CN203748246U

CN203748246U - Pinellia ternate harvester

Info

Publication number: CN203748246U
Application number: CN201420140334.4U
Authority: CN
Inventors: 江志刚; 张璋; 江亚; 张华�; 鄢威; 李公法
Original assignee: Wuhan University of Science and Engineering WUSE
Current assignee: Wuhan University of Science and Engineering WUSE
Priority date: 2014-03-26
Filing date: 2014-03-26
Publication date: 2014-08-06
Anticipated expiration: 2024-03-26

Abstract

The utility model provides a pinellia ternate harvester which comprises a machine frame, a power device, a transmission device, a conveying device, a screening device, a collection box, a digging shovel and a rotary tillage rake shaft. Pinellia ternate sequentially passes through the digging shovel, the conveying device and the screening device to achieve triple screening of the pinellia ternate. Two transmissions are adopted to achieve change of rotating speed of the rotary tillage rake shaft and a stirring shaft. The transmission device adopts chain transmission, operation power of the rotary tillage rake shaft, the conveying device and the stirring shaft comes from one power source, and inconvenience caused by multiple power sources is avoided. The harvester is compact and simple in structure, convenient to move and high in pinellia ternate harvesting efficiency and accuracy.

Description

A kind of Pinellia tuber harvester

Technical field

The utility model belongs to the technical field of reaping machine, relates in particular to a kind of Pinellia tuber harvester.

Background technology

The tuber of pinellia is as a kind of economy medicinal plant; because its fertility is strong and impoverishment tolerant; the artificial planting tuber of pinellia has good economic benefit and wide market prospects; day by day receive people's concern; progressively form scale industry; as Yuncheng, Shanxi area, tuber of pinellia cultivated area expands year by year, becomes local important economic crops and export-oriented commodity.Current Pinellia tuber harvester both domestic and external is mostly used for reference similar machine and is designed, similar owner will comprise the crop harvesters such as potato, peanut, garlic, beet, but this type of machine is all not suitable for the requirement of tuber of pinellia results, on the one hand, excavating depth is larger, and adopt row results, incompatible with the planting density of the tuber of pinellia; On the other hand, the stem tuber size that separating mechanism adapts to is larger, is not suitable for the separation of tuber of pinellia stem tuber, therefore, and need to be for the plantation of the tuber of pinellia and the special Pinellia tuber harvester of crop characteristics design.

But the Pinellia tuber harvester volume existing is at present excessive, results precision is lower, power consumption is large, the overlong time of receiving, in the process of receiving, Rotary tillage rake axle rotating speed can not change, in screening process because cauline leaf, sandy soil are blocked screen holes when too much, thereby cause the extremely low and basic disablement of machine operating efficiency, power consumption is large, efficiency of crop is not high, and the Pinellia tuber harvester of therefore developing efficient energy-saving is extremely urgent.

Summary of the invention

Technical problem to be solved in the utility model is the deficiency existing for above-mentioned prior art and a kind of Pinellia tuber harvester is provided, and mechanism size is little, and the separative efficiency of screening plant is high, and tuber of pinellia results are effective, can realize the minimizing of power source again and reduces energy consumption.

The utility model solves the technical scheme that its technical problem adopts: a kind of Pinellia tuber harvester, comprise frame, power set, transmission device, conveying plant, screening plant, Material collecting box for harvesting, digger blade and Rotary tillage rake axle, power set are the output shaft of tractor, output shaft one end is fixed in frame by bearing, it is characterized in that, described transmission device comprises the first sprocket wheel being arranged on output shaft, the first sprocket wheel is connected by chain with the second sprocket wheel being arranged on the first frame support axle, the 3rd sprocket wheel is installed on frame the first back shaft and the adjacent setting of the second sprocket wheel, the first frame support axle two ends are separately installed with the first speed changer and the second speed changer, the 4th sprocket wheel is arranged on the output shaft of the first speed changer, the 5th sprocket wheel is arranged on the output shaft of the second speed changer, the output shaft of two speed changers is all fixed in frame by bearing,

The 5th sprocket wheel is connected by chain with the 7th sprocket wheel being installed on Rotary tillage rake axle, and Rotary tillage rake axle two ends are fixed in frame by bearing, uniform rotary tillage rake teeth on Rotary tillage rake axle excircle, and Rotary tillage rake axle two ends are also connected with digger blade; The 3rd sprocket wheel is connected by chain with the 6th sprocket wheel being installed on the second frame support axle, and the 8th sprocket wheel is also installed on the second frame support axle, and the second frame support axle two ends are fixed in frame by bearing; The 8th sprocket wheel is connected by chain with the 9th sprocket wheel being installed on the first gear shaft, and the first gear shaft two ends are fixed in frame by bearing; Between the 4th sprocket wheel and the tenth sprocket wheel, be connected by chain, the tenth sprocket wheel is installed on worm screw one end, and worm screw one end is fixed in frame by bearing;

Described conveying plant comprises the gear being installed on respectively on the first gear shaft and the second gear shaft and the chain engaging with gear, and the second gear shaft two ends are fixed in frame by bearing; Described screening plant comprises the receiver, carrier pipe and the shaft that are fixed in frame, and carrier pipe is connected with receiver bottom, and shaft is installed on receiver inside, and shaft lower end is provided with turbine, and turbine is meshed with described worm screw.

Press such scheme, the rectangular box that described receiver top is top end opening, rectangular box bottom is welded to connect with cone top, four sides, and cone bottom, four sides and cylindrical tube top are welded to connect.

Press such scheme, described carrier pipe is bending tube, and carrier pipe top inclined tube and bottom inclined tube be at 45 °～and 60 ° of angles arrange, and inclined tube lower end, top is connected by vertical pipe with inclined tube upper end, bottom; The cylindrical tube bottom that the center of inclined tube upper surface, top has circular hole and receiver is welded to connect.

Press such scheme, described shaft is cylinder, be installed in the cylindrical tube of receiver, the upper end of shaft is lower than the upper plane of cylindrical tube, the part that shaft is positioned at cylindrical tube sets gradually ten puddlers from top to bottom, every two puddlers are positioned at same plane and become 180 ° of angles to arrange, and ten puddlers in space see that every two become 36 ° of angles to arrange from top to bottom; , through conveyance conduit top inclined tube, stretch out from inclined tube lower surface, top shaft lower end, and described turbine is installed on the extension of shaft lower end, and the external part of shaft is fixed in frame by bearing.

Press such scheme, described digger blade is made up of base plate, biside plate and backboard, the downward-sloping setting of digger blade, and biside plate is fixedly connected with described rotovator rake axle, and base plate is positioned at rotovator rake teeth below, has several through holes on base plate, the backboard setting that recedes.

Press such scheme, every pitch chain plate of described chain all has through hole and is meshed with described gear tooth, and every pitch chain plate upper surface is also provided with a baffle plate.

Press such scheme, the top inclined tube of described carrier pipe and the bottom face of bottom inclined tube all have several sorting holes.

Press such scheme, described frame bottom bilateral symmetry parallel to the ground is provided with wheel.

The beneficial effects of the utility model are: 1, easy care, cancel the complex transmission of existing Pinellia tuber harvester, and replace and only need a power source, can realize the running of whole equipment through simple chain-drive mechanism.Driving system design is simpler, is convenient to safeguard; 2, adjustable speed, two speed changers installing on frame support axle, can be according to the difference of soil property, realize respectively the change of Rotary tillage rake axle and agitator shaft speed, sandy soil, cauline leaf energy are better separated with the tuber of pinellia, accelerated results process, improved results benefit, avoid unnecessary power output, saved the energy; 3, efficiently purify.The initial gross separation of conveying plant upper surface groove, the further separation in the rotation of shaft and two separate hole, transport channel lower surface, this novel energy-conserving Pinellia tuber harvester adopts three layers of screen selecting and separating mechanism, and sandy soil are effectively separated with cauline leaf, has increased substantially the results precision of the tuber of pinellia; 4, compact conformation.Cancelled baroque screening plant, reaping machine overall dimensions is reduced greatly, structure is more compact.Thereby the minimizing of volume has reduced energy consumption, realize energy-conservation target.

Brief description of the drawings

Fig. 1 is the front view of the Pinellia tuber harvester of an embodiment of the utility model.

Fig. 2 is the vertical view of the Pinellia tuber harvester of an embodiment of the utility model.

Fig. 3 is the structural representation of the chain of an embodiment of the utility model.

Fig. 4 is the structural representation that the chain of an embodiment of the utility model engages with gear.

Fig. 5 is the front view of the shaft of an embodiment of the utility model.

Fig. 6 is the attached view of the shaft of an embodiment of the utility model.

Fig. 7 is the structural representation of the carrier pipe of an embodiment of the utility model.

Wherein: gear box of tractor 1, output shaft 2, the first sprocket wheel 3, Rotary tillage rake axle 4, digger blade 5, rotary tillage rake teeth 6, the second sprocket wheel 7, chain 8, the 6th sprocket wheel 9, frame 10, conveyer 11, cylindrical tube 12, carrier pipe 13, worm gear 14, shaft 15, worm screw 16, the 4th sprocket wheel 17, the first speed changer 18, the 3rd sprocket wheel 19, the first frame support axle 20, the second speed changer 21, the 5th sprocket wheel 22, the 7th sprocket wheel 23, the 8th sprocket wheel 24, the 9th sprocket wheel 25, puddler 26, receiver 27, the tenth sprocket wheel 28, sorting hole 29, baffle plate 30, the first gear 31, chain 32, square through hole 33, the second frame support axle 34, the first gear shaft 35, the second gear shaft 36, wheel 37, the second gear 38.

Embodiment

For understanding better the utility model, below in conjunction with drawings and Examples, the utility model will be further described.

As Fig. 1, shown in 2, a kind of Pinellia tuber harvester, comprise the output shaft 2 of the gear box of tractor 1 being fixed in frame 10, be arranged on the first sprocket wheel 3 on output shaft, the second sprocket wheel 7 with the first sprocket wheel formation chain drive, on second sprocket wheel place the first frame support axle 20, there is the 3rd sprocket wheel 19 of synchronous rotation, between the 3rd sprocket wheel and the 6th sprocket wheel 9, be connected with chain 8, the first speed changer 18 is equipped with respectively at the 3rd the first frame support axle two ends, sprocket wheel place, the second speed changer 21, the 4th sprocket wheel 17 is arranged on the output shaft of speed changer one, the 5th sprocket wheel 22 is arranged on the output shaft of speed changer two, and two output shafts are all fixed in frame by bearing, uniform rotary tillage rake teeth 6 on Rotary tillage rake axle 4 excircles at the 7th sprocket wheel 23 places, the axis of Rotary tillage rake axle is consistent with the direction of the first frame support axle axis, Rotary tillage rake axle two ends are fixed in frame by bearing, Rotary tillage rake axle two ends are also connected with digger blade 5, digger blade is by base plate, biside plate and backboard composition, the downward-sloping setting of digger blade, biside plate is fixedly connected with rotovator rake axle, base plate is positioned at rotovator rake teeth below, on base plate, have several through holes, the backboard setting that recedes, conveyer 11 is arranged on backboard below.The 5th sprocket wheel 22 is connected with the 7th sprocket wheel 23 use chains, on the second frame support axle 34 at the 6th sprocket wheel place, be fixed with the 8th sprocket wheel 24 of synchronous rotation, between the 8th sprocket wheel 24 and the 9th sprocket wheel 25, form chain drive, the second frame support axle two ends are fixed in frame by bearing, on first gear shaft 35 at the 9th sprocket wheel place, the first gear 31 is installed, the second gear 38 is installed on the second gear shaft 36, the chain 32 being meshed with it is set between two gears, the two ends of two gear shafts are fixed in frame by bearing respectively, every pitch chain plate of chain all has square through hole 33 and is meshed with gear tooth, every pitch chain plate upper surface is also provided with a baffle plate 30(and sees Fig. 3, 4), it is the receiver 27 being fixed in frame at the end of chain, receiver top is the rectangular box of top end opening, rectangular box bottom is welded to connect with cone top, four sides, cone bottom, four sides and cylindrical tube 12 tops are welded to connect, be installed in the cylindrical tube of receiver is rotating shaft 15, the upper end of shaft can not exceed the upper plane at cylindrical tube place, shaft lower end is through carrier pipe 13, carrier pipe lower nozzle is connected with Material collecting box for harvesting, turbine 14 is installed on the extension of shaft lower end, the external part of shaft is fixed in frame by bearing.Turbine is meshed with worm screw 16, and worm screw two ends are fixed in frame by bearing, and the tenth sprocket wheel is installed between worm screw one end and the 4th sprocket wheel and is connected by chain, and frame bottom bilateral symmetry parallel to the ground is provided with wheel 37.

Ten puddlers 26 are housed on shaft, every two puddlers in one plane and become 180 °, the stirring rod of coplanar does not become successively from top to bottom 36 ° and (sees Fig. 5, 6), carrier pipe 13 is bending tube, carrier pipe top inclined tube and bottom inclined tube be at 45 °～and 60 ° of angles arrange, inclined tube lower end, top is connected by vertical pipe with inclined tube upper end, bottom, the cylindrical tube bottom that the center of inclined tube upper surface, top has circular hole and receiver is welded to connect, shaft lower end is through conveyance conduit top inclined tube, stretch out from inclined tube lower surface, top, the top inclined tube of carrier pipe and the bottom face of bottom inclined tube all have several sorting hole 29(and see Fig. 7).

Under the drive of dilatory head, the wheel that both sides parallel to the ground, frame bottom arrange is constantly running forward also, adopting the output shaft of tractor is power source, the first sprocket wheel is by chain-driving the second sprocket wheel rotation, the second sprocket wheel drives the first frame support axle rotation, and then drive the 3rd sprocket wheel to rotate, the 3rd sprocket wheel is by chain-driving the 6th sprocket wheel rotation, the 6th sprocket wheel drives the second frame support axle rotation, and then drive the 8th sprocket wheel to rotate, the 8th sprocket wheel is by chain-driving the 9th sprocket wheel rotation, the 9th sprocket wheel drives the first gear shaft rotation, the first gear shaft drives the second gear rotation by the chain being meshed, and then drive the second gear shaft to rotate, the 4th sprocket wheel is by chain-driving the tenth sprocket wheel rotation, and then drive worm screw to rotate, the worm gear being meshed with worm screw drives shaft rotation, the first speed changer and the second speed changer drive respectively the 4th sprocket wheel and the rotation of the 5th sprocket wheel, the 5th sprocket wheel is by chain-driving the 7th sprocket wheel rotation, the 7th sprocket wheel drives the rotation of Rotary tillage rake axle, rotary tillage rake teeth is broken up soil, digger blade shovels native operation, be mixed with sandy soil, the tuber of pinellia of cauline leaf is piled up on digger blade, and by the through hole of offering on base plate, the tuber of pinellia is carried out to Preliminary screening, when being stacked into while exceeding backboard height, the tuber of pinellia drops on chain, in course of conveying, by the square through hole arranging on chain, the tuber of pinellia is carried out to screening again, the tuber of pinellia after screening is fallen into tuber of pinellia receiver, continuous rotation by shaft will be mixed with sandy soil, the tuber of pinellia of cauline leaf further separates, the tuber of pinellia of separating is after delivery tube, the sandy soil of breaing up, cauline leaf is separated voluntarily by the sorting hole of the lower surface of delivery tube top inclined tube and bottom inclined tube, complete screening for the third time, screen the complete tuber of pinellia concentrate be stored in Material collecting box for harvesting.The first speed changer and the second speed changer are realized respectively the change of Rotary tillage rake axle and agitator shaft speed, by simple mechanically actuated, in operating room, just can manually realize, without stopping operation.

The utility model is without rotary screen, drum-type elevator etc., adopts light little tuber of pinellia receiver, and compact conformation, simple is convenient to mobilely, has realized triple screenings of the tuber of pinellia, avoided because of sandy soil, cauline leaf is more blocks sorting hole and gather in the crops impure phenomenon; Adopt two speed changers, realize respectively the change of Rotary tillage rake axle and agitator shaft speed, be applicable to soil of different nature, avoided unnecessary power output, saved the energy; Rotary tillage rake axle, tuber of pinellia conveyer, shaft, all from a power source, have been exempted the various inconvenience that multiple power sources bring, and by the continuous operation of tractor, have completed the continuous results of the tuber of pinellia, finally gather in the crops the tuber of pinellia that precision is very high.

Claims

1. a Pinellia tuber harvester, comprise frame, power set, transmission device, conveying plant, screening plant, Material collecting box for harvesting, digger blade and Rotary tillage rake axle, power set are the output shaft of tractor, output shaft one end is fixed in frame by bearing, it is characterized in that, described transmission device comprises the first sprocket wheel being arranged on output shaft, the first sprocket wheel is connected by chain with the second sprocket wheel being arranged on the first frame support axle, the 3rd sprocket wheel is installed on frame the first back shaft and the adjacent setting of the second sprocket wheel, the first frame support axle two ends are separately installed with the first speed changer and the second speed changer, the 4th sprocket wheel is arranged on the output shaft of the first speed changer, the 5th sprocket wheel is arranged on the output shaft of the second speed changer, the output shaft of two speed changers is all fixed in frame by bearing,

2. Pinellia tuber harvester as claimed in claim 1, is characterized in that, the rectangular box that described receiver top is top end opening, and rectangular box bottom is welded to connect with cone top, four sides, and cone bottom, four sides and cylindrical tube top are welded to connect.

3. Pinellia tuber harvester as claimed in claim 2, is characterized in that, described carrier pipe is bending tube, and carrier pipe top inclined tube and bottom inclined tube be at 45 °～and 60 ° of angles arrange, and inclined tube lower end, top is connected by vertical pipe with inclined tube upper end, bottom; The cylindrical tube bottom that the center of inclined tube upper surface, top has circular hole and receiver is welded to connect.

4. Pinellia tuber harvester as claimed in claim 3, it is characterized in that, described shaft is cylinder, be installed in the cylindrical tube of receiver, the upper end of shaft is lower than the upper plane of cylindrical tube, and the part that shaft is positioned at cylindrical tube sets gradually ten puddlers from top to bottom, and every two puddlers are positioned at same plane and become 180 ° of angles to arrange, ten puddlers in space, see that every two become 36 ° of angles to arrange from top to bottom; , through conveyance conduit top inclined tube, stretch out from inclined tube lower surface, top shaft lower end, and described turbine is installed on the extension of shaft lower end, and the external part of shaft is fixed in frame by bearing.

5. according to the Pinellia tuber harvester described in any one claim in the claims 1-4, it is characterized in that, described digger blade is made up of base plate, biside plate and backboard, the downward-sloping setting of digger blade, biside plate is fixedly connected with described rotovator rake axle, base plate is positioned at rotovator rake teeth below, has several through holes on base plate, the backboard setting that recedes.

6. Pinellia tuber harvester as claimed in claim 5, is characterized in that, every pitch chain plate of described chain all has through hole and is meshed with described gear tooth, and every pitch chain plate upper surface is also provided with a baffle plate.

7. Pinellia tuber harvester as claimed in claim 6, is characterized in that, the top inclined tube of described carrier pipe and the bottom face of bottom inclined tube all have several sorting holes.

8. Pinellia tuber harvester as claimed in claim 6, is characterized in that, described frame bottom bilateral symmetry parallel to the ground is provided with wheel.