake grid 36, protruding 37, amplitude adjusting rod 38,

Frame 3 is fixed frames of whole harvesting system; Regulating wheel 10 is placed in and regulates on wheel shaft 11 and be positioned at the back lower place of frame 3, for carrying weight and the walking of harvesting system; Hitch frame 2 is positioned at front in frame 3, connects the traction of harvesting system for four-wheel tractor; Breast boards 20, digger blade 23 are positioned at frame 3 inferoanterior, cut soil for shovel; Rolling grid 24 are positioned at digger blade 23 back upper place, and are positioned at the inside of frame 3, for first time de-soil; Driven shake grid 36 are positioned at rolling grid 24 rear, and are positioned at the inside of frame 3, for accepting root earth mixtures, and have certain de-soil effect; Firm bar grizzl(e)y 6 is positioned at driven shake grid 36 rear, has necessarily angle of inclination obliquely, and is positioned at the inside of frame 3, for the de-soil of second time; Adjustable cam mechanism shaft 12 is positioned at firm bar grizzl(e)y 6 interior volume, and is positioned at the inside of frame 3, for increasing the de-soil nature energy of firm bar grizzl(e)y 6; Collecting box 7 is positioned at frame 3 rear, for collecting Roots of Panax Notoginseng;

Power is transported to Bevel Gear Drive 4 by power input shaft 1, through Bevel Gear Drive 4 input power to transmission main shaft 21, then be positioned at upper left side sprocket for main drive 22, by chain III 19, power be sent to auxiliary driving chain wheel I 16, power is flowed to rolling grid main shaft 17 by auxiliary driving chain wheel I 16, drives the rolling grid 24 being positioned at digger blade 23 rear to rotate by rolling grid main shaft 17;

Auxiliary driving chain wheel II 18 and auxiliary driving chain wheel I 16 are arranged on rolling grid main shaft 17, and are positioned at the left side of reaping machine; Auxiliary driving sprocket wheel III 26 is also arranged on rolling grid main shaft 17, but is positioned at the right side of reaping machine;

Moment of torsion on rolling grid main shaft 17 drives auxiliary driving sprocket wheel III 26 to rotate, the chain IV 28 that rotates through of auxiliary driving sprocket wheel III 26 drives auxiliary driving sprocket wheel V 29 to rotate, the rotation of auxiliary driving sprocket wheel V 29 drives steel bar to sieve rear axle 9 simultaneously and rotates, the rotation of steel bar sieve rear axle 9 drives auxiliary driving sprocket wheel VI 30 to rotate together with auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel VI 30 drives auxiliary driving sprocket wheel VIII 27 and auxiliary driving sprocket wheel Ⅸ 33 with auxiliary driving sprocket wheel VII 32 by being with ear chain I 5, make steel bar sieve front axle 15 with this to rotate, and form steel bar sieve 6 with inserting reinforcing bar in the ear hole of ear chain, for de-soil,

Moment of torsion on rolling grid main shaft 17 also drives auxiliary driving chain wheel II 18 to rotate, auxiliary driving chain wheel II 18 drives auxiliary driving sprocket wheel IV 13 to rotate by chain II 14, auxiliary driving sprocket wheel IV 13 drives adjustable cam mechanism shaft 12 to rotate, adjustable cam mechanism shaft 12 drives the arc 31 welded with amplitude adjusting rod 38 to rotate, arc 31 has the rotation of frequency to clash into steel bar sieve 6, make steel bar sieve about 6 to shake, increase the de-soil nature energy of steel bar sieve 6;

And be welded with protruding 37 in the reinforcing bar both sides of steel bar sieve 6, when protruding 37 along with steel bar sieves the grizzly bar that 6 athletic meeting strike driven shake grid 36 rear, and drive the front grizzly bar welded with driven shake grid axle 35 to move up and down, but limit the motion amplitude of grizzly bar with block 34, increase the vibration trend of root-earth mixtures on steel bar sieve 6 with this.

Results different year pseudo-ginseng can adjusting amplitude adjusting rod 38 adapt to different year pseudo-ginseng results.

Embodiment 10: as Figure 1-3, with embodiment 9 basic simlarity, difference is that described digger blade 23 grizzly bar gap and rolling grid 24 grizzly bar gap are interlaced, the grizzly bar of driven shake grid axle 35 and the grizzly bar gap of rolling grid 24 interlaced.

Embodiment 11: as Figure 1-3, a kind of rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction, comprise power input shaft 1, hitch frame 2, frame 3, Bevel Gear Drive 4, chain I 5, steel bar sieve 6, collecting box 7, adjusting screw 8, steel bar sieve rear axle 9, regulating wheel 10, regulate wheel shaft 11, adjustable cam mechanism shaft 12, auxiliary driving sprocket wheel IV 13, chain II 14, steel bar sieve front axle 15, auxiliary driving chain wheel I 16, rolling grid main shaft 17, auxiliary driving chain wheel II 18, chain III 19, breast boards 20, transmission main shaft 21, sprocket for main drive 22, digger blade 23, rolling grid 24, digger blade adjusting rod 25, auxiliary driving sprocket wheel III 26, auxiliary driving sprocket wheel VIII 27, chain IV 28, auxiliary driving sprocket wheel V 29, auxiliary driving sprocket wheel VI 30, arc 31, auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel Ⅸ 33, block 34, driven shake grid axle 35, driven shake grid 36, protruding 37, amplitude adjusting rod 38,

Frame 3 is fixed frames of whole harvesting system; Regulating wheel 10 is placed in and regulates on wheel shaft 11 and be positioned at the back lower place of frame 3, for carrying weight and the walking of harvesting system; Hitch frame 2 is positioned at front in frame 3, connects the traction of harvesting system for four-wheel tractor; Breast boards 20, digger blade 23 are positioned at frame 3 inferoanterior, cut soil for shovel; Rolling grid 24 are positioned at digger blade 23 back upper place, and are positioned at the inside of frame 3, for first time de-soil; Driven shake grid 36 are positioned at rolling grid 24 rear, and are positioned at the inside of frame 3, for accepting root earth mixtures, and have certain de-soil effect; Firm bar grizzl(e)y 6 is positioned at driven shake grid 36 rear, has necessarily angle of inclination obliquely, and is positioned at the inside of frame 3, for the de-soil of second time; Adjustable cam mechanism shaft 12 is positioned at firm bar grizzl(e)y 6 interior volume, and is positioned at the inside of frame 3, for increasing the de-soil nature energy of firm bar grizzl(e)y 6; Collecting box 7 is positioned at frame 3 rear, for collecting Roots of Panax Notoginseng;

Power is transported to Bevel Gear Drive 4 by power input shaft 1, through Bevel Gear Drive 4 input power to transmission main shaft 21, then be positioned at upper left side sprocket for main drive 22, by chain III 19, power be sent to auxiliary driving chain wheel I 16, power is flowed to rolling grid main shaft 17 by auxiliary driving chain wheel I 16, drives the rolling grid 24 being positioned at digger blade 23 rear to rotate by rolling grid main shaft 17;

Auxiliary driving chain wheel II 18 and auxiliary driving chain wheel I 16 are arranged on rolling grid main shaft 17, and are positioned at the left side of reaping machine; Auxiliary driving sprocket wheel III 26 is also arranged on rolling grid main shaft 17, but is positioned at the right side of reaping machine;

Moment of torsion on rolling grid main shaft 17 drives auxiliary driving sprocket wheel III 26 to rotate, the chain IV 28 that rotates through of auxiliary driving sprocket wheel III 26 drives auxiliary driving sprocket wheel V 29 to rotate, the rotation of auxiliary driving sprocket wheel V 29 drives steel bar to sieve rear axle 9 simultaneously and rotates, the rotation of steel bar sieve rear axle 9 drives auxiliary driving sprocket wheel VI 30 to rotate together with auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel VI 30 drives auxiliary driving sprocket wheel VIII 27 and auxiliary driving sprocket wheel Ⅸ 33 with auxiliary driving sprocket wheel VII 32 by being with ear chain I 5, make steel bar sieve front axle 15 with this to rotate, and form steel bar sieve 6 with inserting reinforcing bar in the ear hole of ear chain, for de-soil,

Moment of torsion on rolling grid main shaft 17 also drives auxiliary driving chain wheel II 18 to rotate, auxiliary driving chain wheel II 18 drives auxiliary driving sprocket wheel IV 13 to rotate by chain II 14, auxiliary driving sprocket wheel IV 13 drives adjustable cam mechanism shaft 12 to rotate, adjustable cam mechanism shaft 12 drives the arc 31 welded with amplitude adjusting rod 38 to rotate, arc 31 has the rotation of frequency to clash into steel bar sieve 6, make steel bar sieve about 6 to shake, increase the de-soil nature energy of steel bar sieve 6;

And be welded with protruding 37 in the reinforcing bar both sides of steel bar sieve 6, when protruding 37 along with steel bar sieves the grizzly bar that 6 athletic meeting strike driven shake grid 36 rear, and drive the front grizzly bar welded with driven shake grid axle 35 to move up and down, but limit the motion amplitude of grizzly bar with block 34, increase the vibration trend of root-earth mixtures on steel bar sieve 6 with this.

Described digger blade 23 grizzly bar gap and rolling grid 24 grizzly bar gap interlaced, the grizzly bar of driven shake grid axle 35 and the grizzly bar gap of rolling grid 24 interlaced.

Embodiment 12: as Figure 1-3, a kind of rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction, comprise power input shaft 1, hitch frame 2, frame 3, Bevel Gear Drive 4, chain I 5, steel bar sieve 6, collecting box 7, adjusting screw 8, steel bar sieve rear axle 9, regulating wheel 10, regulate wheel shaft 11, adjustable cam mechanism shaft 12, auxiliary driving sprocket wheel IV 13, chain II 14, steel bar sieve front axle 15, auxiliary driving chain wheel I 16, rolling grid main shaft 17, auxiliary driving chain wheel II 18, chain III 19, breast boards 20, transmission main shaft 21, sprocket for main drive 22, digger blade 23, rolling grid 24, digger blade adjusting rod 25, auxiliary driving sprocket wheel III 26, auxiliary driving sprocket wheel VIII 27, chain IV 28, auxiliary driving sprocket wheel V 29, auxiliary driving sprocket wheel VI 30, arc 31, auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel Ⅸ 33, block 34, driven shake grid axle 35, driven shake grid 36, protruding 37, amplitude adjusting rod 38,

Frame 3 is fixed frames of whole harvesting system; Regulating wheel 10 is placed in and regulates on wheel shaft 11 and be positioned at the back lower place of frame 3, for carrying weight and the walking of harvesting system; Hitch frame 2 is positioned at front in frame 3, connects the traction of harvesting system for four-wheel tractor; Breast boards 20, digger blade 23 are positioned at frame 3 inferoanterior, cut soil for shovel; Rolling grid 24 are positioned at digger blade 23 back upper place, and are positioned at the inside of frame 3, for first time de-soil; Driven shake grid 36 are positioned at rolling grid 24 rear, and are positioned at the inside of frame 3, for accepting root earth mixtures, and have certain de-soil effect; Firm bar grizzl(e)y 6 is positioned at driven shake grid 36 rear, has necessarily angle of inclination obliquely, and is positioned at the inside of frame 3, for the de-soil of second time; Adjustable cam mechanism shaft 12 is positioned at firm bar grizzl(e)y 6 interior volume, and is positioned at the inside of frame 3, for increasing the de-soil nature energy of firm bar grizzl(e)y 6; Collecting box 7 is positioned at frame 3 rear, for collecting Roots of Panax Notoginseng;

Power is transported to Bevel Gear Drive 4 by power input shaft 1, through Bevel Gear Drive 4 input power to transmission main shaft 21, then be positioned at upper left side sprocket for main drive 22, by chain III 19, power be sent to auxiliary driving chain wheel I 16, power is flowed to rolling grid main shaft 17 by auxiliary driving chain wheel I 16, drives the rolling grid 24 being positioned at digger blade 23 rear to rotate by rolling grid main shaft 17;

Auxiliary driving chain wheel II 18 and auxiliary driving chain wheel I 16 are arranged on rolling grid main shaft 17, and are positioned at the left side of reaping machine; Auxiliary driving sprocket wheel III 26 is also arranged on rolling grid main shaft 17, but is positioned at the right side of reaping machine;

Moment of torsion on rolling grid main shaft 17 drives auxiliary driving sprocket wheel III 26 to rotate, the chain IV 28 that rotates through of auxiliary driving sprocket wheel III 26 drives auxiliary driving sprocket wheel V 29 to rotate, the rotation of auxiliary driving sprocket wheel V 29 drives steel bar to sieve rear axle 9 simultaneously and rotates, the rotation of steel bar sieve rear axle 9 drives auxiliary driving sprocket wheel VI 30 to rotate together with auxiliary driving sprocket wheel VII 32, auxiliary driving sprocket wheel VI 30 drives auxiliary driving sprocket wheel VIII 27 and auxiliary driving sprocket wheel Ⅸ 33 with auxiliary driving sprocket wheel VII 32 by being with ear chain I 5, make steel bar sieve front axle 15 with this to rotate, and form steel bar sieve 6 with inserting reinforcing bar in the ear hole of ear chain, for de-soil,

Moment of torsion on rolling grid main shaft 17 also drives auxiliary driving chain wheel II 18 to rotate, auxiliary driving chain wheel II 18 drives auxiliary driving sprocket wheel IV 13 to rotate by chain II 14, auxiliary driving sprocket wheel IV 13 drives adjustable cam mechanism shaft 12 to rotate, adjustable cam mechanism shaft 12 drives the arc 31 welded with amplitude adjusting rod 38 to rotate, arc 31 has the rotation of frequency to clash into steel bar sieve 6, make steel bar sieve about 6 to shake, increase the de-soil nature energy of steel bar sieve 6;

And be welded with protruding 37 in the reinforcing bar both sides of steel bar sieve 6, when protruding 37 along with steel bar sieves the grizzly bar that 6 athletic meeting strike driven shake grid 36 rear, and drive the front grizzly bar welded with driven shake grid axle 35 to move up and down, but limit the motion amplitude of grizzly bar with block 34, increase the vibration trend of root-earth mixtures on steel bar sieve 6 with this.

By reference to the accompanying drawings embodiment of the present utility model is explained in detail above, but the utility model is not limited to above-mentioned embodiment, in the ken that those of ordinary skill in the art possess, various change can also be made under the prerequisite not departing from the utility model aim.

Claims (4)

1. a rolling grating pseudo-ginseng reaping machine for four-wheel tractor traction, is characterized in that: comprise power input shaft (1), hitch frame (2), frame (3), Bevel Gear Drive (4), chain I (5), steel bar sieve (6), collecting box (7), adjusting screw (8), steel bar sieve rear axle (9), regulating wheel (10), regulate wheel shaft (11), adjustable cam mechanism shaft (12), auxiliary driving sprocket wheel IV (13), chain II (14), steel bar sieve front axle (15), auxiliary driving chain wheel I (16), rolling grid main shaft (17), auxiliary driving chain wheel II (18), chain III (19), breast boards (20), transmission main shaft (21), sprocket for main drive (22), digger blade (23), rolling grid (24), digger blade adjusting rod (25), auxiliary driving sprocket wheel III (26), auxiliary driving sprocket wheel VIII (27), chain IV (28), auxiliary driving sprocket wheel V (29), auxiliary driving sprocket wheel VI (30), arc (31), auxiliary driving sprocket wheel VII (32), auxiliary driving sprocket wheel Ⅸ (33), block (34), driven shake grid axle (35), driven shake grid (36), protruding (37), amplitude adjusting rod (38),

Frame (3) is the fixed frame of whole harvesting system; Regulating wheel (10) is placed in and regulates wheel shaft (11) upper and the back lower place being positioned at frame (3), for carrying weight and the walking of harvesting system; Hitch frame (2) is positioned at the upper front of frame (3), connects the traction of harvesting system for four-wheel tractor; Breast boards (20), digger blade (23) are positioned at frame (3) inferoanterior, cut soil for shovel; Rolling grid (24) are positioned at digger blade (23) back upper place, and are positioned at the inside of frame (3), for first time de-soil; Driven shake grid (36) are positioned at rolling grid (24) rear, and are positioned at the inside of frame (3), for accepting root earth mixtures, and have certain de-soil effect; Firm bar grizzl(e)y (6) is positioned at driven shake grid (36) rear, has angle of inclination obliquely, and is positioned at the inside of frame (3), for the de-soil of second time; Adjustable cam mechanism shaft (12) is positioned at firm bar grizzl(e)y (6) interior volume, and is positioned at the inside of frame (3), for increasing the de-soil nature energy of firm bar grizzl(e)y (6); Collecting box (7) is positioned at frame (3) rear, for collecting Roots of Panax Notoginseng;

Power is transported to Bevel Gear Drive (4) by power input shaft (1), through Bevel Gear Drive (4) input power to transmission main shaft (21), then be positioned at upper left side sprocket for main drive (22), by chain III (19), power be sent to auxiliary driving chain wheel I (16), power is flowed to rolling grid main shaft (17) by auxiliary driving chain wheel I (16), drives the rolling grid (24) being positioned at digger blade (23) rear to rotate by rolling grid main shaft (17);

Auxiliary driving chain wheel II (18) and auxiliary driving chain wheel I (16) are arranged on rolling grid main shaft (17), and are positioned at the left side of reaping machine; Auxiliary driving sprocket wheel III (26) is also arranged on rolling grid main shaft (17), but is positioned at the right side of reaping machine;

Moment of torsion on rolling grid main shaft (17) drives auxiliary driving sprocket wheel III (26) to rotate, the chain IV (28) that rotates through of auxiliary driving sprocket wheel III (26) drives auxiliary driving sprocket wheel V (29) to rotate, the rotation of auxiliary driving sprocket wheel V (29) drives steel bar to sieve rear axle (9) simultaneously and rotates, the rotation of steel bar sieve rear axle (9) drives auxiliary driving sprocket wheel VI (30) to rotate together with auxiliary driving sprocket wheel VII (32), auxiliary driving sprocket wheel VI (30) drives auxiliary driving sprocket wheel VIII (27) and auxiliary driving sprocket wheel Ⅸ (33) with auxiliary driving sprocket wheel VII (32) by being with ear chain I (5), make steel bar sieve front axle (15) with this to rotate, and form steel bar sieve (6) with inserting reinforcing bar in the ear hole of ear chain, for de-soil,

Moment of torsion on rolling grid main shaft (17) also drives auxiliary driving chain wheel II (18) to rotate, auxiliary driving chain wheel II (18) drives auxiliary driving sprocket wheel IV (13) to rotate by chain II (14), auxiliary driving sprocket wheel IV (13) drives adjustable cam mechanism shaft (12) to rotate, adjustable cam mechanism shaft (12) drives the arc (31) welded with amplitude adjusting rod (38) to rotate, arc (31) has the rotation of frequency to clash into steel bar sieve (6), make steel bar sieve (6) to shake up and down, increase the de-soil nature energy of steel bar sieve (6);

And be welded with projection (37) in the reinforcing bar both sides of steel bar sieve (6), when protruding (37) along with (6) athletic meeting of steel bar sieve strikes the grizzly bar at driven shake grid (36) rear, and drive the front grizzly bar welded with driven shake grid axle (35) to move up and down, but with the motion amplitude of block (34) restriction grizzly bar, increase the vibration trend of root-earth mixtures on steel bar sieve (6) with this.

2. the rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction according to claim 1, it is characterized in that: described digger blade (23) grizzly bar gap and rolling grid (24) grizzly bar gap interlaced, the grizzly bar of driven shake grid axle (35) and the grizzly bar gap of rolling grid (24) interlaced.

3. the rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction according to claim 1 and 2, it is characterized in that: the pseudo-ginseng of results different year can regulate the penetrating angle of digger blade (23), and the grizzly bar gap of adjustment roll moving grid (24) and adjusting amplitude adjusting rod (38).

4. the rolling grating pseudo-ginseng reaping machine of four-wheel tractor traction according to claim 3, it is characterized in that: the penetrating angle of described digger blade (23) can be regulated by digger blade adjusting rod (25), also the adjusting screw (8) by regulating wheel (10) regulates, can also be lever regulated by four-wheel tractor trifilar suspension.