阅读说明：本技术 一种收割机割台搅龙喂料装置 (Harvester header screw feeder feeding device ) 是由 肖平 徐亮 周云起 倪文浩 马伟 孙永久 翟荣杰 房华玉 李大瑞 刘凡 陈黎卿 于 2021-07-16 设计创作，主要内容包括：一种收割机割台搅龙喂料装置,属于农业收割机技术领域,该收割机割台搅龙喂料装置,包括割台及其上设置的搅龙筒主体、搅龙筒连接段、支撑筒和伸缩驱动机构,搅龙筒主体的两端分别与一段或多段搅龙筒连接段可拆卸相连后形成搅龙筒本体,搅龙筒本体内部的两端分别导向连接有支撑筒,每个支撑筒的两端分别与伸缩驱动机构相连以使其中一个支撑筒或两个支撑筒脱离搅龙筒主体,本发明的有益效果是,该收割机割台搅龙喂料装置使搅龙筒的安装和拆卸更方便、快捷,降低了维修成本,避免了收割时产生农作物堆积和造成丢穗损失的问题,适用于多种尺寸的田地的收割,保证了收割作业的顺畅开展和收割的效率。(A harvester header auger feeding device belongs to the technical field of agricultural harvesters and comprises a header and an auger cylinder main body, an auger cylinder connecting section, supporting cylinders and a telescopic driving mechanism which are arranged on the header, wherein two ends of the auger cylinder main body are detachably connected with one section or a plurality of sections of auger cylinder connecting sections respectively to form an auger cylinder body, two ends inside the auger cylinder body are respectively connected with the supporting cylinders in a guiding manner, and two ends of each supporting cylinder are respectively connected with the telescopic driving mechanism to separate one supporting cylinder or two supporting cylinders from the auger cylinder main body. The smooth development of the harvesting operation and the harvesting efficiency are ensured.)

1. The utility model provides a harvester header screw feeder, its characterized in that, includes header and the screw feeder section of thick bamboo main part, screw feeder section of thick bamboo linkage segment, support a section of thick bamboo and the actuating mechanism that stretches out and draws back that set up on it, the both ends of screw feeder section of thick bamboo main part can be dismantled with one section or multistage screw feeder section of thick bamboo linkage segment respectively and form screw feeder section of thick bamboo body after linking to each other, the inside both ends of screw feeder section of thick bamboo body have a support section of thick bamboo of guide connection respectively, and every supports a both ends and links to each other so that one of them supports a section of thick bamboo or two support a section of thick bamboos and break away from respectively screw feeder section of thick bamboo main part.

2. The harvester header auger feeding device of claim 1, wherein: the telescopic driving mechanism is provided with two sets of and sets up respectively the both sides of header, telescopic driving mechanism includes motor I, ratchet and threaded sleeve, the output shaft of motor I with threaded sleeve threaded connection, threaded sleeve with ratchet joint location links to each other, threaded sleeve with the one end of a support section of thick bamboo is fixed continuously.

3. The harvester header auger feeding device of claim 2, wherein: ratchet includes ratchet and connecting block, the connecting block is fixed one side of header, the connecting block middle part is provided with the mounting hole, the ratchet periphery pass through the pawl with the mounting hole meshing links to each other, the middle part of ratchet with the cooperation of screw sleeve joint.

4. The harvester header auger feeding device of claim 2, wherein: the both sides of header still are provided with reciprocal actuating mechanism respectively, reciprocal actuating mechanism includes motor II, gear mechanism I, ball screw mechanism and supporting shoe, ball screw mechanism includes lead screw and sliding connection's slip table above that, the both ends of lead screw are fixed in the both sides of header through the supporting shoe respectively, the one end of lead screw pass through gear mechanism I with motor II links to each other, fix on the slip table flexible actuating mechanism's drive division.

5. The harvester header auger feeding device of claim 4, wherein: the header comprises a bottom plate, a back plate and side plates, wherein one end of the bottom plate is fixedly connected with the back plate, two sides of the plurality of bottom plates and the back plate which are spliced respectively are detachably connected with the side plates respectively, the side plates are provided with sliding grooves along the length direction of the side plates, and execution parts of the telescopic driving mechanisms are accommodated in the sliding grooves; the middle part of bottom plate sets up the bar groove, the bottom in bar groove sets up the conveyer belt, the drive shaft of conveyer belt pass through gear mechanism II with the output shaft of motor II links to each other.

6. The harvester header auger feeding device of claim 5, wherein: the front end of curb plate is provided with location joint part, location joint part includes guide cylinder and card strip, in the guide cylinder with the cooperation of pegging graft of card strip, the guide cylinder pass through the screw with card strip location links to each other, the bottom of card strip with the outside joint cooperation of threaded sleeve.

7. The harvester header auger feeding device of claim 5, wherein: the front end of the side plate is also provided with a supporting mechanism, the supporting mechanism comprises a supporting plate, a plurality of guide posts, a spring I, a connecting plate and a blocking rod, the guide posts are arranged in a plurality, each guide post is sleeved with the spring I, one end of each guide post is connected with the connecting plate, the blocking rod close to the side plate is connected onto the connecting plate, one end of the spring I is connected with the outer side of the side plate, and the other end of the spring I is connected with the connecting plate; the other ends of the guide posts penetrate through the side plates and then are connected with the supporting plate, and the supporting plate bears and positions the auger barrel connecting section.

8. The harvester header auger feeding device of claim 7, wherein: the supporting plate comprises a supporting plate body, positioning grooves are formed in two ends of the supporting plate body, a spring II and a telescopic clamping strip are installed in the positioning grooves, one end of the spring II is connected with the telescopic clamping strip, and the telescopic clamping strip extends out of the positioning grooves and blocks and positions the screw feeder cylinder connecting section.

9. The harvester header auger feeding device of claim 4, wherein: the front end and the rear end of header are provided with reference bar and camera respectively, the camera transmits the reference bar for image processing module with the picture of waiting to cut the crop, image processing module comparison reference bar and wait to cut the high signal transmission between the crop and give PLC, PLC with reciprocal actuating mechanism connects in order to drive the distance that the screw feeder section of thick bamboo body antedisplacement or rethread set for.

10. The harvester header auger feeding device of claim 1, wherein: the two ends of the auger cylinder main body are respectively detachably connected with sectional blades with opposite rotating directions, the auger cylinder connecting section can also be detachably connected with the sectional blades, and the sectional blades on the auger cylinder connecting section have the same rotating directions as the sectional blades at one end of the auger cylinder main body adjacent to the sectional blades; a spiral slide rail is fixedly welded on the auger barrel main body and the auger barrel connecting section, the sectional type blade is clamped on the spiral slide rail, and the sectional type blade is fixed on the spiral slide rail through a bolt connecting piece; the sectional type blade comprises a spiral blade body and an extending blade which is elastically clamped and connected with the spiral blade body.

Technical Field

The invention relates to the technical field of agricultural harvesters, in particular to a harvester cutting table auger feeding device.

Background

The combine harvester has long continuous working time in a harvesting season, the header is easy to break down, and the auger shaft is frequently required to be detached for maintenance when the header breaks down. The screw feeder structure that the harvester header that present manufacturer produced used is integrative member structure, including screw feeder axle and its outer screw feeder section of thick bamboo that cup joints, a plurality of helical blade of screw feeder section of thick bamboo external fixation, when screw feeder section of thick bamboo has the problem, the curb plate of both sides need to be pulled down, dismantle screw feeder axle and screw feeder section of thick bamboo wholly, it is very inconvenient to make taking out of screw feeder section of thick bamboo, it is inefficient to dismantle, and, when blade on the screw feeder section of thick bamboo appears the damage and causes the damage of screw feeder part, need more renew screw feeder section of thick bamboo during the maintenance, peasant's cost of maintaining or maintaining agricultural machinery has been increased.

The reasonable arrangement of the auger structure, the cutter and the reel on the cutting table is very important, and especially the distance between the center of the auger structure and the cutter at the front end of the cutting table has great influence on the working performance of the cutting table. If the distance from the center of the auger structure to the front end of the header is larger, the auger structure is more suitable for harvesting long-stalk crops. When the short-stalk crops are harvested, the crops are only firstly stacked between the cutting knife and the center of the screw conveyor structure, and when the crops are stacked to a certain amount, the crops are grabbed by the helical blades, and are jammed, so that the transportation blockage is easily caused. On the contrary, if the distance from the center of the auger structure to the front end of the header is smaller, the harvesting machine is more suitable for harvesting short stalk crops, and when long stalk crops are harvested, the long stalk crops are easy to slip off from the header, so that ear loss is caused.

Moreover, when the harvester meets different land sizes or the land sizes are changed, due to the fact that the size of the header of the harvester is fixed, if the width size of the header is large, harvesting operation is difficult to conduct on the land with small size, and if the width size of the header is small, the area of crops harvested in one trip in the land is small for the land with large size, and harvesting efficiency is reduced.

Disclosure of Invention

In order to solve the technical problems, the invention provides a harvester header auger feeding device, which enables an auger cylinder to be more convenient and quicker to mount and dismount, reduces the maintenance cost, is suitable for harvesting crops with different heights, avoids the problem that the crops are accumulated and fall off during harvesting, is suitable for harvesting fields with various sizes, and ensures the smooth development of harvesting operation and the harvesting efficiency.

In order to achieve the purpose, the technical scheme adopted by the invention for solving the technical problems is as follows: harvester header screw feeder, including header and the screw section of thick bamboo main part, the screw section of thick bamboo linkage segment, support a section of thick bamboo and the actuating mechanism that stretches out and draws back that set up on it, the both ends of screw section of thick bamboo main part can be dismantled with one section or multistage screw section of thick bamboo linkage segment respectively and form the screw section of thick bamboo body after linking to each other, the inside both ends of screw section of thick bamboo body have a support section of thick bamboo that leads to respectively, and every supports a section of thick bamboo both ends and links to each other so that one of them supports a section of thick bamboo or two support a section of thick bamboo and break away from respectively with actuating mechanism that stretches out and draws back the screw section of thick bamboo main part.

The telescopic driving mechanism is provided with two sets of and sets up respectively the both sides of header, telescopic driving mechanism includes motor I, ratchet and threaded sleeve, the output shaft of motor I with threaded sleeve threaded connection, threaded sleeve with ratchet joint location links to each other, threaded sleeve with the one end of a support section of thick bamboo is fixed continuously.

Ratchet includes ratchet and connecting block, the connecting block is fixed one side of header, the connecting block middle part is provided with the mounting hole, the ratchet periphery pass through the pawl with the mounting hole meshing links to each other, the middle part of ratchet with the cooperation of screw sleeve joint.

The both sides of header still are provided with reciprocal actuating mechanism respectively, reciprocal actuating mechanism includes motor II, gear mechanism I, ball screw mechanism and supporting shoe, ball screw mechanism includes lead screw and sliding connection's slip table above that, the both ends of lead screw are fixed in the both sides of header through the supporting shoe respectively, the one end of lead screw pass through gear mechanism I with motor II links to each other, fix on the slip table flexible actuating mechanism's drive division.

The header comprises a bottom plate, a back plate and side plates, wherein one end of the bottom plate is fixedly connected with the back plate, two sides of the plurality of bottom plates and the back plate which are spliced respectively are detachably connected with the side plates respectively, the side plates are provided with sliding grooves along the length direction of the side plates, and execution parts of the telescopic driving mechanisms are accommodated in the sliding grooves; the middle part of bottom plate sets up the bar groove, the bottom in bar groove sets up the conveyer belt, the drive shaft of conveyer belt pass through gear mechanism II with the output shaft of motor II links to each other.

The front end of curb plate is provided with location joint part, location joint part includes guide cylinder and card strip, in the guide cylinder with the cooperation of pegging graft of card strip, the guide cylinder pass through the screw with card strip location links to each other, the bottom of card strip with the outside joint cooperation of threaded sleeve.

The front end of the side plate is also provided with a supporting mechanism, the supporting mechanism comprises a supporting plate, a plurality of guide posts, a spring I, a connecting plate and a blocking rod, the guide posts are arranged in a plurality, each guide post is sleeved with the spring I, one end of each guide post is connected with the connecting plate, the blocking rod close to the side plate is connected onto the connecting plate, one end of the spring I is connected with the outer side of the side plate, and the other end of the spring I is connected with the connecting plate; the other ends of the guide posts penetrate through the side plates and then are connected with the supporting plate, and the supporting plate bears and positions the auger barrel connecting section.

The supporting plate comprises a supporting plate body, positioning grooves are formed in two ends of the supporting plate body, a spring II and a telescopic clamping strip are installed in the positioning grooves, one end of the spring II is connected with the telescopic clamping strip, and the telescopic clamping strip extends out of the positioning grooves and blocks and positions the screw feeder cylinder connecting section.

The front end of header is provided with reference bar and camera, the camera transmits the reference bar for image processing module with the picture of waiting to cut the crop, image processing module comparison reference bar and wait to cut the high signal transmission between the crop give PLC, PLC with reciprocal actuating mechanism connects in order to drive the distance that an auger body antedisplacement or rethread set for.

The two ends of the auger cylinder main body are respectively detachably connected with sectional blades with opposite rotating directions, the auger cylinder connecting section can also be detachably connected with the sectional blades, and the sectional blades on the auger cylinder connecting section have the same rotating directions as the sectional blades at one end of the auger cylinder main body adjacent to the sectional blades; a spiral slide rail is fixedly welded on the auger barrel main body and the auger barrel connecting section, the sectional type blade is clamped on the spiral slide rail, and the sectional type blade is fixed on the spiral slide rail through a bolt connecting piece; the sectional type blade comprises a spiral blade body and an extending blade which is elastically clamped and connected with the spiral blade body.

The invention has the beneficial effects that:

1. according to the invention, the traditional auger cylinder is designed into a multi-section detachable structure, two ends inside the formed auger cylinder body are connected with the supporting cylinders through the telescopic driving mechanism, the auger cylinder main body is supported through the supporting cylinders, when one section of the auger cylinder needs to be detached, one or two supporting cylinders move outwards by operating the telescopic driving mechanism, so that the auger cylinder main body is separated from the supporting cylinders, the detachment of the auger cylinder can be completed as required, header side plates at two ends of the auger cylinder do not need to be detached, after a certain section of the auger cylinder which is maintained is installed by the same principle, the telescopic driving mechanism is operated to enable the supporting cylinders to move inwards to complete the supporting of the auger cylinder main body, and the detachment and installation of the auger cylinder are more convenient and quicker.

2. According to the invention, the reciprocating driving mechanisms are arranged on the two sides of the cutting table, when one section of the auger cylinder needs to be disassembled, the whole auger cylinder body is moved to the front end of the cutting table through the reciprocating driving mechanisms, so that the disassembly of the auger cylinder is more convenient; and through setting up supporting mechanism at the header front end, when an auger section of thick bamboo body reachd this position, supporting mechanism's backup pad stretches out the both ends that support an auger section of thick bamboo body, and fixes a position an auger section of thick bamboo body, makes an auger section of thick bamboo's dismantlement more stable, makes the dismantlement process safer.

3. According to the invention, the reference rod and the camera are arranged at the front end of the header, the camera transmits pictures of the reference rod and the crops to be harvested to the image processing module, the image processing module compares height signals between the reference rod and the crops to be harvested and transmits the height signals to the PLC, the PLC controls the reciprocating driving mechanism to act so as to enable the auger cylinder body to move forwards or backwards for a set distance, the distance between the auger cylinder body and a cutting knife at the front end of the header is suitable for the current crops to be harvested, and the phenomena of conveying blockage or ear loss can be avoided.

4. According to the invention, the spiral guide rail is arranged outside the auger barrel, and the sectional type blade is arranged in the spiral guide rail, so that on one hand, the damage of the blade is often caused when the auger structure is maintained, the detachable structure of the sectional type blade enables the maintenance of the auger structure to be more convenient and faster, the workload of replacing the whole blade during maintenance is reduced, and the maintenance cost is reduced; on the other hand, the sectional type blade comprises a spiral blade body and a protruding blade elastically connected with the spiral blade body, and when the blade meets a blockage, the protruding blade can move in a telescopic mode, so that the problem of material blockage is further avoided.

5. According to the invention, the header is arranged into a structure in which a plurality of bottom plates, a back plate and side plates are detachably connected, and a structure of a plurality of sections of detachable auger barrels is matched, so that the width of the whole header can be adjusted, one header can be matched with various harvesting equipment with different sizes, the harvester can smoothly enter a field, and the harvesting efficiency is ensured.

To sum up, this harvester header screw feeder feeding device makes the installation and the dismantlement of a screw section of thick bamboo more convenient, swift, has reduced cost of maintenance, has avoided producing crops when reaping and has piled up and cause the problem of losing the ear of grain loss, is applicable to reaping in the field of multiple size, has guaranteed the smooth and easy efficiency of developing and reaping of reaping the operation.

Drawings

The contents of the expressions in the various figures of the present specification and the labels in the figures are briefly described as follows:

FIG. 1 is an isometric view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a side view of the present invention;

FIG. 4 is a schematic structural view of a ratchet mechanism according to the present invention;

FIG. 5 is a schematic view of the construction of the threaded sleeve of the present invention;

FIG. 6 is a schematic structural view of a support mechanism according to the present invention;

FIG. 7 is a cross-sectional view of the support plate of FIG. 6;

FIG. 8 is a schematic structural view of a positioning clip member of the present invention;

FIG. 9 is a schematic view of the detachable connection of the auger barrel body and the segmented blade according to the present invention;

FIG. 10 is a schematic view of the structure of the spiral slide rail and the sectional vane of the present invention;

the labels in the above figures are: 1. the cutting table comprises a cutting table 11, a bottom plate 111, a strip-shaped groove 12, a back plate 13, a side plate 131, a sliding groove 2, an auger cylinder body 21, an auger cylinder main body 22, an auger cylinder connecting section 23, a supporting cylinder 3, a telescopic driving mechanism 31, a motor I, a ratchet mechanism 32, a ratchet wheel 321, a ratchet wheel 322, a connecting block 33, a threaded sleeve 4, a reciprocating driving mechanism 41, a motor II, a gear mechanism I, a gear mechanism 43, a ball screw rod mechanism 431, a screw rod 432, a sliding table 44, a supporting block 44, a conveying belt 5, a gear mechanism II, a positioning clamping component 7, a guide cylinder 71, a clamping bar 72, a supporting mechanism 8, a supporting plate 81, a supporting plate 811, a supporting plate body 812, a positioning groove 813, a spring II, 814, a telescopic clamping bar 82, a guide column 83, a spring I, a connecting plate 84, a connecting plate 85, a gear lever 9, a reference lever 10 and a camera, 14. sectional type blade 141 spiral blade body 142 extending blade 15 spiral slide rail 16 blowing tube.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and the following embodiments are used for illustrating the present invention and are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The specific implementation scheme of the invention is as follows: as shown in fig. 1-3, a harvester header auger feeding device comprises a header 1 and an auger cylinder main body 21, an auger cylinder connecting section 22, a supporting cylinder 23 and a telescopic driving mechanism 3, wherein the auger cylinder main body 21, the auger cylinder connecting section 22, the supporting cylinder 23 and the telescopic driving mechanism 3 are arranged on the header, two ends of the auger cylinder main body 21 are detachably connected with one or more sections of auger cylinder connecting sections 22 respectively to form an auger cylinder body 2, two ends of the interior of the auger cylinder body 2 are respectively connected with the supporting cylinder 23 in a guiding manner, and two ends of each supporting cylinder 23 are respectively connected with the telescopic driving mechanism 3 to enable one supporting cylinder 23 or two supporting cylinders 23 to be separated from the auger cylinder main body 21. According to the invention, the traditional auger cylinder is designed into a multi-section detachable structure, two ends inside the formed auger cylinder body 2 are connected with the supporting cylinders 23 through the telescopic driving mechanism 3, the auger cylinder main body 21 is supported through the supporting cylinders 23, when one section of auger cylinder needs to be detached, one supporting cylinder 23 or two supporting cylinders 23 is moved outwards by operating the telescopic driving mechanism 3, so that the auger cylinder main body 21 is separated from the support of the supporting cylinders 23, the detachment of the auger cylinder can be completed as required, and the cutting tables 1 at two ends of the auger cylinder do not need to be partially detached; the same principle can be with a certain section of screw feeder section of thick bamboo installation back that maintains, and operation telescopic drive mechanism 3 makes a support section of thick bamboo 23 move inboard and accomplishes the support to screw feeder section of thick bamboo main part 21, makes the dismantlement and the installation of a screw feeder section of thick bamboo convenient and fast more.

Specifically, header 1 wherein includes bottom plate 11, backplate 12 and curb plate 13, the one end of bottom plate 11 links to each other with backplate 12 is fixed, both sides after polylith bottom plate 11 and backplate 12 splice respectively can dismantle with curb plate 13 and be connected, the both sides of bottom plate 11 set up spliced eye and bolt respectively, accomplish the concatenation through the mode of pegging graft between the polylith bottom plate 11, between polylith backplate 12 wherein, the concatenation also can be accomplished through the mode of above-mentioned grafting between bottom plate 11, backplate 12 and the curb plate 13, the width of header 1 is adjusted as required to the convenience. The end faces of the two ends of the auger cylinder main body 21 are provided with a plurality of inserting holes along the circumferential direction, the circumferential direction of one end of the auger cylinder connecting section 22 or the end faces of the two ends of the auger cylinder connecting section is provided with a bolt matched with the corresponding inserting holes in an inserting mode, and the splicing installation is also completed between the auger cylinder main body 21 and the auger cylinder connecting section 22 in an inserting mode. The outer end of the bolt is provided with an external thread, the bolt is screwed down and positioned through a nut after being inserted, and in order to ensure the installation consistency, the width between the opposite bottom plate 11 and the back plate 12 is equal, and the length of the auger cylinder corresponding to the section is equal. According to the invention, the header 1 is arranged into a structure that a plurality of bottom plates 11, back plates 12 and side plates 13 are detachably connected, and then a structure of a plurality of sections of detachable auger cylinders is matched, so that the width of the whole header 1 can be adjusted, one header 1 can be matched with various harvesting equipment with different sizes, for fields with smaller sizes, the width of the header 1 is narrowed by reducing the number of the bottom plates 11 and the back plates 12 and the length of the auger cylinders, so that the harvester can smoothly enter the field, and for fields with larger water bath sizes, the harvesting efficiency is ensured by properly increasing the number of the bottom plates 11 and the back plates 12 and the length of the auger cylinders.

Specifically, the side plate 13 is provided with a sliding groove 131 along the length direction thereof, the sliding groove 131 accommodates an execution part of the telescopic driving mechanism 3, that is, the telescopic driving mechanism 3 is provided with two sets and respectively arranged at two sides of the header 1, the telescopic driving mechanism 3 comprises a motor i 31, a ratchet mechanism 32 and a threaded sleeve 33, an output shaft of the motor i 31 is in threaded connection with the threaded sleeve 33, the threaded sleeve 33 is in clamping connection with the ratchet mechanism 32 for positioning, and the threaded sleeve 33 is fixedly connected with one end of the support cylinder 23. When the harvester normally works, the motor I31 positively rotates to drive the threaded sleeve 33 and the ratchet mechanism 32 to move, so that the support cylinder 23 and the auger cylinder body 2 outside the support cylinder are driven to rotate to realize feeding action, when parts on the auger cylinder body 2 need to be detached and maintained, the motor I31 reversely rotates, the threaded sleeve 33 cannot rotate due to the fact that the ratchet mechanism 32 is blocked, the reverse rotation of the motor I31 is converted into linear movement of the threaded sleeve 33 on the output shaft of the motor I31 by the threads in the threaded sleeve 33, so that the support cylinder 23 connected with the threaded sleeve 33 is driven to move towards the outer end of the auger cylinder body 2, the support cylinder 23 is separated from the auger cylinder main body 21, and the parts on the auger cylinder body 2 are convenient to detach.

As shown in fig. 4 and 5, the ratchet mechanism 32 includes a ratchet 321 and a connecting block 322, the connecting block 322 is fixed on one side of the header 1, a mounting hole is arranged in the middle of the connecting block 322, and the periphery of the ratchet 321 is meshed and connected with the mounting hole through a pawl, so that the ratchet 321 can rotate forward under the action of the pawl and can self-lock when rotating backward; the middle of the ratchet wheel 321 is provided with a positioning hole, a key groove is formed in the positioning hole, a strip key integrated with the threaded sleeve 33 is arranged outside the threaded sleeve along the length direction of the threaded sleeve, and the strip key is in clamping fit with the key groove in the middle of the ratchet wheel 321. The arrangement of the structure enables the ratchet mechanism 32 to be a switch for switching the normal feeding work of the harvester and the disassembling work of the auger cylinder body 2.

Specifically, as shown in fig. 1 to fig. 3, the two sides of the header 1 are further provided with reciprocating driving mechanisms 4, the reciprocating driving mechanisms 4 include motors ii 41, gear mechanisms i 42, ball screw mechanisms 43 and supporting blocks 44, the ball screw mechanisms 43 include screws 431 and sliding tables 432 slidably connected thereto, two ends of the screws 431 are fixed to the two sides of the header 1 through the supporting blocks 44, one end of the screws 431 is connected to the motors ii 41 through the gear mechanisms i 42, the gear mechanisms i 42 are provided as bevel gear transmission mechanisms, the motors ii 41 are vertically arranged, when the motors ii 41 are horizontally arranged, the gear mechanisms i 42 can be removed, and the driving portions of the telescopic driving mechanisms 3, that is, the motors i 31, are fixed to the sliding tables 432. When the motor ii 41 rotates, the sliding table 432 on the screw rod 431 is driven to move linearly along the screw rod 431, so that the telescopic driving mechanism 3 on the sliding table 432 is driven to move back and forth in the header 1.

And the middle part of the bottom plate 11 in the header 1 is provided with a strip-shaped groove 111, the bottom of the strip-shaped groove 111 is provided with a conveyor belt 5, the driving shaft of the conveyor belt 5 is connected with the output shaft of the motor II 41 through a gear mechanism II 6, so that the belt transmission mechanism and the ball screw mechanism 43 share one power source, namely the motor II 41, and therefore, the arrangement mode of the motor II 41 at the moment needs to be arranged in a vertical mode. At the in-process of motor II 41 drive screw feeder section of thick bamboo body 2 forward motion in header 1, make the straw and the cereal of reaping in header 1 transport the conveyer belt 5 at header 1 middle part by the blade on the screw feeder section of thick bamboo body 2 on, motor I31 drives screw feeder section of thick bamboo body 2 simultaneously and rotates, the finger that dials that makes the setting of screw feeder section of thick bamboo body 2 middle part, under the synchronization of conveyer belt 5, the straw and the cereal of reaping in the drive header 1 transport the rear of header, screw feeder section of thick bamboo body 2 forward motion in-process in header 1 has been avoided, the problem of windrow is produced in header 1 the place ahead, the corn that makes to reap can in time be transmitted. In order to further improve the collection volume of corn, still be provided with a section of thick bamboo 16 of blowing on the slip table 432 of header 1's both sides, at the in-process of transmission, have some crops corn to remain on header 1, when motor II 41 starts, a section of thick bamboo 16 of blowing can convey the crops corn of cutting to the conveyer belt 5 in header 1 middle part, has reduced the amount that the corn remained in header 1 both sides, has improved the harvesting rate of corn.

Specifically, as shown in fig. 1 and 8, a positioning clamping component 7 is disposed at the front end of the side plate 13, the positioning clamping component 7 includes a guide cylinder 71 and a clamping strip 72, the guide cylinder 71 is inserted into and matched with the clamping strip 72, the guide cylinder 71 is connected to the clamping strip 72 through a screw, and a clamping groove is disposed at the bottom of the clamping strip 72 and is clamped and matched with a strip key outside the threaded sleeve 33. This location joint part 7's effect is, when needs will maintain the screw feeder section of thick bamboo body 2 installation after repairment and return header 1, cup joint the screw feeder section of thick bamboo main part 21 and the screw feeder section of thick bamboo linkage segment 22 at both ends and dock the back on supporting barrel 23, rotate the bar key on the screw feeder and dial the draw-in groove of putting to the card strip 72 bottom, get rid of the screw, card strip 72 is because gravity downwardly moving, make card strip 72 die the screw feeder card, operation motor I31 makes its corotation this moment, and the screw feeder is died by the card, the corotation of motor I31 is transformed into the linear motion that the screw feeder was done along the direction of the output axial screw feeder main part 21 of motor I31, can accomplish the installation of screw feeder section of thick bamboo body 2.

Specifically, as shown in fig. 2, 6 and 7, the front end of the side plate 13 is further provided with a supporting mechanism 8, the supporting mechanism 8 includes a supporting plate 81, a plurality of guide posts 82, a spring i 83, a connecting plate 84 and a stop lever 85, the plurality of guide posts 82 are provided, each guide post 82 is externally sleeved with the spring i 83, one end of each guide post 82 is connected with the connecting plate 84, the stop lever 85 close to the side plate 13 is connected to the connecting plate 84, one end of the spring i 83 is connected with the outer side of the side plate 13, and the other end of the spring i 83 is connected with the connecting plate 84; the other ends of the guide posts 82 penetrate through the side plate 13 and then are connected with the support plate 81, and the support plate 81 bears the positioning auger cylinder connecting section 22. When the reciprocating driving mechanism 4 drives the auger barrel body 2 to move towards the front of the cutting table 1, the sliding table 432 touches the stop rod 85 and provides the stop rod 85 with a pushing force towards the cutting table 1, under the action of the guide column 82 and the spring I83, the supporting plate 81 extends towards the sliding table 432, the supporting plate 81 supports the auger barrel connecting sections 22 at the two ends of the auger barrel body 2, and the auger barrel is convenient to disassemble.

The supporting plate 81 comprises a supporting plate body 811, positioning grooves 812 are formed in two ends of the supporting plate body 811, a spring II 813 and a telescopic clamping strip 814 are installed in the positioning grooves 812, one end of the spring II 813 is connected with the telescopic clamping strip 814, the telescopic clamping strip 814 extends out of the positioning grooves 812 and then blocks and positions the auger cylinder connecting section 22, when the auger cylinder connecting section 22 rolls over the telescopic clamping strip 814, the telescopic clamping strip 814 bounces under the action of the spring II 813, the auger cylinder connecting section 22 is blocked by the two telescopic clamping strips 814, limiting of the auger cylinder connecting section 22 is achieved, and the auger cylinder body 2 is more stably and safely disassembled.

Specifically, as shown in fig. 1, the front end of the header 1 is provided with the reference rod 9, the rear end of the header 1 is provided with the camera 10, the camera 10 transmits the reference rod 9 and the picture of the crop to be harvested to the image processing module, the image processing module compares the height signal transmission between the reference rod 9 and the crop to be harvested to the PLC, the PLC is connected with the reciprocating driving mechanism 4 to drive the screw feeder cylinder body 2 to move forwards or backwards for a set distance, so that the distance between the screw feeder cylinder body 2 and the cutting knife at the front end of the header 1 is suitable for the current crop to be harvested, and the phenomenon of conveying blockage or ear loss caused by the conveying can be avoided.

Specifically, as shown in fig. 9 and 10, the two ends of the auger barrel main body 21 are detachably connected with the segmented blades 14 with opposite rotation directions respectively, the auger barrel connecting section 22 is also detachably connected with the segmented blades 14, and the segmented blades 14 on the auger barrel connecting section 22 are the same as the rotation directions of the segmented blades 14 at one end of the auger barrel main body 21 adjacent to the segmented blades 14, so that feeding is conducted to the rear of the cutting table 1, and if the segmented blades 14 are damaged, the blades on the whole auger barrel main body 2 do not need to be replaced, and only the segmented blades 14 at the corresponding positions need to be replaced, so that the maintenance cost is reduced.

Wherein an auger barrel main part 21 and an auger barrel linkage segment 22 go up welded fastening has spiral slide rail 15 and location boss, the location boss can be along spiral slide rail 15 equipartition a plurality ofly, joint sectional type blade 14 and install on the boss of location through bolted connection spare on spiral slide rail 15, realized fixing sectional type blade 14 on spiral slide rail 15, make sectional type blade 14's dismantlement and installation more convenient, the work load that the whole blade of maintenance needs to be changed has been reduced, cost of maintenance is reduced.

The sectional type blade 14 comprises a spiral blade body 141 and an extending blade 142 which is elastically clamped and connected with the spiral blade body, and when the blade meets a blockage, the extending blade 142 can move in a telescopic mode, so that the problem of material blockage is further avoided.

The working principle of the device is as follows:

firstly, according to the size of the field where crops to be harvested are located, the number of the bottom plate 11, the back plate 12 and the auger cylinder connecting section 22 is adjusted, so that the width of the formed cutting table 1 is adaptive to the size of the field, the harvester can smoothly enter the field, and meanwhile, the harvesting efficiency is also guaranteed.

The header 1 is at the in-process of operation, under the not crops condition of co-altitude, relatively reference bar 9 and wait to receive the height signal transmission between the crop for PLC through image processing module, PLC judges the back-and-forth movement of screw feeder section of thick bamboo body 2. When judging that crops height is too high, can make auger barrel body 2 after motor II 41 drives, prevent that high-stalk crops from falling from header 1, causing the results loss. When judging that the crops height is too short, can prevent that crops from piling up in header 1 front portion with the 2 antedisplacement of an auger section of thick bamboo body, causing the jam, simultaneously, retractable's sectional type blade 14 can further cooperate, prevents the jam of an auger section of thick bamboo structure. The auger barrel body 2 drives the air blowing barrel 16 of the sliding table 432 in the process of moving back and forth, grains scattered in the header 1 are blown into the middle conveying belt 5, the conveying belt 5 rotates under the action of the motor II 41 and the gear mechanism II 6, and the grains scattered on the header 1 are smoothly fed into a device behind the harvester.

When the segmented blades 14 need to be repaired, each blade can be detached individually and the corresponding blade can be repaired. When other parts of the auger cylinder need to be maintained like an internal structure, the motor II 41 drives the reciprocating driving mechanism 4 to move, the auger cylinder body 2 is translated to the front of the whole cutting table 1, so that maintenance personnel can conveniently take out the auger cylinder from the front, and in the process of forward movement of the auger, the sliding table 432 touches the stop lever to extrude the stop lever, so that the supporting plate 81 transversely moves, and the auger cylinder connecting section 22 smoothly enters the upper part of the supporting plate 81 and completes stop positioning. Then, the motor i 31 rotates reversely, the screw sleeve 33 cannot rotate due to the locking of the ratchet mechanism 32, the reverse rotation of the motor i 31 is converted into the linear movement of the screw sleeve 33 on the output shaft of the motor i 31 by the screw thread in the screw sleeve 33, so that the support cylinder 23 connected with the screw sleeve 33 is driven to move towards the outer end of the auger cylinder body 2, the support cylinder 23 is separated from the auger cylinder main body 21, and the auger cylinder main body 21 or the auger cylinder connecting section 22 is detached as required.

When installing the screw feeder cylinder body 2 that will maintain after repairing back to header 1, cup joint screw feeder cylinder main part 21 and the screw feeder cylinder linkage segment 22 at both ends on supporting section of thick bamboo 23 and dock the back, rotate the bar key on the screw thread section of thick bamboo and dial the draw-in groove of putting the alignment card strip 72 bottom, get rid of the screw, card strip 72 makes card strip 72 die the screw thread section of thick bamboo card because gravity moves down, operation motor I31 makes its corotation this moment, and the screw thread section of thick bamboo is died by the card, the corotation of motor I31 converts into the linear motion that the screw thread section of thick bamboo was done along the direction of the output axial screw feeder cylinder main part 21 of motor I31, can accomplish the installation of screw feeder cylinder body 2. And finally, under the action of the motor II 41, the reciprocating driving mechanism 4 drives the auger cylinder body 2 to move and return.

To sum up, this harvester header screw feeder feeding device makes the installation and the dismantlement of a screw section of thick bamboo more convenient, swift, has reduced cost of maintenance, has avoided producing crops when reaping and has piled up and cause the problem of losing the ear of grain loss, is applicable to reaping in the field of multiple size, has guaranteed the smooth and easy efficiency of developing and reaping of reaping the operation.

While the foregoing is directed to the principles of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.