阅读说明：本技术 一种风送式蚕豆联合收割机 (Air-assisted broad bean combine harvester ) 是由 杨光 夏先飞 陈巧敏 宋志禹 李钢 于 2021-07-27 设计创作，主要内容包括：本发明涉及一种风送式蚕豆联合收割机,属于农业机械设备技术领域。该机包括位于行走装置上的脱粒分离单元和安置在行走装置前端的驾驶室以及前伸的收获单元；收获单元包括割台、位于割台前上方的拨禾轮以及逐稿器；脱粒分离单元包括分别安置在两侧的脱粒装置和粮仓；割台通过逐稿器与脱粒装置衔接；脱粒装置的下方装有振动筛；振动筛的输出部上方安装进风口朝下的大风机,输出部的输出口与风送风机的出风通道衔接,出风通道通往粮仓。本发明借助大风机实现籽粒与杂质的分离；风送风机将籽粒沿着管道进入粮仓,实现低损收获；极大降低了豆粒输送过程中的破碎率,有效将杂质吸走,同时显著降低了豆粒的含杂率。(The invention relates to an air-assisted broad bean combine harvester, and belongs to the technical field of agricultural mechanical equipment. The harvester comprises a threshing and separating unit positioned on a walking device, a cab arranged at the front end of the walking device and a harvesting unit extending forwards; the harvesting unit comprises a cutting table, a reel positioned in front of and above the cutting table and a straw grader; the threshing and separating unit comprises a threshing device and a granary which are respectively arranged at two sides; the header is connected with the threshing device through a straw shaker; a vibrating screen is arranged below the threshing device; the big fan with the air inlet facing downwards is installed above the output part of the vibrating screen, the output port of the output part is connected with the air outlet channel of the air supply fan, and the air outlet channel leads to the granary. The invention realizes the separation of grains and impurities by means of a big fan; the wind blower fan enters the grains into the granary along the pipeline, so that low-loss harvesting is realized; greatly reduced the breakage rate in the bean grain transportation process, effectively siphoned away impurity, simultaneously showing the impurity rate that has reduced the bean grain.)

1. A wind-conveying broad bean combine harvester comprises a threshing and separating unit positioned on a walking device (11), a cab arranged at the front end of the walking device and a harvesting unit extending forwards; the harvesting unit comprises a cutting table (1), a reel (2) positioned in front of and above the cutting table and a straw grader (12); the method is characterized in that: the threshing and separating unit comprises a threshing device (9) and a granary (4) which are respectively arranged on two sides; the header is connected with the threshing device through a straw shaker; a vibrating screen (10) is arranged below the threshing device; a big fan (13) with a downward air inlet is arranged above the output part of the vibrating screen, the output port of the output part is connected with an air outlet channel of an air supply fan (14), and the air outlet channel leads to the granary.

2. The air-assisted broad bean combine harvester according to claim 1, characterized in that: an air supply fan is arranged below the granary, and an air outlet channel of the air supply fan consists of a horizontal air pipe with an upper opening and an ascending air channel leading to the granary from bottom to top; and the output port of the vibrating screen is positioned above the upper opening of the horizontal air pipe.

3. The air-assisted broad bean combine harvester according to claim 2, characterized in that: the frame is fixedly connected with a support of the vibrating screen, the middle part of the support is hinged with the upper end of an adjusting rod, and the lower end of the adjusting rod is hinged with the bottom surface of the output part of the screen body; the input end of the screen body is hinged with the lower end of the screen connecting rod, and the upper end of the screen connecting rod is hinged with the bracket; and the lower end of the sieve connecting rod is hinged with the outer end of a long connecting rod driven by an eccentric wheel.

4. The air-assisted broad bean combine harvester according to claim 3, characterized in that: threshing device is including supporting the main shaft between front end plate and rear end plate, the main shaft links firmly with a plurality of axially spaced radials, the periphery of radials supports the axial extension threshing rod of circumference interval distribution, threshing rod's pole body interval distribution has the radial extension spike tooth of group, and the main shaft between the adjacent group spike tooth links firmly the rasp bar of axial extension through the strut, the cross-section of rasp bar is "people" font, and the surface has interval flute.

5. The air-assisted broad bean combine harvester according to claim 4, characterized in that: the two ends of the rod body of the adjusting rod are respectively connected with the front connecting rod and the rear connecting rod with the hinged joint through the inner thread section and the outer thread section.

6. The air-assisted broad bean combine harvester according to claim 5, characterized in that: the middle part of the bracket is hinged with the upper end of the adjusting rod through a connecting plate with a plurality of selectable hinging holes.

7. The air-assisted broad bean combine harvester according to claim 6, characterized in that: the support frame is in a shape of a 'door'.

Technical Field

The invention relates to a combine harvester, in particular to an air-assisted broad bean combine harvester, and belongs to the technical field of agricultural mechanical equipment.

Background

The edible bean products have various varieties, including mung beans, small beans, kidney beans, broad beans, peas and the like, and the seeds of various varieties have large differences in shape and size, so that the applicant knows that the current broad bean harvesting still mainly adopts manual harvesting.

Although the prior art also has mechanized harvesting, most of the used ones are rice and wheat combine harvesters. Originally, the harvester adopts a cylinder with spike teeth to beat rice plants and wheat plants to realize the falling of rice grains and wheat grains, but when the harvester is used for broad beans, the grains are wrapped in bean pods, so that the grains are difficult to be completely peeled off. In addition, the rice and wheat combine harvester generally adopts the auger to convey the separated rice grains and wheat grains, but the sizes of partial broad bean grains, particularly large-grain broad beans are far larger than those of the rice grains and the wheat grains, so that the broad bean dry grains are easily damaged by the auger, and the damage rate is high when the broad bean dry grains are harvested.

The retrieval shows that the Chinese patent application with the application number of CN202011222031.3 discloses a broad bean combine harvester, which comprises a chassis mechanism, a header mechanism, a conveying mechanism, a threshing and cleaning mechanism, a first lifting mechanism, a grain tank and a grain unloading mechanism; the header mechanism is arranged at the front end of the chassis mechanism and used for cutting off and collecting crops; the conveying mechanism is respectively connected with the header mechanism and the threshing and cleaning mechanism and is used for conveying the crops collected by the header mechanism to the threshing and cleaning mechanism; the threshing and cleaning mechanism is arranged on the chassis mechanism and is used for threshing and cleaning crops to obtain seeds; the first lifting mechanism is respectively connected with the threshing and cleaning mechanism and the grain box and is used for conveying grains to the grain bin; the grain tank is arranged on the chassis mechanism and used for storing grains; the grain unloading mechanism is connected with the grain tank and used for sending out grains in the grain tank. Chinese patent application No. CN202010018644.9 discloses an edible bean combine harvester, which comprises a walking mechanism, a cutting mechanism, a conveying mechanism, a threshing mechanism and a cleaning mechanism; the threshing mechanism is arranged on the walking mechanism, two ends of the conveying mechanism are respectively connected with the cutting mechanism and the threshing mechanism, the threshing mechanism comprises a screen drum, a top cover, a rotating shaft, connecting rods, roller side plates, spike teeth and a threaded rod block, screen holes are formed in the surface of the screen drum, the screen drum and the top cover are enclosed into a cylindrical threshing roller, the rotating shaft is located in the center of the threshing roller, the plurality of roller side plates are arranged on the rotating shaft, the plurality of connecting rods are arranged at the edges of the roller side plates and are parallel to the rotating shaft, the spike teeth and the threaded rod block are arranged on the connecting rods, and an inclined chute is formed in the surface of the threaded rod block; the cleaning mechanism is positioned below the screen drum.

The vertical conveying in the prior art adopts the bucket and the scraper respectively, and although the vertical conveying has a certain crushing reduction effect, the effect is still not ideal enough; in addition, the auger is still adopted for horizontal conveying, and the crushing gradually becomes higher along with the change of the gap of the auger due to abrasion after long-term use.

Disclosure of Invention

The invention aims to: aiming at the defects in the prior art, the air-assisted broad bean combine harvester capable of greatly reducing the breakage rate is provided.

In order to achieve the purposes, the basic technical scheme of the air-assisted broad bean combine harvester is as follows: comprises a threshing and separating unit positioned on a walking device, a cab arranged at the front end of the walking device and a harvesting unit extending forwards;

the harvesting unit comprises a cutting table, a reel positioned in front of and above the cutting table and a straw grader; the threshing and separating unit comprises a threshing device and a granary which are respectively arranged on two sides; the header is connected with the threshing device through a straw shaker;

a vibrating screen is arranged below the threshing device; a large fan with a downward air inlet is arranged above the output part of the vibrating screen, the output port of the output part is connected with an air outlet channel of the air supply fan, and the air outlet channel is communicated with the granary.

During harvesting operation, in the process of advancing the walking device, the broad beans are pushed to the header by the reel, and after being cut by the cutter at the lower part of the header, the broad beans enter the threshing device for threshing through the straw chasing device, then fall into the vibrating screen, the eccentric mechanism of the vibrating screen drives the broad beans to reciprocate, so that grains and impurities move along the vibrating screen, when passing through the big fan, the impurities are sucked away and discharged, the grains enter the air conveying fan, and enter the granary along the pipeline under the action of wind power.

Compared with the prior art, the invention abandons the traditional mechanical conveying, not only generates negative pressure type wind absorption force to the screen surface by the suction opening of the large fan, but also absorbs impurities and discharges the impurities along the air outlet, thereby realizing the separation of seeds and the impurities; the wind blower blows the seeds by the wind power generated by the wind blower, and the seeds enter the granary along the pipeline, so that low-loss harvesting is realized; the auger and other mechanical conveying of the traditional rice and wheat harvester are completely removed, the crushing rate of the bean grains in the conveying process is greatly reduced, impurities are effectively sucked away, and the impurity content of the bean grains is obviously reduced.

The invention is further perfected in that the frame is fixedly connected with a support of the vibrating screen, the middle part of the support is hinged with the upper end of an adjusting rod, and the lower end of the adjusting rod is hinged with the bottom surface of the output part of the screen body; the input end of the screen body is hinged with the lower end of the screen connecting rod, and the upper end of the screen connecting rod is hinged with the bracket; and the lower end of the sieve connecting rod is hinged with the outer end of a long connecting rod driven by an eccentric wheel.

The threshing device comprises a main shaft supported between a front end plate and a rear end plate, wherein the main shaft is fixedly connected with a plurality of axially spaced radial plates, the peripheries of the radial plates support axially extending threshing rods which are circumferentially spaced, groups of radially extending spike teeth are spaced on the rod body of each threshing rod, the main shaft between the adjacent groups of spike teeth is fixedly connected with axially extending rasp rods through a support frame, the cross sections of the rasp rods are in a herringbone shape, and the outer surfaces of the rasp rods are provided with spaced grooves.

The invention is further perfected in that two ends of the rod body of the adjusting rod are respectively connected with the front and rear connecting rods with the hinged joints through inner and outer thread sections.

The invention is further perfected in that the middle part of the bracket is hinged with the upper end of the adjusting rod through a connecting plate with a plurality of optional hinging holes.

The invention is further perfected in that the support frame is in a shape of a door.

Drawings

The invention will be further described with reference to the accompanying drawings.

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

Fig. 2 is a schematic perspective view of the threshing and separating unit of the embodiment of fig. 1.

Fig. 3 is a schematic plan projection structure diagram of the threshing and separating unit of the embodiment of fig. 1.

Figure 4 is a schematic view of the vibratory screen mechanism of figure 3.

Fig. 5 is a schematic cross-sectional view of the screen connecting rod of fig. 3.

Fig. 6 is a schematic perspective view of the threshing cylinder of fig. 2.

Fig. 7 is a perspective view of the threshing rod of fig. 6.

Detailed Description

Example one

As shown in fig. 1 (see fig. 2), the traveling device 11 is provided with a threshing and separating unit through a frame 15, and the front end of the traveling device is provided with a cab 3 and a forward-extending harvesting unit.

The harvesting unit comprises a header 1, a reel 2 positioned in front of and above the header, and a straw shaker 12, and the structure thereof is basically the same as that of the prior art, so the detailed description is not expanded.

The threshing and separating unit comprises a threshing device 9 and a granary 4 which are respectively arranged at two sides. The header 1 is connected with a threshing device through a straw shaker 12. A vibrating screen 10 is arranged below the threshing device 9; an air blower 14 is arranged below the granary 4. The air outlet of the air blower 14 is communicated with the grain bin 4 from bottom to top through a horizontal air pipe 14.1 with an upper opening 14.3 and an ascending air duct 14.2. A big fan 13 with a downward air inlet is arranged above the output part of the vibrating screen 10, and an output port 10.1 of the big fan is positioned above an upper opening 14.3 of a horizontal air pipe 14.1. Because the air blower 14 and the big blower 13 are powered by hydraulic motors, the diesel oil tank 5, the hydraulic oil tank 6, the radiator 7 and the hydraulic pump 8 are arranged on the frame 15.

The specific structure of the vibrating screen 10 below the threshing device 9 is shown in fig. 3, and comprises a bracket 10.6 supported on a frame 15, wherein the middle part of the bracket 10.6 is hinged with the upper end of an adjusting rod 10.4 through a connecting plate 10.5 with a plurality of selective hinging holes, and the lower end of the adjusting rod 10.4 is hinged with the bottom surface of an output part of a screen body 10.3; the input end of the sieve body 10.3 is hinged with the lower end of the sieve connecting rod 10.2, the upper end of the sieve connecting rod 10.2 is hinged with the bracket 10.6 through the fixing plate 10.1, and the lower end of the sieve connecting rod 10.2 is hinged with the outer end of the long connecting rod 10.7 driven by the eccentric wheel 10.8, so that as shown in figure 4, a reverse four-connecting-rod driving mechanism is formed by the eccentric wheel, the long connecting rod and the sieve connecting rod, and a double-rocker driven mechanism is formed by the adjusting rod, the sieve body and the sieve connecting rod; the two mechanisms are compounded with each other through the shared sieve connecting rod, and the vibrating sieve mechanism with a unique 'jumping and swinging' track during the motion of the sieve body is formed by means of the inclination angle, so that the broad bean seeds and impurities in the falling materials are effectively sieved in the continuous 'jumping and swinging' process, and the sieved lighter impurities are pumped away by a large fan when reaching the output part.

The concrete structure of the adjusting rod 10.4 is shown in fig. 5, two ends of a rod body 10.41 are respectively connected with a front connecting rod 10.43 and a rear connecting rod 10.42 with hinges through inner thread sections and outer thread sections, the length of the rod body can be conveniently adjusted according to needs, and in addition, the connecting plate 10.5 is provided with a selectable hinged hole, so that the motion track of the vibrating screen can be changed as required, and particularly, the motion track can be adjusted within a certain inclination angle range according to the moisture content of different crop straws from input to output. The higher the water content is, the larger the inclination angle is, the preferred range is 4-7 degrees, so that the grains can smoothly move along the screen body and can be smoothly sucked up and discharged by a large fan at the output part.

The main body of the threshing device 9 of the embodiment is shown in fig. 6, the basic structure is similar to the prior art, a main shaft 9.5 supported between a front end plate 9.1 and a rear end plate 9.4 is fixedly connected with a plurality of webs 9.3 which are axially spaced, and an input spiral plate 9.2 is arranged at the front end plate 9.1. The outer periphery of the web 9.3 supports circumferentially spaced apart axially extending threshing bars 9.7 forming a rotatable threshing cylinder above the intaglio screen 9.6. The specific structure of the threshing rod 9.7 is shown in fig. 7, two groups of radially extending spike teeth 9.71 are distributed on a rod body 9.73 at intervals, axially extending rasp rods 9.72 are fixed between the adjacent groups of spike teeth through a gate-shaped support frame 9.74, the sections of the rasp rods 9.72 are in a herringbone shape, and the outer surface of each rasp rod is provided with interval grooves for increasing friction. The unique pattern rod and spike tooth alternate combination arrangement mode can not only realize the crushing of crop stalks, but also realize the pod removal of bean granules, and can effectively ensure the integrity of the bean granules.

During harvesting, the harvested materials enter the threshing device to be threshed firstly and then fall into the vibrating screen, the vibrating screen is in reciprocating screening movement due to certain inclination, so that grains and impurities are enabled to move towards the output part along the vibrating screen, when the grains pass through the large fan powered by the hydraulic motor, the impurities are sucked away and discharged, and the grains fall into the air pipe of the air blower and enter the granary under the action of wind power. And when the grains in the granary reach a certain weight, discharging the grains through the hydraulic cylinder.

Summarizing, the practice proves that the embodiment has the following remarkable advantages compared with the prior art:

1. an included angle of 4-7 degrees is formed between the vibrating screen and the horizontal direction, and the inclination angle can be adjusted according to the moisture content of different crop straws (the larger the moisture content is, the larger the inclination angle of the vibrating screen is), so that the effects that the vibrating screen moves smoothly along the screen body and is smoothly sucked up by a large fan are achieved;

2. the suction opening of the big fan generates negative pressure type suction force on the screen surface to suck impurities up and discharge the impurities along the air outlet, so that the separation of seeds and the impurities is realized;

3. the wind blower blows the seeds by the wind power generated by the wind blower, and the seeds enter the granary along the pipeline, so that low-loss harvesting is realized;

4. the threshing device adopts a combined arrangement mode of alternate rasp bars and spike teeth, which can not only crush crop stalks, but also remove pods of bean grains and effectively improve the integrity of the bean grains;

5. the auger of the traditional rice and wheat harvester is removed, so that the crushing rate of the bean particles in the conveying process is greatly reduced and is almost zero; effectively absorb impurities, and greatly reduce the impurity rate of the bean particles.