CN108633453B - Double-belt clamping ramie removing machine - Google Patents

Abstract

The invention provides a double-belt clamping ramie removing machine.A transverse ramie feeding platform is a rectangular platform positioned at the forefront and is used for neatening and straightening straws to be removed without cross overlapping, and pushing the straws into an inlet of a ramie stalk clamping and conveying device after being laid flat; the vertical feeding port is positioned in front of the ramie removing main machine, two steel plates vertical to the ground are fixed with the frame into a splayed shape, and the folded ramie stalks are guided to enter the ramie removing main machine; the sliding cutter consists of a blade and a cutter holder, is triangular, is fixed on the left side of the mounting plate of the shaftless belt wheel, and forms a sliding cutting mechanism with the output end of the hemp stalk clamping and conveying device and the front section of the fiber clamping and conveying device to cut off the fiber on the left side. The sliding cutting mechanism can enable the first main machine to remove hemp and the second auxiliary machine to remove hemp and stably connect fiber output; the double-belt clamping conveying is realized, feeding and output are carried out on the outer side of the clamping belt, smoothness and smoothness are realized, and the double-belt clamping conveying device is not required to be switched to the inner side of the clamping belt in the single-belt clamping.

Description

Double-belt clamping ramie removing machine

Technical Field

The invention belongs to the technical field of agricultural machinery, relates to mechanical equipment for the preliminary processing of bast fiber, and particularly relates to a combined harvester.

Background

The ramie is a traditional characteristic economic crop in China, the ramie fiber is called as the king of natural fiber, and the ramie leaves are rich and comprehensive in nutrition. Timely harvesting of ramie is required, early harvested fibers are not fully developed, the yield of thin ramie barks is low, and the physical and mechanical properties of the fibers are poor, so that the yield of harvested ramie is low, and the quality of the fibers is poor; if the harvesting is too late, the fibers are aged and are not easy to separate when being attached to the ramie core, so that the fiber strength is reduced, the ramie yield is reduced, and the yield and the economic income of the ramie are influenced.

The ramie is harvested three times in the general year, the traditional manual harvesting mode, the ramie fiber harvesting operation accounts for more than three fifths of the labor amount in the whole production process, the labor and the time are wasted, the labor intensity is high, the technical requirement is high, and the ramie leaves are discarded. The mechanical harvesting equipment is a key joint for ramie raw material and feed production and is also one of important factors influencing the development of the ramie production to large-scale industrialization. Therefore, to promote the efficient development of ramie production, the research and innovation of the harvesting technology and the harvesting machine are very important.

In order to solve the problems of low efficiency and high labor intensity of manual harvesting, various ramie peeling machines and feed processing machines have been developed at home and abroad. Fiber and feeding ramie harvesters are also available in the year, but the technology is not mature. The practical application of the combined harvester integrating ramie harvesting and decorticating in production is not seen, and the combined harvester for simultaneously harvesting hemp stalk fibers and hemp tips (feed) is not seen.

Compared with the prior art Z L200810046933.9 ramie combine harvester, the harvester can only finish stalk cutting and fiber stripping processing at one time, and the bidirectional automatic ramie stripper has the defects that a ramie blocking pin is easy to block and entangle the ramie, a fiber carding mechanism has a ramie damaging phenomenon, vertically clamped fibers are difficult to detach and collect, and the like in the continuous ramie stripping process, and the harvesting technology is not mature.

The ramie combine harvester of another prior art Z L201310517788.9, which is closer to the invention, can only finish stalk cutting and fiber stripping, and has important defects in the mechanical design, namely, two working units for harvesting and stripping ramie of the whole machine are arranged in parallel, so that the width of the whole machine is too large, the transfer and field operation is difficult, and the machine is not suitable for agricultural production conditions of narrow roads and small fields in ramie areas.

Chinese patent application No. Z L201620880065.4 discloses a bast fiber extractor, adopt the wheel band centre gripping, two sets of ramie removing device levels are abreast, the coaxial setting of ramie stalk and fibre centre gripping conveyor's centre gripping wheel is in the ramie removing device top, be equipped with round platform shape coupling ring and the arc slide between the two for guide fibre and air current, realize the centre gripping handing-over by establishing respectively two blow nozzles above ramie stalk centre gripping wheel and fibre centre gripping wheel fibre entrance, ramie stalk centre gripping conveyor is used for taking off the ramie material input first pair of cylinder ramie removing device, fibre centre gripping conveyor is used for taking off the ramie material after the first ramie removal and carrying out the ramie and export the fibre for the second time, feeding ramie stalk and export fibre are in same end, below feeding, above-mentioned output.

The machine has mechanical transmission and airflow transmission, has a complex structure, blows fibers into the clamping mechanism by means of airflow, has poor reliability, needs to manually place ramie stalks into the inner sides of the ramie stalk clamping conveying belts for ramie feeding, has low automation degree, cannot be directly matched with a vertical cutting table to realize ramie fiber combined harvesting, and cannot be matched with the vertical cutting table of a horizontal double-cutting table ramie fiber feeding double-harvesting combined harvester to realize ramie fiber combined harvesting.

The invention discloses a hemp stalk clamping and conveying device for a hemp fiber extractor, which is published under the patent number 106048740B in the grant of Chinese patent application, and comprises a hemp stalk driven wheel, a hemp stalk conveying wheel belt transmission wheel belt, a hemp stalk clamping and conveying belt, a hemp stalk conveying wheel belt, a folding wheel, a pinch roller, a folding wheel transmission wheel belt and a hemp stalk clamping driving wheel; the hemp stalk clamping driving wheel and the hemp stalk driven wheel are arranged in parallel in a large size and a small size on the same shaft for coaxial driving, are arranged above the middle of the two hemp removing rollers of the hemp removing device, and are provided with the folding wheels at the end; the number of the pinch rollers is three, and the pinch rollers are respectively arranged below the folding wheel and at the inlet and the outlet of the first ramie removing device; the folding wheel rides on the hemp stalk clamping conveyor belt through wheels with edges at two ends, and the folding wheel is driven by the hemp stalk folding wheel driving wheel belt to rotate reversely with the lower pressure-applying wheel so as to fold and hang the hemp-removed material on the hemp stalk clamping conveyor belt and enter the hemp stalk clamping driving wheel. They are all single-sided clamping.

Disclosure of Invention

The invention aims to provide a double-belt clamping ramie removing machine for harvesting fibers.

The technical scheme of the invention is as follows:

the double-belt clamping ramie removing machine comprises a transverse ramie feeding table, a vertical feeding port, a ramie removing main machine, a ramie removing frame, a worm and gear speed reducer, a ramie stalk clamping and conveying device, a sliding cutter, a cover, a ramie removing auxiliary machine, a fiber clamping and conveying device and a ramie removing motor; the transverse ramie feeding platform is a rectangular platform positioned at the forefront and is used for neatening and straightening ramie stalks to be removed without cross overlapping, and pushing the ramie stalks into the inlet of the ramie stalk clamping and conveying device after the horizontal ramie feeding platform is paved; the vertical feeding port is positioned in front of the ramie removing main machine, two steel plates vertical to the ground are fixed with the frame into a splayed shape, and the folded ramie stalks are guided to enter the ramie removing main machine; the ramie removing host machine consists of two blade rollers which are horizontally arranged, are in occlusion transmission and are opened at the front end; the worm gear and worm speed reducer is used for speed reduction and reversing transmission of the clamping conveying device;

the sliding cutter consists of a blade and a cutter holder, is triangular, is fixed on the left side of the mounting plate of the shaftless belt wheel, and forms a sliding cutting mechanism with the output end of the hemp stalk clamping and conveying device and the front section of the fiber clamping and conveying device to cut off the fiber on the left side; the ramie removing auxiliary machine is arranged at the rear upper part of the ramie removing main machine, the two rollers are vertically arranged, the front end of the ramie removing auxiliary machine is opened, and the length of the lower roller is longer than that of the upper roller and extends to the front end.

Furthermore, the hemp stalk clamping and conveying device consists of a reverse belt wheel, a folding wheel, three shaftless belt wheels, a driving double belt wheel, a driving belt, a V-shaped A belt, an output wheel and a V-shaped B belt; the shaftless belt wheel consists of a left sheet wheel, a right sheet wheel, a single-row radial ball bearing and a mounting plate, wherein central bosses of the left sheet wheel and the right sheet wheel are embedded into a bearing inner ring and are fastened by screws, the mounting plate is welded on a bearing outer ring and is connected with the rack;

the first shaftless belt wheel is arranged at the front end of the driving double belt wheel, and the second shaftless belt wheel and the third shaftless belt wheel are arranged behind the output end of the hemp stalk clamping and conveying device and are also the front end of the fiber clamping and conveying device;

the front end of the V-shaped A belt is supported by a folding wheel, the rear end of the V-shaped A belt is supported by an output wheel and surrounds a driving double belt wheel, the upper part of the V-shaped B belt is supported by three shaftless belt wheels which are arranged in front of and behind the driving double belt wheel, namely a shaftless belt wheel I, a shaftless belt wheel II and a shaftless belt wheel III, the lower part of the V-shaped B belt is supported by three reverse belt wheels and surrounds a ramie removing host machine, and the three reverse belt wheels are a reverse belt wheel I, a reverse belt wheel II and;

the V-shaped A belt and the V-shaped B belt clamp and de-hemp the hemp stalk together when the V-shaped A belt and the V-shaped B belt drive the double belt wheels in a surrounding manner.

Furthermore, the fiber clamping and conveying device comprises a driving wheel, a driven wheel, a belt pressing wheel and a clamping belt, wherein the section of the clamping belt is W-shaped, an upper belt and a lower belt are in positive and negative phase mutual engagement, the upper clamping wheel belt and the lower clamping wheel belt are staggered front and back, the lower belt extends in front, a front end inlet is connected with fibers pulled out by the hemp stalk clamping and conveying device, the fibers are horizontally inclined by 45 degrees and are installed with the ramie removing auxiliary machine by being inclined by 30 degrees and are arranged at the rear end of the driving wheel.

The invention will produce significant beneficial effects:

1. the sliding cutting mechanism can enable the first main machine to remove hemp and the second auxiliary machine to remove hemp and stably connect fiber output;

the double-belt clamping conveying is realized, the feeding and the output are carried out at the outer side of the clamping belt, the operation is smooth, and the operation is not required to be carried out at the inner side of the clamping belt in the single-belt clamping;

2. the fiber clamping and conveying device is horizontally inclined by 45 degrees while longitudinally inclining with the ramie removing auxiliary machine to finish sliding cutting and auxiliary ramie removing, so that the smoothness of fiber entering and outputting is considered;

3. can not only be used for field fixing operation, but also be directly matched with the existing vertical cutting table to realize field mobile ramie fiber combined harvesting.

Drawings

FIG. 1 is a schematic view of the whole machine from the front (side elevation working principle);

FIG. 2 is a schematic top view (plan layout) of the whole machine;

FIG. 3 is a left side (front elevation) view of the whole machine;

FIG. 4 is a schematic front view of a feed combine harvester of a double-header ramie fiber feeding and double-harvesting combine harvester;

FIG. 5 is a schematic top view of a combined feed harvesting system;

FIG. 6 is a schematic front view of a cutting and conveying chain driving box of the combined forage harvesting system;

fig. 7 is a schematic top view of a header drive box;

fig. 8 is a left side view schematic diagram of a header drive box;

FIG. 9 is a schematic side elevation view of a main body of the decorticator;

FIG. 10 is a schematic top view of a decorticator;

FIG. 11 is a right-side (front elevation) view schematically illustrating the decorticating machine;

FIG. 12 is a front view of the hemp stalk clamping and conveying device;

FIG. 13 is a schematic top view of the hemp stalk clamping and transporting device;

FIG. 14 is a front view of a shaftless double-belt wheel of the hemp stalk clamping and conveying device;

FIG. 15 is a left side (cross-sectional) view of FIG. 14;

FIG. 16 is a front view of the slide cutting mechanism;

FIG. 17 is a schematic top view of the sliding cut mechanism;

FIG. 18 is a left side view of the sliding cut mechanism;

FIG. 19 is a side view (side elevation) of the fiber gripping and conveying device;

FIG. 20 is a top plan view (horizontal plane) of the fiber holding and conveying device;

FIG. 21 is a left side view (front elevation) of the fiber gripping and conveying device;

the cutting machine comprises a vertical cutting table 1, a chopping machine 2, a horizontal cutting table 3, an operation system 4, a power and power transmission system 5, a ramie removing machine 6, a feed bin 7, a fiber bin 8, a traveling system 9 and a cutting machine control system;

301. a hemp poking wheel support frame 302, a hemp poking wheel 303, a cutter 304, a driving box 305, a conveying and collecting chain 306, a conveying belt 307, a header frame 308 and a lifting oil cylinder;

3041. a cutting knife driving crankshaft 3042, a lateral conveying and collecting chain driving wheel shaft 3043, a reverse conveying and collecting chain driving wheel shaft 3044, a box body 3045 and an input wheel shaft;

601. a transverse ramie feeding table 602, a vertical feeding port 603, a ramie removing host machine 604, a ramie removing frame 605, a worm gear speed reducer 606, a ramie stalk clamping and conveying device 607, a sliding cutter 608, a cover 609, a ramie removing auxiliary machine 610, a fiber clamping and conveying device 611 and a ramie removing motor;

6101. a clamping belt 6102, a pinch roller 6103 and a driving wheel;

606-1, a reverse belt pulley, 606-2, a folding wheel, 606-3, a shaftless belt pulley, 606-4, a driving double belt pulley, 606-5, a ramie removing driving wheel, 606-6, a ramie removing driving belt, 606-7, a V-shaped A belt, 606-8, an output wheel, 606-9 and a V-shaped B belt;

606-11, a first reverse belt pulley, 606-12, a second reverse belt pulley, 606-13 and a third reverse belt pulley;

606-31, a first shaftless belt wheel, 606-32, a second shaftless belt wheel, 606-33 and a third shaftless belt wheel;

1a, a left plate wheel, 2a, a threaded connecting piece, 3a, a single-row radial ball bearing, 4a, a right plate wheel, 5a and a mounting plate.

Detailed Description

The present invention is further described with reference to the accompanying drawings.

The double-cutting-table ramie fiber feeding and harvesting combine harvester shown in fig. 1, 2 and 3 comprises a vertical cutting table 1, a chopping machine 2, a horizontal cutting table 3, an operation system 4, a power and power transmission system 5, a ramie removing machine 6, a feed bin 7, a fiber bin 8 and a traveling system 9.

The horizontal cutting table 3 and the vertical cutting table 1 are arranged in the front, the chopper 2 is arranged in the front, the middle, the right, the front and the upper parts, the ramie removing machine is arranged in the middle, the right, the rear and the upper parts, the horizontal cutting table 3 and the chopper 2 form a ramie tip (leaf) combined harvesting system, the vertical cutting table 1 and the ramie removing machine 6 form a ramie stalk fiber combined harvesting system, the control system 4, the engine and power transmission system 5 and the traveling system 9 form a self-propelled power chassis.

The control system 4 matched with the chassis comprises an instrument, an operating handle, a hydraulic system and an electric system; the power and power transmission system 5 comprises a high-speed engine, a continuously variable transmission and an auxiliary transmission, and the walking system 9 comprises a drive axle, a walking wheel train and a crawler.

The vertical cutting table 1 comprises a ramie separating device, a ramie holding device, a ramie poking star wheel, a cutter and a clamping conveyor.

The matched chassis and the vertical header are both in the prior art and can be formed by modifying the chassis and the header of the existing half-feeding rice and wheat combine harvester. The existing long-time field or Fengling half-feeding rice and wheat combined harvester can be specially selected, the components of threshing, cleaning, collecting and unloading are disassembled for modification, the horizontal cutting table 3, the chopping machine 2 and the ramie removing machine 6 are matched to form the double-cutting table ramie fiber feeding and double-harvesting combined harvester, the horizontal cutting table 3, the chopping machine 2 and the ramie removing machine 6 are disassembled, and the threshing, cleaning, collecting and unloading parts are assembled to restore the rice and wheat combined harvester, so that the purposes of one machine with multiple purposes are realized, and the utilization rate of the machine is improved. It can also be used as a combine harvester for silage by only being provided with a horizontal cutting table and a chopper.

As shown in fig. 4 and 5, the combined feed harvesting system for the double-header ramie fiber feeding and double-harvesting combined harvester is composed of two parts, namely a horizontal header 3 and a chopper 2.

The horizontal header 3 is hinged with a main machine and is hydraulically lifted, and comprises a hemp shifting wheel supporting frame 301, a hemp shifting wheel 302, a cutter 303, a driving box 304, an output and collection chain 305 and a conveying belt 306.

The hemp poking wheel 302 adopts a common beater type or eccentric elastic tooth type, the cutter 303 adopts a double-action knife reciprocating cutter, and the conveying belt 306 is a wide belt, which are all the prior art.

Referring to fig. 7, the conveying and collecting chain 305 is composed of a front lower chain a1 and a rear upper chain, the front lower chain a1 and the rear upper chain are arranged in parallel, the front lower chain a1 conveys the lower part of the twisted stub to the right, the rear upper chain is composed of a rear left upper chain a2 and a rear right upper chain a3, the left upper chain a2 and the front lower chain a1 are in the same speed and the same direction, and the twisted stub is conveyed to the right, so that the conveying and collecting chain is a lateral conveying and collecting chain; the rear right upper chain a3 is opposite to the front lower chain in direction, and the hemp tips are rotated leftwards and transversely laid on the conveyor belt to form a reverse conveying and collecting chain.

The chopper 2 is a disc chopper, which is constructed on the same principle as a straw cutter of a half-feeding rice and wheat combine harvester and consists of a pair of disc cutter drums which are reversely rotated and are one-fast-slow.

The transmission of the combined feed harvesting system is divided into four paths from an input wheel shaft, wherein the first path is directly transmitted to a conveying belt, the second path is transmitted to a slow cutter disc shaft of a chopper through a chain and then is transmitted to a fast cutter disc shaft in an accelerating mode through a gear, the third path is transmitted to a hemp shifting wheel in a decelerating mode through the chain and the gear, and the fourth path is transmitted to a driving box through the chain and then is transmitted to a reciprocating cutter and a transmission collection chain through the driving box.

As shown in fig. 6, 7 and 8, the driving box 304 is disposed on the right side of the header, and is composed of a cutting knife driving crankshaft 3041, a lateral conveying and collecting chain driving shaft 3042, a reverse conveying and collecting chain driving wheel shaft 3043, a box body 3044 and an input wheel shaft 3045 through a link mechanism, and transmits power to the cutter 303 and the conveying and collecting chain 305.

The input wheel shaft 3045 drives the cutter driving crankshaft 3041 through a bevel gear, the output end of the cutter driving shaft 3041 is connected with two pairs of crank-link mechanisms, which directly drive the upper cutter and the lower cutter, the cylindrical gear on the cutter driving shaft 3041 drives the lateral transmission and collection chain driving shaft 3042 in a speed reduction manner, the front end directly drives the front lower chain a1, the rear end drives the left upper chain a2 in a rear side and a rear left upper chain a through a transmission chain, and the reverse transmission and collection chain driving wheel shaft 3043 is driven by the cylindrical gear on the cutter driving crankshaft 3041 through a wheel, which directly drives the reverse transmission and collection chain to realize a reverse speed increase with.

The ramie removing machine is divided into a transverse ramie feeding platform 601, a vertical feeding port 602, a ramie removing main machine 603, a ramie removing frame 604, a worm gear speed reducer 605, a ramie stalk clamping and conveying device 606, a sliding cutter 607, a cover 608, a ramie removing auxiliary machine 609, a fiber clamping and conveying device 610, a ramie removing motor 611 and the like as shown in fig. 9, 10 and 11.

The transverse hemp feeding platform 601 is a rectangular platform positioned at the forefront and is used for neatly arranging and straightening the straws to be ramie out without cross overlapping and pushing the straws into the inlet of the hemp straw clamping and conveying device after being laid flat.

The vertical feeding port 602 is positioned in front of the main ramie removing machine, two steel plates vertical to the ground are fixed with the frame into a splayed shape, and the folded ramie stalks are guided to enter the main ramie removing machine.

The main ramie removing machine 603 is composed of two blade rollers which are horizontally arranged, are engaged and driven and are opened at the front end. Removing the bone and epidermis.

The ramie removing frame 604 is formed by welding profile steels and has a frame structure. For coupling and mounting the respective parts as a whole.

The worm gear speed reducer 605 can be a product produced by a commercial professional manufacturer, has a transmission ratio of 40, and is used for speed reduction and reversing transmission of the clamping conveying device.

The hemp stalk clamping and conveying device 606 is composed of a reverse belt wheel, a folding wheel, a shaftless belt wheel, a driving double belt wheel, a driving belt, a V-shaped A belt, an output wheel and a V-shaped B belt. The hemp stalk is folded and sent to a hemp removing host machine to remove hemp bones and skins and pull out fibers.

The shaftless belt wheel consists of a left half wheel, a right half wheel, a single-row radial ball bearing and a mounting plate, wherein a central boss of the left half wheel and the right half wheel is embedded into a bearing inner ring and is fastened by a screw, the mounting plate is welded on a bearing outer ring and is connected with a rack, and hemp stalks or fibers pass through the bearing inner ring and the bearing outer ring without barriers.

The sliding cutter 607 is composed of a blade and a cutter holder, is triangular, is fixed on the left side of the mounting plate without a shaft belt wheel, and forms a sliding cutting mechanism with the output end of the hemp stalk clamping and conveying device 606 and the front section of the fiber clamping and conveying device 610 to cut off the fiber on the left side.

And the ramie removing auxiliary machine 609 is arranged at the rear upper part of the ramie removing main machine, the two rollers are vertically arranged up and down, the front end of the ramie removing auxiliary machine is opened, and the lower roller is longer than the upper roller and extends in front to finish the processing of the part which is not removed by the ramie removing main machine 603.

Referring to fig. 19, 20 and 21, the fiber clamping and conveying device 610 comprises a driving wheel 6103, a driven wheel, a pinch roller 6102 and a clamping belt 6101, the section of the clamping belt is W-shaped, an upper clamping belt and a lower clamping belt are engaged with each other in a positive-negative phase, the upper clamping belt and the lower clamping belt are staggered front and back, the lower clamping belt extends in front, the front end inlet is connected with the fiber pulled out by the hemp stalk clamping and conveying device, the horizontal inclination is 45 degrees, the device is installed with a ramie removing auxiliary machine in an inclined way of 30 degrees, and the driving wheel finishes fiber cutting and auxiliary ramie removing at the rear end.

The ramie removing power 611 adopts a J02 motor with the power of 5.5-7.5 kilowatts when the ramie removing power works independently; when the combine harvester is matched with the vertical header, the power chassis provides power.

The hemp stalks are tidied up, straightened and placed on a hemp feeding table 601, paved flatly and transversely pushed into a hemp feeding port from the middle part, the hemp stalks are folded downwards by a folding wheel, clamped by double belts, driven by double belt wheels to be sent into a hemp removing main machine 3 to remove hemp bones and skins, fibers are reversely pulled out, the fibers are clamped by a fiber clamping and conveying device 610 and pulled out, the fibers are pulled backwards and rightwards, and after the fiber cutting and the auxiliary hemp removing are completed, the fibers are hung in a hemp collecting bin.

As shown in fig. 12 and 13, the hemp stalk clamping and conveying device comprises a reverse belt wheel 606-1, a folding wheel 606-2, a shaftless belt wheel 606-3, a driving double belt wheel 606-4, a driving wheel 606-5, a driving belt 606-6, a V-shaped A belt 606-7, an output wheel 606-8 and a V-shaped B belt 606-9. The hemp stalk is folded and sent to a hemp removing host machine to remove hemp bones and skins and pull out fibers.

The V-belt A606-7 is supported at its front end by a folding pulley 606-2 and at its rear end by an output pulley 606-8, looped around a drive pulley 606-4.

The upper part of the V-shaped B belt 606-9 is supported by three shaftless belt pulleys 606-3 which drive the front and the back of the double belt pulleys, namely a shaftless belt pulley I606-31, a shaftless belt pulley II 606-32 and a shaftless belt pulley III 606-33, the lower part is supported by three reverse belt pulleys 606-1 to surround the ramie removing main machine, and the three reverse belt pulleys 606-1 are a reverse belt pulley I606-11, a reverse belt pulley II 606-12 and a reverse belt pulley III 606-13.

The diameter of the driving double belt wheel 606-4 is more than or equal to the length of the processed hemp stalk, the depth of the belt groove is more than or equal to the sum of the thicknesses of the two belts, the driving double belt wheel is positioned right above the hemp removing main machine and is subjected to two-stage speed reduction transmission by a worm gear speed reducer and a transmission wheel 606-5.

The folding wheel 606-2 is a wheel with rims at two ends of the V-shaped A belt small wheel, rides on the reverse belt wheel 606-1 and the V-shaped B belt, and feeds and folds hemp stalk.

As shown in fig. 14 and 15, the shaftless pulley 606-3 is composed of a left plate wheel 1a, a right plate wheel 4a, a single-row radial ball bearing 3a and a mounting plate 5a, the central bosses of the left and right half wheels are embedded into the bearing inner ring and fastened by screws, the mounting plate 5a is welded on the bearing outer ring, the mounting plate 5a is fixedly connected with the ramie removing frame 604, and the ramie stalks or fibers pass through the ramie removing frame from both sides without barriers.

As shown in fig. 16, 17 and 18, the sliding cutter 607 is composed of a blade and a cutter holder, is triangular, is fixed on the left side of the mounting plate of the shaftless belt wheel II 606-32 and the shaftless belt wheel III 606-33, and forms a sliding cutting mechanism with the output end of the hemp stalk clamping and conveying device 606 and the front section of the fiber clamping and conveying device 610 to cut the fiber on the left side.

The sliding cutting mechanism consists of a sliding cutter, an output end of the hemp stalk clamping and conveying device and a front section of the fiber clamping and conveying device, the sliding cutter consists of a blade and a cutter holder, is triangular and is fixed on the left side of the shaftless belt wheel mounting plate, and cuts off fibers on the left side.

A combined forage harvesting system is composed of horizontal cutting table and disk-type cutting machine. The horizontal cutting table is arranged right above the front, the cutting machine is arranged right above the right, the horizontal cutting table and the cutting machine form a hemp tip (hemp leaf) feed combined harvesting system, and the hemp tip (hemp leaf) at the upper part is harvested and cut to obtain the feed.

The clamping and conveying mechanism of the vertical header conveys the hemp stalks to a transverse feeding port of a hemp stalk clamping and conveying device of the hemp removing machine, a hemp folding wheel of the hemp stalk clamping and conveying device folds the hemp stalks downwards, a clamping and conveying belt conveys the hemp stalks into a hemp removing host machine to remove hemp bones and skins and pull out fibers, the fiber clamping and conveying device clamps the fibers and pulls the fibers backwards and rightwards to complete the processing of sliding cutting and non-removed parts, and the fibers are obtained.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the specific details of the above embodiments, and various simple modifications can be made to the technical solution of the present invention within the technical idea of the present invention, and these simple modifications are within the protective scope of the present invention.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. The invention is not described in detail in order to avoid unnecessary repetition.

In addition, any combination of the various embodiments of the present invention is also possible, and the same should be considered as the disclosure of the present invention as long as it does not depart from the spirit of the present invention.

Claims (2)

1. The double-belt clamping ramie removing machine is characterized by comprising a transverse ramie feeding table, a vertical feeding port, a ramie removing main machine, a ramie removing frame, a worm gear speed reducer, a ramie stalk clamping and conveying device, a sliding cutter, a cover, a ramie removing auxiliary machine, a fiber clamping and conveying device and a ramie removing motor;

the transverse ramie feeding platform is a rectangular platform positioned at the forefront and is used for neatening and straightening ramie stalks to be removed without cross overlapping, and pushing the ramie stalks into the inlet of the ramie stalk clamping and conveying device after the ramie stalks are laid flat;

the vertical feeding port is positioned in front of the ramie removing main machine, two steel plates vertical to the ground are fixed with the frame into a splayed shape, and the folded ramie stalks are guided to enter the ramie removing main machine;

the ramie removing host machine consists of two blade rollers, the two blade rollers are horizontally arranged and are in occlusion transmission, and the front end of the ramie removing host machine is opened;

the worm gear and worm speed reducer is used for speed reduction and reversing transmission of the clamping conveying device;

the sliding cutter consists of a blade and a cutter holder, is triangular, is fixed on the left side of the mounting plate of the shaftless belt wheel III and the shaftless belt wheel II, and forms a sliding cutting mechanism with the output end of the hemp stalk clamping and conveying device and the front section of the fiber clamping and conveying device to cut off fibers on the left side;

the ramie removing auxiliary machine is arranged at the rear upper part of the ramie removing main machine, the two rollers are vertically arranged, the front end of the ramie removing auxiliary machine is opened, and the length of the lower roller is longer than that of the upper roller and extends to the front end;

the fiber clamping and conveying device comprises a driving wheel, a driven wheel, a pinch roller and a clamping belt, wherein the section of the clamping belt is W-shaped, an upper clamping belt and a lower clamping belt are mutually meshed in a positive phase and a negative phase, the upper clamping belt and the lower clamping belt are staggered front and back, the lower clamping belt extends in front, and a front end inlet is connected with fibers pulled out by the hemp stalk clamping and conveying device; the fiber clamping and conveying device is horizontally inclined by 45 degrees and is installed with the ramie removing auxiliary machine in an inclined way by 30 degrees, and the driving wheel is arranged at the rear end.

2. The double-belt clamping ramie removing machine as claimed in claim 1, wherein the ramie stalk clamping and conveying device is composed of a reverse belt wheel, a folding wheel, three shaftless belt wheels, a driving double belt wheel, a driving belt, a V-shaped A belt, an output wheel and a V-shaped B belt;

the shaftless belt pulley consists of a left sheet wheel, a right sheet wheel, a single-row radial ball bearing and a mounting plate, wherein central bosses of the left sheet wheel and the right sheet wheel are embedded into a bearing inner ring and are fastened by screws, the mounting plate is welded on a bearing outer ring and is connected with the rack;

the first shaftless belt wheel is arranged at the front end of the driving double belt wheel, and the second shaftless belt wheel and the third shaftless belt wheel are arranged behind the output end of the hemp stalk clamping and conveying device and are simultaneously the front end of the fiber clamping and conveying device;

the front end of the V-shaped A belt is supported by a folding wheel, the rear end of the V-shaped A belt is supported by an output wheel and surrounds and drives a double belt wheel,

the upper part of the V-shaped belt B is supported by three shaftless belt pulleys in front of and behind the driving double belt pulley, a shaftless belt pulley I is arranged at the front end of the driving double belt pulley, a shaftless belt pulley II and a shaftless belt pulley III are arranged at the rear end of the driving double belt pulley, and three reverse belt pulleys, namely a reverse belt pulley I, a reverse belt pulley II and a reverse belt pulley III, are supported by three reverse belt pulleys to surround the ramie removing host;

the V-shaped A belt and the V-shaped B belt clamp and de-hemp the hemp stalk together when the V-shaped A belt and the V-shaped B belt drive the double belt wheels in a surrounding manner.

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