CN213094955U

CN213094955U - Crawler-type bush results and beats a bundle all-in-one

Info

Publication number: CN213094955U
Application number: CN202020818357.1U
Authority: CN
Inventors: 刘天舒; 杨军太; 徐名汉; 董世平; 申文龙; 陈月锋; 尹玲玉; 黄允魁
Original assignee: Chinese Academy of Agricultural Mechanization Sciences
Current assignee: Chinese Academy of Agricultural Mechanization Sciences
Priority date: 2020-05-15
Filing date: 2020-05-15
Publication date: 2021-05-04
Anticipated expiration: 2030-05-15

Abstract

A crawler-type shrub harvesting and bundling integrated machine comprises a rack, a crawler-type chassis, a cutting table, a power driving device, a throwing device and a bundling device, wherein the rack is arranged above the crawler-type chassis, the cutting table, the throwing device and the bundling device are all arranged on the rack, the power driving device is respectively connected with the crawler-type chassis, the cutting table, the throwing device and the bundling device, the crawler-type shrub harvesting and bundling integrated machine also comprises a feeding device and a chopping device, the feeding device and the chopping device are all arranged on the rack and are connected with the power driving device, and the front end of the feeding device corresponds to the cutting table; the shredding device is arranged between the feeding device and the throwing device and comprises a shredding shell, a shredding roller, a fixed cutter and a shredding transmission mechanism, the shredding roller is horizontally arranged in the shredding shell, the fixed cutter is arranged on the shredding shell corresponding to the shredding roller, the shredding roller rotates relative to the fixed cutter to shred materials, and the shredding transmission mechanism is arranged on the shredding shell and connected with the shredding roller.

Description

Crawler-type bush results and beats a bundle all-in-one

Technical Field

The utility model relates to an agricultural harvesting machine, especially a bundle all-in-one is beaten to crawler-type bush results.

Background

The bush industry in China is in a rapid development stage, and due to artificial planting, the bush industry has a large area all over the country and is mainly concentrated in northwest regions, northeast regions, central plains and south regions. The crops such as caragana microphylla, hybrid paper mulberry, white mulberry and the like are high-quality non-grain feed for animals due to high crude protein content (16% -30%), and the crops such as caragana microphylla, sea buckthorn, salix psammophila, amorpha fruticosa and the like are good biomass fuels due to high heat value. But most shrubs grow in sand, half-slope and muddy areas mostly due to special growing environments; in addition, the toughness of the shrub skin is strong, the hardness of branches is high, and the problems that the mechanical harvesting difficulty of the shrub is large, the direct transportation cost is high, the cutting during harvesting is easy to wind and the like are caused. Particularly, when shrubs are planted in pure sand, slope land with large slope and areas with large precipitation, the wheel type machine has the problems of slipping, sinking and the like, so that the harvesting efficiency is reduced, great inconvenience is brought to mechanical harvesting of shrubs, resource waste is caused, and the economic benefit of planting farmers is directly influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to the operation of half slope sand and muddy level land, the supporting power of suspension type and towed bush harvester that prior art exists is less, work efficiency is low, has the results to beat the bundle twine net machine and can not realize the continuous operation of not shutting down, and the wheeled machine is poor to the big trafficability characteristic of soil compactness, and the scheduling problem that sinks easily skids provides a bundle all-in-one is beaten in crawler-type bush results.

In order to realize the above-mentioned purpose, the utility model provides a bundle all-in-one is beaten to crawler-type bush results, send device and bundling device including frame, crawler-type chassis, header, power drive arrangement, throwing, the frame sets up crawler-type chassis's top, the header is installed the front end of frame, throwing send the device and beat the bundling device and install in the frame, bundling device is located the tail end of frame, the exit end setting of throwing sending the device is in bundling device's top, power drive arrangement respectively with crawler-type chassis, header, throwing send the device and beat bundling device and connect, wherein, still include:

the feeding device is arranged on the rack and connected with the power driving device, and the front end of the feeding device is arranged corresponding to the header; and

the shredding device is arranged on the rack and connected with the power driving device, the shredding device is arranged between the feeding device and the throwing device, the shredding device comprises a shredding shell, a shredding roller, a fixed cutter and a shredding transmission mechanism, the shredding roller is horizontally arranged in the shredding shell, the fixed cutter is arranged on the shredding shell corresponding to the shredding roller, the shredding roller rotates relative to the fixed cutter to shred materials, and the shredding transmission mechanism is arranged on the shredding shell and connected with the shredding roller.

Foretell crawler-type bush results and beats a bundle all-in-one, wherein, comminution device still includes reversing gear case, reversing gear case respectively with shredding drum and feeding device are connected, feeding device with the header is connected, when header and feeding device appear the material jam, reversing gear case drive feeding device and header counter-rotation discharge material.

Foretell crawler-type bush results and beats a bundle all-in-one, wherein, the shredding roll includes the drum body, the drum shaft, moves the sword support on a left side, moves the sword support on the right side and moves the sword, the drum body is installed on the drum shaft, the drum body divide into left installation section and right installation section along the axial, and is a plurality of move the sword support on a left side and follow the outer circumferencial direction of drum body evenly sets up on the left installation section, it is a plurality of move the sword support on the right side and follow the outer circumferencial direction of drum body evenly sets up on the right installation section, move the sword support on a left side and move the sword support with the right side and crisscross interval arrangement each other, every move and install respectively on sword support and the right side move the sword.

In the crawler-type shrub harvesting and bundling integrated machine, the mounting surface of the left knife bracket and the mounting surface of the right knife bracket are respectively inclined at an angle relative to the axis of the roller body along the length direction of the roller body; the movable knife is a flat blade and the cutting edge is an elliptic curve.

Foretell crawler-type bush results and beats all-in-one, wherein, bundling device includes:

the bundling front bin is arranged on the rack;

the back bundling bin is hinged with the front bundling bin and jointly encloses a bundle forming chamber for forming the chopped materials, the back bundling bin and the front bundling bin extrude the chopped materials into bundles together, the front bundling bin and the back bundling bin are respectively connected with two ends of an opening and closing bin oil cylinder, and the opening and closing bin oil cylinder is connected with the hydraulic system;

the feeding roller body is arranged at a feeding port of the pre-bundling bin, and the feeding port is arranged above the pre-bundling bin;

the conveying mechanism is arranged on the front side of the feeding roller body;

the buffer bin is arranged above the conveying mechanism;

the net winding mechanism is arranged on the upper side behind the bundling rear bin and used for wrapping the extruded materials into bundles to form material bundles; and

and the bale unloading frame is arranged below the back of the front baling chamber, the opening and closing chamber oil cylinder opens the rear baling chamber after the net wrapping is finished, and the bales fall down through the bale unloading frame.

Foretell crawler-type bush results bundling all-in-one, wherein, twine net mechanism includes:

winding the net rack;

the net winding roller is arranged on the net winding frame, and a rotating speed detector is arranged on one side of the net winding roller so as to control the net releasing length on line;

the net spreading roller is positioned at the rear side of the net winding roller;

the net cutting mechanism is arranged below the net winding roller and connected with an electric push rod, and after net winding is finished, the electric push rod drives the net cutting mechanism to cut off the net;

the plurality of supporting frames are arranged below the net cutting mechanism; and

gauze bracket, including the first gauze bracket that has the damping effect and the second gauze bracket that has the tensioning effect, first gauze bracket and second gauze bracket are installed respectively twine on the both sides wall of rack, place the gauze roll between first gauze bracket and the second gauze bracket.

Foretell crawler-type bush results and beats all-in-one, wherein, feeding device includes:

feeding into a shell;

a feed transition shaft mounted on the feed housing;

the first feeding roller, the second feeding roller and the third feeding roller are sequentially arranged on the feeding shell, the first feeding roller and the second feeding roller are fixed in relative positions through a rotating arm and can integrally rotate around a fixed shaft obliquely above the second feeding roller, and the third feeding roller can rotate around the feeding transition shaft through a rotating arm seat so as to clamp materials in a floating mode according to the thickness of a material layer and continuously convey and feed the materials; and

and the feeding transmission mechanism is arranged on the feeding shell, is respectively connected with the first feeding roller, the second feeding roller and the third feeding roller to enable the three feeding rollers to rotate simultaneously, and enables the materials to be sequentially and forcibly conveyed and fed to the chopping device under the simultaneous action of the three feeding rollers.

In the crawler-type shrub harvesting and bundling all-in-one machine, the header lifting oil cylinder of the header drives the header and the feeding device to rotate around the feeding transition shaft together; a quick hanging mechanism used for quickly disassembling and replacing the header is arranged between the feeding device and the header.

The crawler-type shrub harvesting and bundling integrated machine comprises a cutting table frame, a right longitudinal feeding roller, a disc cutter, a grain lifter, a left longitudinal feeding roller, a feeding auger and a cutting table transmission mechanism, wherein the right longitudinal feeding roller and the left longitudinal feeding roller are symmetrically positioned on the front side of the cutting table frame; the lower ends of the right longitudinal feeding roller and the left longitudinal feeding roller are respectively connected with the disc cutters, and stubble leveling cutting is realized in a disc type saw blade cutting mode; the grain lifter is arranged on the cutting table frame and positioned in front of the right longitudinal feeding roller and the left longitudinal feeding roller; the feeding auger is horizontally arranged behind the right longitudinal feeding roller and the left longitudinal feeding roller; the header drive mechanism respectively with the vertical feed roller in right side, the vertical feed roller in left side and feeding auger are connected.

According to the crawler-type shrub harvesting and bundling all-in-one machine, the header is further provided with a header rotating speed monitor for avoiding material blockage caused by large load or uneven materials, and when the instantaneous load of the header is increased and the rotating speed is reduced, the advancing speed of the whole machine is controlled to be reduced or the whole machine is controlled to stop through the power driving device; and after the rotating speed of the header is recovered to a set value, the power driving device drives the whole machine to recover the advancing speed.

The technical effects of the utility model reside in that:

compared with the prior art, the utility model has the advantages as follows:

1. the utility model discloses mainly include crawler-type chassis, frame, header, feeding device, comminution device, throw send device, bundling device, driver's cabin, engine assembly, hydraulic system, drive and automatic control system etc.. The disc type saw blade cutting mode is adopted, so that the phenomena of tearing of the stubble opening after harvesting, low regeneration rate and the like caused by stubble are effectively avoided, the harvesting speed is intelligently matched with the load in the operation process, and overload blockage is prevented;

2. the harvesting machine is suitable for harvesting functional crops such as caragana microphylla, hybrid paper mulberry, white mulberry and the like, can sequentially realize the working procedures of stumping cutting, forced feeding, graded cutting, pneumatic conveying and throwing, bundling and net winding, net cutting and bundle unloading and the like, and can meet the requirements of northern penumbra sand and southern muddy flat operation;

3. the utility model discloses a bundling device is provided with a material buffer bin and a material conveying mechanism, can buffer materials in the bundling process, adopts the mode of feeding at the upper end of a bundling front bin and postposition of a net winding mechanism bin body, and realizes continuous harvesting and bundling operations without shutdown through multiple detection control means;

4. the assembled chopping roller is adopted, so that the material can be effectively prevented from being wound, and the number of the movable blades can be quickly increased and decreased according to the required material chopping length, so that the material chopping length can be regulated and controlled in a step manner; the chopping device is provided with a reversing gear box, when the blockage of the reaping material occurs, the feeding device and the cutting table can be reversed to discharge the material, and the blockage problem is effectively solved.

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural view of a shredding device according to an embodiment of the present invention;

FIG. 3 is a schematic view of a shredding roll according to an embodiment of the present invention;

fig. 4 is a schematic view illustrating the installation of the right blade holder according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a feeding device according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a bundling device according to an embodiment of the present invention;

fig. 7 is a schematic view of the internal structure of the tying device shown in fig. 6;

fig. 8 is a schematic structural view of a net winding mechanism according to an embodiment of the present invention;

fig. 9 is a schematic structural view of a header according to an embodiment of the present invention;

fig. 10 is a schematic structural view of a crawler-type chassis according to an embodiment of the present invention.

Wherein the reference numerals

1 machine frame

2 crawler-type chassis

21 running motor

22 drive wheel

23 crawler walking mechanism

24 thrust wheel

25 swinging wheel carrier

26 track

27 underframe

28 guide wheel

3 cutting table

31 header frame

32 right longitudinal feeding roller

33 left longitudinal feed roller

34 disc cutter

35 feeding auger

36 header lift cylinder

37 grain lifter

38 header drive mechanism

4 feeding device

41 feed casing

42 first feed roll

43 second feed roll

44 swivel arm

45 third feed roller

46 feeding transition shaft

47 rotating arm seat

48 rotating sleeve

49 feeding transmission mechanism

5 shredding device

51 chopping shell

52 chopping drum

521 roller shaft

522 locking sleeve

523 drum body

524 left-hand knife bracket

525 right-hand knife bracket

526 moving blade pressing plate

53 reverse gear box

54 chopping transmission mechanism

55 fixed knife

56 moving knife

57-chopping transition shaft

6 bundling device

61 surge bin

62 conveying mechanism

63 feeding roller body

64 cylinder for opening and closing bin

65 bundling front bin

651 front bin roller body

66 bundle unloading frame

67 twine net mechanism

671 Net winding rack

672 net winding roller

673 Net cutting mechanism

674 first net carrier

675 second net carrier

676 support frame

677 spreading roll

68 bundling rear bin

681 rear warehouse roller body

7 engines

8 hydraulic pump

9 Hydraulic system

10 intermediate transition shaft

11 driver's cabin

12 driving and automatic control system

13 throwing device

Detailed Description

The following describes the structural and operational principles of the present invention in detail with reference to the accompanying drawings:

referring to fig. 1, fig. 1 is a schematic structural diagram of an embodiment of the present invention. The utility model discloses a bundle all-in-one is beaten in crawler-type bush results can accomplish bush class crop plant high efficiency results and high density, high efficiency and beat the bundle, can realize not shutting down in proper order stump cutting, force the feeding in proper order, have the level to cut up, the material is thrown in the wind-powered conveying, the refining is carried, the top feeding, gather materials and beat bundle, twine the net and cut the net and the operation of unloading, can satisfy the operation of half slope sand in the north and muddy level land in the south. The crawler-type shrub harvesting and bundling integrated machine comprises a rack 1, a crawler-type chassis 2, a header 3, a power driving device, a throwing and conveying device 13 and a bundling device 6, wherein the rack 1 is arranged above the crawler-type chassis 2, the header 3 is arranged at the front end of the rack 1, the throwing and conveying device 13 and the bundling device 6 are arranged on the rack 1, the bundling device 6 is positioned at the tail end of the rack 1, the outlet end of the throwing and conveying device 13 is arranged above the bundling device 6, the power driving device is respectively connected with the crawler-type chassis 2, the header 3, the throwing and conveying device 13 and the bundling device 6, the crawler-type shrub harvesting and bundling integrated machine further comprises a feeding device 4 and a chopping device 5, the feeding device 4 and the chopping device are respectively arranged on the rack 1 and connected with the power driving device, and the front end of the feeding device 4 is arranged corresponding to the; the shredding device 5 is arranged between the feeding device 4 and the throwing device 13, the shredding device 5 comprises a shredding shell 51, a shredding drum 52, a fixed cutter 55 and a shredding transmission mechanism 54, the shredding drum 52 is horizontally arranged in the shredding shell 51, the fixed cutter 55 is arranged on the shredding shell 51 corresponding to the shredding drum 52, the shredding drum 52 rotates relative to the fixed cutter 55 to shred materials, and the shredding transmission mechanism 54 is arranged on the shredding shell 51 and connected with the shredding drum 52 and used for driving the shredding drum 52 to rotate to shred the materials and throw the materials into the bundling device 6 through the throwing device 13. Specifically, the power driving device transmits power to the intermediate transition shaft 10, the intermediate transition shaft 10 transmits power to the chopping transmission mechanism 54 through the chopping transition shaft 57, the chopping transmission mechanism 54 drives the chopping drum 52 to rotate, the chopping drum 52 and the fixed knife 55 jointly act to chop materials, and the materials are thrown into the bundling device 6 through the throwing device 13 under the rotation action of the chopping drum 52.

In the embodiment, a rack 1 is arranged above a crawler chassis 2, the front end of the rack 1 is sequentially connected with a cutting table 3, a feeding device 4, a chopping device 5 and a throwing device 13, the outlet end of a throwing barrel of the throwing device 13 is connected with a buffer bin 61 above a bundling device 6 at the rear end of the rack 1, a power driving device can comprise an engine 7 and a hydraulic system 9 which are arranged below the throwing barrel, the engine 7 distributes power to a middle transition shaft 10 and a hydraulic pump 8, the middle transition shaft 10 transmits the power to the chopping device 5, the feeding device 4, the cutting table 3 and the bundling device 6, and all parts are driven to run into a working state; the hydraulic pump 8 transmits power to the traveling motor 21 of the crawler traveling mechanism 23, the header lift cylinder 36, and the opening/closing cylinder 64 of the baling device 6 through the hydraulic system 9. A cab 11 is arranged above the shredding device 5, a driving and automatic control system 12 is arranged in the cab 11, and the driving and automatic control system 12 is connected with a power driving device.

Referring to fig. 2, fig. 2 is a schematic structural view of a shredding device 5 according to an embodiment of the present invention. The chopping device 5 of this embodiment still includes the reversing gear box 53, the reversing gear box 53 with the one end of shredding drum 52 is passed through the shredding drive mechanism 54 is connected, the reversing gear box 53 still is connected with feed arrangement 4, feed arrangement 4 with header 3 is connected, when material jam appears in header 3 and feed arrangement 4, the reversing gear box 53 drives feed arrangement 4 counter-rotation, and feed arrangement 4 drives the counter-rotation of header 3 together discharges the material. During operation, the material is chopped under the combined action of the chopping roller 52 and the fixed knife 55, and the material is thrown into the buffer bin 61 above the bundling device 6 through the throwing device 13 under the rotation action of the chopping roller 52; when the header 3 and the feeding device 4 are blocked, the header 3 and the feeding device 4 can rotate reversely through the reversing gear box 53 to discharge the materials.

Referring to fig. 3, fig. 3 is a schematic structural view of a shredding roller 52 according to an embodiment of the present invention. In this embodiment, the chopping drum 52 includes a drum body 523, a drum shaft 521, a left-hand blade holder 524, a right-hand blade holder 525 and a hand blade 56, the drum body 523 is mounted on the drum shaft 521, and the drum shaft 521 is fixed to the drum body 523 by a locking sleeve 522; the roller body 523 is divided into two mounting sections of a left mounting section and a right mounting section along the axial direction, the left knife support 524 is uniformly arranged on the left mounting section along the outer circumferential direction of the roller body 523, the right knife support 525 is uniformly arranged on the right mounting section along the outer circumferential direction of the roller body 523, the left knife support 524 and the right knife support 525 are arranged in a staggered and spaced manner in the two mounting sections, each of the left knife support 524 and the right knife support 525 is respectively provided with the moving knife 56, and the moving knife 56 is fixed on the left knife support 524 or the right knife support 525 through the moving knife pressing plate 526.

Referring to fig. 4, fig. 4 is a schematic view illustrating an installation of the right blade holder 525 according to an embodiment of the present invention. The mounting surface of the left blade support 524 and the mounting surface of the right blade support 525 are respectively inclined at a set angle relative to the axis of the roller body 523 along the length direction of the roller body 523, and the inclination direction of the left blade support 524 is opposite to that shown in fig. 4. That is, the installation surface of the left blade support 524 and the installation surface of the right blade support 525 are opposite to the direction of the included angle between the axes of the roller body 523, and the sizes of the included angles may be equal or different. As shown in fig. 4, the mounting surface of the left blade holder 524 is inclined to the left at an angle with the axis of the roller body 523, the mounting surface of the right blade holder 525 is inclined to the right at an angle with the axis of the roller body 523, and the lowest dotted line in the figure is the axis of the roller body 523. The moving blade 56 is preferably a flat blade and has an edge that is elliptical along the length of the blade. The movable knife 56 is detachably mounted on the mounting surfaces of the left-hand knife bracket 524 and the right-hand knife bracket 525 through a movable knife pressing plate 526. The chopping roller 52 can effectively prevent material blockage, and can meet the requirements of different chopping lengths of required materials by rapidly increasing and decreasing the number of the movable blades 56.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a feeding device 4 according to an embodiment of the present invention. The feeding device 4 comprises: a feed housing 41; a feeding transition shaft 46 mounted on the feeding shell 41, wherein the feeding device 4 and the chopping device 5 are fixed through a rotary sleeve 48 of the feeding transition shaft 46; a first feeding roller 42, a second feeding roller 43 and a third feeding roller 45 which are sequentially arranged on the feeding shell 41, wherein the relative positions of the first feeding roller 42 and the second feeding roller 43 are fixed through a rotating arm 44, and the first feeding roller 42 and the second feeding roller 43 can integrally rotate around a fixed shaft obliquely above the second feeding roller 43, and the third feeding roller 45 can rotate around the feeding transition shaft 46 through a rotating arm seat 47 so as to float and clamp materials according to the thickness of a material layer and continuously convey and feed the materials; and a feeding transmission mechanism 49 which is arranged on the feeding shell 41, is respectively connected with the first feeding roller 42, the second feeding roller 43 and the third feeding roller 45, enables the three feeding rollers to rotate simultaneously, enables the materials to be orderly and forcibly conveyed and fed to the chopping device 5 under the simultaneous action of the three feeding rollers, and can simultaneously carry out floating clamping feeding conveying according to the thickness of the material layer. The header 3 and the feeding device 4 can be driven by the feeding device 4 through the header lifting cylinder 36 to integrally rotate around the feeding transition shaft 46; a quick hanging mechanism is further arranged between the feeding device 4 and the header 3 and used for quickly disassembling and replacing the header 3.

Referring to fig. 6 and 7, fig. 6 is a schematic structural view of a bundling device 6 according to an embodiment of the present invention, and fig. 7 is a schematic structural view of the bundling device 6 shown in fig. 6. In this embodiment, the bundling apparatus 6 includes: a bundling front bin 65 which is arranged on the frame 1, and a plurality of front bin roller bodies 651 are uniformly distributed in the bundling front bin 65 along the bin wall; a bundling rear bin 68 hinged with the bundling front bin 65 by a rotating shaft to jointly enclose a bundling forming chamber of the materials, a plurality of rear bin roller bodies 681 are uniformly distributed in the bundling rear bin 68 along the bin wall, the bundling rear bin 68 and the bundling front bin 65 extrude the materials into bundles together, two ends of an opening and closing bin oil cylinder 64 are respectively connected with the bundling front bin 65 and the bundling rear bin 68, and the opening and closing bin oil cylinder 64 is connected with the hydraulic system 9; the feeding roller body 63 is arranged at a feeding port of the pre-bundling bin 65, and the feeding port is arranged above the pre-bundling bin 65; the conveying mechanism 62 is fixedly arranged on the front side of the feeding roller body 63; a buffer bin 61 disposed above the conveying mechanism 62; the net winding mechanism 67 is arranged on the rear upper side of the bundling rear bin 68 and is used for wrapping the extruded bundled materials to form a material bundle; and a bale unloading frame 66 which is arranged at the rear lower part of the front baling chamber 65, after the net is wrapped, the opening and closing chamber oil cylinder 64 opens the rear baling chamber 68, and the bales fall down through the bale unloading frame 66. The feeding and net winding mechanism 67 arranged at the upper end of the front bundling bin 65 is adopted, so that the continuous harvesting, bundling and bundle unloading operation of the whole machine can be realized without stopping.

Referring to fig. 8, fig. 8 is a schematic structural view of a net winding mechanism 67 according to an embodiment of the present invention. The web winding mechanism 67 includes: a wire-wrapping frame 671; a net winding roller 672 which is arranged on the net winding frame 671, wherein one side of the net winding roller 672 is provided with a rotating speed detector so as to control the net releasing length on line; a stretching roll 677 located at the rear side of the winding roll 672; the net cutting mechanism 673 is arranged below the net winding roller 672 and is connected with an electric push rod, and after net winding is finished, the net cutting mechanism 673 cuts off the net under the action of the electric push rod; a plurality of support frames 676 arranged below the net cutting mechanism 673; and a wire net bracket including a first wire net bracket 674 having a damping function and a second wire net bracket 675 having a tensioning function, the two wire net brackets being respectively installed on both sidewalls of the winding rack 671, and a wire net roll being placed between the first wire net bracket 674 and the second wire net bracket 675.

Referring to fig. 9, fig. 9 is a schematic structural diagram of a header 3 according to an embodiment of the present invention. Header 3 is including cutting rack 31, the vertical feed roller 32 in right side, base cutter 34, grain lifter 37, the vertical feed roller 33 in left side, feeding auger 35 and header drive mechanism 38, the vertical feed roller 32 in right side and the vertical feed roller 33 symmetry in left side are located cutting rack 31 front side, the vertical feed roller 32 in right side and the vertical feed roller 33 lower extreme in left side are connected with base cutter 34 respectively, grain lifter 37 set up in cut rack 31 is last and be located the vertical feed roller 32 in right side and the vertical feed roller 33 the place ahead in left side, feeding auger 35 level sets up the vertical feed roller 32 in right side and the vertical feed roller 33 rear in left side, header drive mechanism 38 respectively with the vertical feed roller 32 in right side, the vertical feed roller 33 in left side and feeding auger 35 are connected. The structure of the header 3 can adopt a structure suitable for harvesting crops such as caragana microphylla, sea buckthorn, salix psammophila and amorpha fruticosa or suitable for harvesting crops such as paper mulberry and white mulberry, and the header 3 can be replaced according to the growth forms and planting agronomic requirements of different crops. The cutting table 3 is not limited to harvesting shrub plants, and the harvesting of cotton stalks and green and yellow stored corns can be carried out by changing the structure and the configuration of the cutting table 3. The header 3 can also be provided with a header rotating speed monitor, the header rotating speed monitor is connected with the driving and automatic control system 12, when the instantaneous load of the header 3 is increased and the rotating speed is reduced to a certain degree due to the sudden increase of the instantaneous material, the forward speed of the whole machine is automatically controlled to be reduced or stopped through the power driving device, so that the material blockage caused by the heavy load or uneven material is avoided; and after the rotating speed of the header 3 is recovered to a set value, the power driving device drives the whole machine to automatically increase and recover the advancing speed to enter a conventional working state.

Referring to fig. 10, fig. 10 is a schematic structural view of a crawler-type chassis 2 according to an embodiment of the present invention. The crawler-type chassis 2 of this embodiment includes chassis 27 and the symmetry sets up crawler-type running gear 23 on the chassis 27, crawler-type running gear 23 includes track 26, walking motor 21, drive wheel 22, swing wheel carrier 25, thrust wheel 24 and leading wheel 28, walking motor 21 and drive wheel 22 are connected, and the multiunit swing wheel carrier 25 sets up chassis 27 below is located between drive wheel 22 and the leading wheel 28, the track 26 cladding is in on drive wheel 22, swing wheel carrier 25, leading wheel 28 and the thrust wheel 24, the thrust wheel 24 is fixed and is supported above chassis 27 track 26. The walking motors 21 on two sides of the crawler chassis 2 drive the driving wheels 22 to rotate the crawler 26, and the whole machine moves and turns under the action of ground friction force.

During operation, the header 3 cuts harvested crops from roots, conveys the crops to the chopping device 5 for chopping under the forced action of clamping of the feeding device 4, conveys the crops to the buffer bin above the bundling device 6 through the throwing device 13, enters a bin enclosed by the front bundling bin 65 and the rear bundling bin 68 through the conveying mechanism 62 and the feeding roller 63, and performs operations such as net winding, net cutting and bundle unloading after the materials are extruded into bundles. The bundling process comprises the following steps that the chopped materials are thrown into a buffer bin 61, the materials are conveyed into a bin chamber through a feeding roller above a bundling front bin 65 by utilizing a conveying device at the lower end of the buffer bin 61, and round bundles are gradually formed through continuous rotation of rolling rollers of the front bin and the rear bin; the bale density is continuously increased along with the continuous winding of the chopped materials in the bin, the system pressure is also continuously increased, when the pressure reaches a set value, the conveying device stops rotating and does not feed any more, and meanwhile, the net winding roller 672 starts rotating to wind the net on the round bale; when the net winding roller 672 rotates to a rated number of turns, the net cutting mechanism 673 drives the net cutter to fall and cut off the net rope, meanwhile, the opening and closing bin oil cylinder 64 enables the bundling rear bin 68 to be opened, and as the bundling rear bin 68 is gradually opened, the material bundle rolls out from the bin along the bundle unloading frame 66. The utility model discloses a beat the leading storehouse of bundle 65 upper end feeding and twine the rearmounted structure in net mechanism 67 storehouse body, cooperate multiple detection control means, can realize incessant continuous results and beat the bundle operation of unloading.

The utility model discloses can accomplish bush type crop plant high efficiency results and high density, high efficiency and beat the bundle operation, can realize not shutting down and accomplish in proper order the stump cutting, force the feeding, have the level to cut up, the material is thrown to the wind-driven, the refining is carried, the top feeding, gather materials and beat bundle, twine the net and cut the net and unload processes such as bundle, can satisfy the operation of half slope sand in the north and muddy level land in the south.

Naturally, the present invention can be embodied in many other forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be made by one skilled in the art without departing from the spirit or essential attributes thereof, and it is intended that all such changes and modifications be considered as within the scope of the appended claims.

Claims

1. The utility model provides a bundle all-in-one is beaten to crawler-type bush results, includes frame, crawler-type chassis, header, power drive arrangement, throws and send device and bundling device, the frame sets up the top on crawler-type chassis, the header is installed the front end of frame, throw and send device and bundling device to install in the frame, bundling device is located the tail end of frame, the exit end setting of throwing sending the device is in bundling device's top, power drive arrangement respectively with crawler-type chassis, header, throwing send the device and bundling device are connected, its characterized in that still includes:

2. The crawler-type shrub harvesting and baling all-in-one machine of claim 1, wherein the shredding device further comprises a reversing gear box, the reversing gear box is respectively connected with the shredding roller and a feeding device, the feeding device is connected with the header, and the reversing gear box drives the feeding device and the header to rotate reversely to discharge materials when the header and the feeding device are blocked by the materials.

3. The crawler-type shrub harvesting and bundling integrated machine according to claim 1 or 2, wherein the chopping drum comprises a drum body, a drum shaft, a left moving blade support, a right moving blade support and a moving blade, the drum body is mounted on the drum shaft, the drum body is axially divided into a left mounting section and a right mounting section, the left moving blade supports are uniformly arranged on the left mounting section along the outer circumferential direction of the drum body, the right moving blade supports are uniformly arranged on the right mounting section along the outer circumferential direction of the drum body, the left moving blade support and the right moving blade support are arranged in a staggered and spaced manner, and the moving blade is mounted on each of the left moving blade support and the right moving blade support.

4. The crawler-type shrub harvesting and baling all-in-one machine as claimed in claim 3, wherein the mounting surface of the left-hand blade bracket and the mounting surface of the right-hand blade bracket are respectively inclined at an angle relative to the axis of the roller body along the length direction of the roller body; the movable knife is a flat blade and the cutting edge is an elliptic curve.

5. The tracked shrub harvesting and baling machine as claimed in claim 1 or 2, wherein said baling means comprises:

the bundling front bin is arranged on the rack;

the back bundling bin is hinged with the front bundling bin and jointly encloses a bundle forming chamber for forming the chopped materials, the back bundling bin and the front bundling bin extrude the chopped materials into bundles together, the front bundling bin and the back bundling bin are respectively connected with two ends of an opening and closing bin oil cylinder, and the opening and closing bin oil cylinder is connected with a hydraulic system;

the buffer bin is arranged above the conveying mechanism;

6. The tracked shrub harvesting and baling machine of claim 5, wherein said net-winding mechanism comprises:

winding the net rack;

7. The tracked shrub harvesting and baling machine as claimed in claim 1 or 2, wherein said feeding means comprises:

feeding into a shell;

a feed transition shaft mounted on the feed housing;

8. The crawler-type shrub harvesting and baling all-in-one machine of claim 7, wherein a header lift cylinder of the header rotates the header and the feeding device together around the feeding transition shaft; a quick hanging mechanism used for quickly disassembling and replacing the header is arranged between the feeding device and the header.

9. The crawler-type shrub harvesting and baling all-in-one machine according to claim 1 or 2, wherein the header comprises a header frame, a right longitudinal feed roller, a disc cutter, a grain lifter, a left longitudinal feed roller, a feed auger and a header transmission mechanism, wherein the right longitudinal feed roller and the left longitudinal feed roller are symmetrically positioned on the front side of the header frame; the lower ends of the right longitudinal feeding roller and the left longitudinal feeding roller are respectively connected with the disc cutters, and stubble leveling cutting is realized in a disc type saw blade cutting mode; the grain lifter is arranged on the cutting table frame and positioned in front of the right longitudinal feeding roller and the left longitudinal feeding roller; the feeding auger is horizontally arranged behind the right longitudinal feeding roller and the left longitudinal feeding roller; the header drive mechanism respectively with the vertical feed roller in right side, the vertical feed roller in left side and feeding auger are connected.

10. The crawler-type shrub harvesting and baling all-in-one machine as claimed in claim 9, wherein a header rotation speed monitor for avoiding material blockage caused by heavy load or uneven material is further arranged on the header, and when the instantaneous load of the header increases and the rotation speed decreases, the forward speed of the whole machine is controlled to decrease or stop by the power driving device; and after the rotating speed of the header is recovered to a set value, the power driving device drives the whole machine to recover the advancing speed.