CN205040247U - Rhizome class crops harvester - Google Patents

Abstract

The utility model provides a rhizome class crops harvester, includes the frame, be arranged in the spiller of frame front end and be located the shale shaker at frame rear portion, sets up vertical live -rollers respectively in the both sides of frame front end, leaves the space between live -rollers and the frame, two live -rollerss are connected with the power shaft, being equipped with at least a pair of annular primary and secondary sealing member in the live -rollers, being located the space of bearing frame and bearing frame betweencenters, outside and the bearing frame of primary and secondary sealing member are interference fit, and the bearing frame axle sets up in primary and secondary sealing member centre bore, the rear portion below of frame sets up the back ridge roller, and back ridge roller is connected in the frame with articulated mode. This harvester is applicable to multiple soil types, like sand and soil, sandy loam, well cohesive soil etc, adopt tricycle vibration system, crops are effectual with the separation of soil, and the yield is higher than 99%, and the breakage rate is less than 1%, back ridge roller and the design of collection baffle reduce the crops damage, and the back crops that fall to the ground are concentrated, easy results, not stifled grass, it is fast to leak soil, long service life.

Description

A kind of root-tuber crop harvester

Technical field

The utility model belongs to technical field of agricultural mechanical equipment, is specifically related to a kind of root-tuber crop harvester.

Background technology

Root-tuber crop comprises potato, pachyrhizus, peanut, garlic, carrot etc., accounts for the large percentage of all crops of China.Particularly potato, from January, 2015, country starts to try hard to recommend potato staple food grainization strategy, become the fourth-largest staple food grain crop after rice, wheat, corn, potato cultivated area will progressively expand 1.5 hundred million mu to, expect the year two thousand twenty, and the potato of China more than 50% will consume as staple food grain.Traditional farming mainly gathers in the crops root-tuber crop by hand digging, and peasant's labour intensity is large, and efficiency of crop is low.Harvest machinery was promoted gradually in recent years in establishing in large scale district, but mostly there is following problem in these harvest machineries: it is poor that (1) soil adapts to, zones of different, weather conditions and crop specie difference cause soil characteristics to vary, and existing machinery all cannot adapt to these different soil environments, cause cannot normally working in some cases; (2) separating effect of soil and crops is not good; (3) utilization percent is limited, and breakage rate is higher; (4) crops of gathering in the crops out easily disperse, and add difficulty for collecting.

Utility model content

For solving the problem, the utility model devises a kind of novel root-tuber crop grain header, and to solve, existing harvest machinery soil suitability is poor, crops and Soil separation effect is poor, utilization percent is low, breakage rate is high and the crops of gathering in the crops out disperse problem.

The utility model adopts following technical scheme to realize: a kind of root-tuber crop harvester, comprise frame, the perching knife in frame front end and the vibratory sieve between two frames, frame comprises two framework lateral plates be arranged in parallel, vibratory sieve is positioned at the rear of perching knife, described vibratory sieve comprises drive and sieve nest, drive comprises main driving wheel and moving runner, sieve nest is wrapped on main driving wheel and moving runner, the both sides at perching knife rear portion arrange vertical live-rollers respectively, the front portion of frame and the top of vibratory sieve is fixed with motor, wherein:

The bottom of described live-rollers is provided with bearing block, the middle part of bearing block is provided with bearing block axle, be provided with at least one pair of ring-shaped primary-secondary seal between bearing block and bearing block axle, the outer circular edge of primary and secondary seal and the inwall of bearing block are interference fit, and bearing block axle is arranged in primary and secondary seal centre bore;

The lower rear of frame arranges rear ridge roller, and the frame of rear ridge roller and both sides is hinged;

Described vibratory sieve main driving wheel comprises outer drive and inner driving wheel I, and annular is provided with three roller vibrating devices up and down between sieve nest, three roller vibrating devices comprise three roller vibrating mechanism and turning cylinders; Outer drive I and inner driving wheel I are all arranged on one end of power transmission shaft, power transmission shaft is through the side plate of body both sides, outer drive I is arranged on the outside of body side plate, inner driving wheel I is arranged on the inner side of body side plate, outer drive I is connected with the output shaft of motor by chain, the other end of power transmission shaft is provided with outer drive II and inner driving wheel II, and outer drive II is arranged on the outside of body side plate, and inner driving wheel II is arranged on the inner side of body side plate; Outer drive II is connected by Chain conveyer with the turning cylinder of three roller vibrating devices; By the rotation of three roller vibrating devices, realize the vibration of vibratory sieve.Vibrating device of the prior art is all two rollers, and Oscillation Amplitude is large, can cause vibration damage to crops, and by three roller vibrating devices, can reduce the amplitude of vibratory sieve.Outer drive drives vibratory sieve moving runner rotate thus vibratory sieve is rotated on the one hand, drives inner driving wheel to rotate on the other hand thus drive three roller vibrating devices to rotate to make shaker vibration.

The power transmission shaft of vibratory sieve is fixed on framework lateral plate by flange, power transmission shaft is through the center of flange, flange is bolted on framework lateral plate, framework lateral plate is provided with the sliding tray structure of mounting flange, sliding tray structure comprises power transmission shaft position adjustment tank and bolt position adjustment tank, power transmission shaft is arranged in the adjustment tank of power transmission shaft position, and bolt is arranged in bolt position adjustment tank.

Described primary and secondary seal is made up of the component of annular and the parent part of annular, and the annular inboard of component is provided with flange, and the annular outboard of parent part is provided with flange, and when component and parent part coordinate, the direction of two flanges is in opposite directions, be combined to form one annular box-like.

Described primary and secondary seal is stainless steel.Compared to conventional quality of rubber materials, be more suitable for being applied in reaping machine of the present utility model, the service life of reaping machine can be extended.The setting of primary and secondary seal can improve the sealing of live-rollers, and prevent outside dust from entering in the bearing of live-rollers, in certain scope, the more sealing effectiveness of quantity of primary and secondary seal are better.

The two ends of described rear ridge roller roll shaft are separately positioned on adjusting rod I, one end of adjusting rod I and the inwall of body side hinged, the other end and adjusting rod II hinged, the other end of adjusting rod II and the inwall of body side hinged.The front and back high and low position of rear ridge roller is adjustable, therefore can regulate according to the crop specie of actual cut and quantity.

Described flange is fixedly connected with body side respectively by the bolt being positioned at its four angles place.

Described three roller vibrating mechanism involving vibrations wheel and connecting plates, described connecting plate is triangle, is fixedly connected with vibrating wheels, is connected between vibrating wheels with inner driving wheel II by chain drive at each summit place of connecting plate.

Described perching knife shape is trapezoidal, and blade and the knife back are two trapezoidal bases, and the knife back is longer than blade.Relative to the design of rectangle perching knife in prior art, this trapezoidal perching knife can reduce advance resistance on the one hand, crops seedling and weeds can slide to reaping machine both sides along the hypotenuse of perching knife on the other hand, live-rollers is coordinated to use, seedling can be with to gather in the crops, prevent from seedling and weeds to be wound into impact on reaping machine to use, therefore also can relievedly use in the place that weeds are more.

Respectively on two body side plates at described frame rear portion fix one piece and collect baffle plate, collect baffle plate and be positioned at the rear portion of vibratory sieve, and height is higher than the height of vibratory sieve, two pieces of rear portions of collecting baffle plates form the trend of drawing in inside reaping machine.Collect baffle plate to draw in the crops of carrying from vibratory sieve, concentrate in a row when making it land, avoid tumbling to both sides.

The below of described collection baffle plate also arranges the YIPAISHU tooth being fixed on and collecting on baffle plate, and the distance between two row's comb is less than the distance between two collection baffle plates.Comb plays further gathering effect to crops, and reduces the free-falling height of crops, reduces crops damage.

The transmission mechanism of live-rollers arranges as follows: the output shaft of motor is connected with line shaft by chain, and line shaft drives live-rollers to rotate.

Described live-rollers is arranged at least one vertical fin, live-rollers operationally plays the effect seedling of crops and weeds swept away, and fin can increase winding dynamics, and that improves seedling and weeds sweeps away rate.

The beneficial effects of the utility model are: (1) is applicable to multiple soil types, as sandy soil, sandy loam, middle cohesive soil etc.; (2) adopt three roller vibrational systems, crops and native good separating effect, utilization percent is higher than 99%, and breakage rate is lower than 1%; (3) afterwards ridge roller and collect baffle design, reduce crops damage, the rear crops that land concentrate, easily gather in the crops; (4) efficiency is high, and not stifled grass, leaks soil fast, long service life.

Accompanying drawing explanation

Fig. 1 is the utility model root-tuber crop harvester stereogram;

Fig. 2 is the utility model root-tuber crop harvester rearview;

Fig. 3 is the A-A face cutaway view of Fig. 2;

Fig. 4 is rear ridge roller enlarged drawing;

Fig. 5 is live-rollers cutaway view;

Fig. 6 is the A portion enlarged drawing of Fig. 5;

Fig. 7 is primary and secondary seal exploded view;

Fig. 8 is frame schematic diagram;

Fig. 9 is sliding tray component operation view;

Figure 10 is the structural representation of three roller vibrating devices.

In figure, 1-live-rollers; 2-connecting plate; 3-perching knife; 4-fin; 5-line shaft; 6-hitch frame; 7-motor; 8-output shaft; 9-tri-roller vibrating device; 10-vibratory sieve; 11-inner driving wheel I; 12-collects baffle plate; 13-comb; 14-collects damper regulator; The outer drive of 15-; Ridge roller after 16-; 17-power transmission shaft; 18-adjusting rod II; 21-bearing block; 22-bearing block axle; 23-primary and secondary seal; 24-parent part; 25-component; 26-bolt position adjustment tank; 27-power transmission shaft position adjustment tank; 28-flange; 29-bolt; 30-chain; 31-body side plate; 32-adjusting rod II; 33 vibrating wheels; 34 connecting plates.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further details.

As shown in Figure 1, described root-tuber crop harvester, comprise frame, be positioned at the perching knife 3 of frame front end and vibratory sieve 10, vibratory sieve 10 is arranged between two framework lateral plates, and vibratory sieve 10 is positioned at the rear of perching knife 3, and the both sides at perching knife 3 rear portion arrange vertical live-rollers 1 respectively, space is left between live-rollers 1 and frame, space can allow crops seedling and weeds to pass, and two live-rollers 1 are connected with line shaft 5, and line shaft 5 is connected with motor 7.The bottom of live-rollers 1 is provided with bearing block 21, the middle part of bearing block 21 is provided with bearing block axle 22, three pairs of ring-shaped primary-secondary seals 23 are provided with between bearing block 21 and bearing block axle 22, be positioned at the space between bearing block 21 and bearing block axle 22, the outer circular edge of primary and secondary seal 23 and the inwall of bearing block 21 are interference fit, and bearing block axle 22 is arranged in primary and secondary seal 23 centre bore.The front portion of frame and the top of vibratory sieve is fixed with motor 7, controls the rotation of live-rollers 1, the rotation of vibratory sieve 10 and vibration.

As best shown in figures 5 and 7, primary and secondary seal 23 is combined by the component 25 of annular and the parent part 24 of annular, and the annular inboard of component 25 is provided with flange, and the annular outboard of parent part 24 is provided with flange, when component 25 and parent part 24 coordinate, the direction of two flanges in opposite directions, annular box-like of the formation one that combines.The setting of primary and secondary seal 23 can improve the sealing of live-rollers 1, and prevent outside dust from entering in the bearing of live-rollers 1, in certain scope, the more sealing effectiveness of quantity of primary and secondary seal 23 are better.

Primary and secondary seal 23 is stainless steel, compared to conventional quality of rubber materials, is more suitable for being applied in reaping machine of the present utility model, can extends the service life of reaping machine.

As shown in figures 1 and 3, described vibratory sieve 10 comprises drive and sieve nest, and drive comprises main driving wheel and moving runner, and sieve nest is wrapped on main driving wheel and moving runner.Described vibratory sieve main driving wheel comprises outer drive I 15 and inner driving wheel I 11, and three roller vibrating device 9, the three roller vibrating devices 9 that are provided with between sieve nest up and down of annular comprise three roller vibrating mechanism and turning cylinders; Outer drive I 15 and inner driving wheel I 11 are all arranged on one end of power transmission shaft 17, power transmission shaft 17 is through the side plate 31 of body both sides, outer drive I 15 is arranged on the outside of body side plate 31, inner driving wheel I 11 is arranged on the inner side of body side plate 31, outer drive I 15 is connected with the output shaft 8 of motor 7 by chain, the other end of power transmission shaft 17 is provided with outer drive II and inner driving wheel II, outer drive II is arranged on the outside of body side plate 31, and inner driving wheel II is arranged on the inner side of body side plate 31; Outer drive II is connected by Chain conveyer with the turning cylinder of three roller vibrating devices 9.

Vibratory sieve 10 three roller vibrating devices 9 are set between driving-chain up and down.Described three roller vibrating mechanism involving vibrations wheel 33 and connecting plates 34, described connecting plate 34 is triangle, is fixedly connected with vibrating wheels 33, is connected between vibrating wheels 33 with inner driving wheel II by chain drive at each summit place of connecting plate 34.In three roller vibrating device 9 rotation processes, the distance between upper and lower driving-chain can be made to change, thus realize the vibration of vibratory sieve 10.Vibrating device of the prior art is all two rollers, and Oscillation Amplitude is large, can cause vibration damage to crops, and by three roller vibrating devices 9, can reduce the amplitude of vibratory sieve 10.In sum, outer drive drives vibratory sieve moving runner rotate thus vibratory sieve is rotated on the one hand, drives inner driving wheel to rotate on the other hand thus drive three roller vibrating devices to rotate to make shaker vibration.

As shown in FIG. 8 and 9, outer drive 15 is fixed on framework lateral plate 31 by flange 28, and power transmission shaft 17 through the center of flange 28, and can rotate in centre bore; Flange is fixed on framework lateral plate 31 by bolt 29, framework lateral plate 31 is provided with the sliding tray structure of mounting flange 28, sliding tray structure comprises power transmission shaft position adjustment tank 27 and bolt position adjustment tank 26, power transmission shaft 17 is arranged in power transmission shaft position adjustment tank 27, and power transmission shaft 17 can along this groove slide anteroposterior; Bolt is arranged in bolt position adjustment tank 26, and bolt can along this groove slide anteroposterior.Flange can by being arranged on being bolted on framework lateral plate 31 of its four angles place.Due to reaping machine after a certain period of use time, gypsy chain can loosen, at this moment, by release bolt 29, power transmission shaft 17 is made to be adjusted to along power transmission shaft position adjustment tank 27 position making gypsy chain again be in tensioning state, power transmission shaft 17 drives flange 28 to move, and after being adjusted to correct position, is retightened the position of flange 28 and power transmission shaft 17 by the bolt 29 of flange 28.

As shown in Figures 3 and 4, the lower rear of frame arranges rear ridge roller 16, and rear ridge roller 16 is connected in frame in hinged way, and rear ridge roller 16 is arranged on the back lower place of vibratory sieve 10 afterbody.The two ends of described rear ridge roller 16 roll shaft are separately positioned on adjusting rod I 32, one end of adjusting rod I 32 and the inwall of body side 31 hinged, the other end and adjusting rod II 18 hinged, the other end of adjusting rod II 18 and the inwall of body side 31 hinged.When gathering in root-tuber crop, as potato, pachyrhizus, peanut, garlic, carrot, crops on machine, and are sieved to the rear of reaping machine by crop harvesting by the front end of reaping machine by vibratory sieve 10.Owing to having ridge between each piece of ground, the both sides on ridge are provided with furrow, and furrow is downward recess, the crops of therefore gathering in the crops can be rolled in furrow, and the wheel of reaping machine seesaws along furrow just, therefore the wheel of reaping machine can be pressed onto the crops in furrow, causes damaging some crops by pressure.By arranging this rear ridge roller 16, the crops fallen being flattened, prevent it to be rolled in furrow from vibratory sieve 10.The front and back high and low position of rear ridge roller 16 is adjustable, therefore can regulate according to the crop specie of actual cut and quantity.

Perching knife 3 shape is trapezoidal, and blade and the knife back are two trapezoidal bases, and the knife back is longer than blade.Relative to the design of rectangle perching knife 3 in prior art, this trapezoidal perching knife 3 one aspect can reduce advance resistance, crops seedling and weeds can slide to reaping machine both sides along the hypotenuse of perching knife 3 on the other hand, live-rollers 1 is coordinated to use, seedling can be with to gather in the crops, prevent from seedling and weeds to be wound into impact on reaping machine to use, therefore also can relievedly use in the place that weeds are more.

Respectively on two side plates 31 at frame rear portion fix one piece and collect baffle plate 12, collect baffle plate 12 and be positioned at the rear portion of vibratory sieve 10, and height is higher than the height of vibratory sieve 10, two pieces of rear portions of collecting baffle plates 12 form the trend of drawing in inside reaping machine.Collect baffle plate 12 to draw in the crops of carrying from vibratory sieve 10, concentrate in a row when making it land, avoid tumbling to both sides.

Collect the below of baffle plate 12 also to arrange and be fixed on YIPAISHU tooth 13, two distance of arranging between comb 13 of collecting on baffle plate 12 and be less than distance between two collection baffle plates 12.Comb 13 pairs of crops play further gathering effect, and reduce the free-falling height of crops, reduce crops damage.

The distance of collecting between baffle plate 12 and the side plate 31 at its place regulates by collecting damper regulator 14, so that the gathering degree as required needed for adjustment.

Live-rollers 1 is arranged at least one vertical fin 4, live-rollers 1 operationally plays the effect seedling of crops and weeds swept away, and fin 4 can increase winding dynamics, and that improves seedling and weeds sweeps away rate.The transmission mechanism of live-rollers 1 arranges as follows: the output shaft 8 of motor 7 is connected with line shaft 5 by chain, and line shaft 5 drives live-rollers 1 to rotate.

During above-mentioned root-tuber crop harvester work, be fixed on tractor by hitch frame 6, the power of advance is provided by tractor.Rely on the power that motor 7 provides, live-rollers 1 and vibratory sieve 10 carry out rotation and vibration.In reaping machine advance process, the seedling on earth's surface and weeds etc. are brought to reaping machine both sides by live-rollers 1; Perching knife 3 enters under ground portion and excavates crops, excavate the crops that come up to mix soil and be delivered to vibratory sieve 10 through connecting plate 2, in the vibration processes of vibratory sieve 10, the soil of mixing can be shattered and leak to below from vibratory sieve 10, and crops are along with the rotational conveyance of vibratory sieve 10 is to the rear of reaping machine, fall earthward after the gathering decelerating effect of collecting baffle plate 12 and comb 13, the crops fallen flatten by rear ridge roller 16, prevent it to be rolled in furrow.Finally concentrate the crops that results ridge is piled up.

Above-mentioned explanation is not to restriction of the present utility model; the utility model is also not limited in above-mentioned citing; the change that those skilled in the art make in essential scope of the present utility model, remodeling, interpolation or replacement, also should belong to protection domain of the present utility model.

Claims (9)

1. a root-tuber crop harvester, comprise frame, be positioned at perching knife (3) and the vibratory sieve (10) of frame front end, frame comprises two framework lateral plates be arranged in parallel (31), vibratory sieve (10) is arranged between two framework lateral plates, vibratory sieve (10) is positioned at the rear of perching knife (3), described vibratory sieve (10) comprises drive and sieve nest, drive comprises main driving wheel and moving runner, sieve nest is wrapped on main driving wheel and moving runner, the both sides at perching knife (3) rear portion arrange vertical live-rollers (1) respectively, the front portion of frame and the top of vibratory sieve is fixed with motor (7), it is characterized in that:

The bottom of described live-rollers (1) is provided with bearing block (21), the middle part of bearing block (21) is provided with bearing block axle (22), at least one pair of ring-shaped primary-secondary seal (23) is provided with between bearing block (21) and bearing block axle (22), the outer circular edge of primary and secondary seal (23) and the inwall of bearing block (21) are interference fit, and bearing block axle (22) is arranged in primary and secondary seal (23) centre bore; The lower rear of frame arranges rear ridge roller (16), and rear ridge roller (16) is hinged with the frame of both sides;

Described vibratory sieve main driving wheel comprises outer drive I (15) and inner driving wheel I (11), annular is provided with three roller vibrating devices (9) up and down between sieve nest, three roller vibrating devices (9) comprise three roller vibrating mechanism and turning cylinders;

Outer drive I (15) and inner driving wheel I (11) are all arranged on one end of power transmission shaft (17), power transmission shaft (17) is through the side plate (31) of body both sides, outer drive I (15) is arranged on the outside of body side plate (31), inner driving wheel I (11) is arranged on the inner side of body side plate (31)

Outer drive I (15) is connected with the output shaft (8) of motor (7) by chain, the other end of power transmission shaft (17) is provided with outer drive II and inner driving wheel II, outer drive II is arranged on the outside of body side plate (31), and inner driving wheel II is arranged on the inner side of body side plate (31); Outer drive II is connected by Chain conveyer with the turning cylinder of three roller vibrating devices (9);

The power transmission shaft (17) of vibratory sieve (10) is fixed on framework lateral plate (31) by flange (28), power transmission shaft (17) is through the center of flange (28), flange is bolted on framework lateral plate (31), framework lateral plate (31) is provided with the sliding tray structure of mounting flange (28), sliding tray structure comprises power transmission shaft position adjustment tank (27) and bolt position adjustment tank (26), power transmission shaft (17) is arranged in power transmission shaft position adjustment tank (27), bolt is arranged in bolt position adjustment tank (26).

2. root-tuber crop harvester according to claim 1, it is characterized in that, described primary and secondary seal (23) is made up of the component (25) of annular and the parent part (24) of annular, the annular inboard of component (25) is provided with flange, the annular outboard of parent part (24) is provided with flange, when component (25) and parent part (24) coordinate, the direction of two flanges is in opposite directions, be combined to form one annular box-like.

3. root-tuber crop harvester according to claim 1 and 2, is characterized in that, described primary and secondary seal (23) is stainless steel.

4. root-tuber crop harvester according to claim 1, it is characterized in that, the two ends of described rear ridge roller (16) roll shaft are separately positioned on adjusting rod I (32), one end of adjusting rod I (32) and the inwall of body side (31) hinged, the other end and adjusting rod II (18) hinged, the other end of adjusting rod II (18) and the inwall of body side (31) hinged.

5. root-tuber crop harvester according to claim 1, is characterized in that, described flange (28) is fixedly connected with body side (31) respectively by the bolt being positioned at its four angles place.

6. root-tuber crop harvester according to claim 1, it is characterized in that, described three roller vibrating mechanism involving vibrations wheel (33) and connecting plates (34), described connecting plate (33) is triangle, be fixedly connected with vibrating wheels (33) at each summit place of connecting plate (34), vibrating wheels (33) is connected by chain drive with between inner driving wheel II.

7. root-tuber crop harvester according to claim 1, is characterized in that, described perching knife (3) shape is trapezoidal, and blade and the knife back are two trapezoidal bases, and the knife back is longer than blade.

8. root-tuber crop harvester according to claim 1, it is characterized in that, two body side plates (31) at described frame rear portion are above each fixes one piece of collection baffle plate (12), collect the rear portion that baffle plate (12) is positioned at vibratory sieve (10), and height is higher than the height of vibratory sieve (10), two pieces of rear portions of collecting baffle plate (12) form the trend of drawing in inside reaping machine.

9. root-tuber crop harvester according to claim 8, it is characterized in that, the below of described collection baffle plate (12) also arranges the YIPAISHU tooth (13) being fixed on and collecting on baffle plate (12), and the distance between two rows' comb (13) is less than the distance between two collection baffle plates (12).