CN211881138U

CN211881138U - Threshing cylinder with adjustable threshing diameter and combine harvester

Info

Publication number: CN211881138U
Application number: CN202020217385.8U
Authority: CN
Inventors: 李耀明; 陈立鹏
Original assignee: Jiangsu University
Current assignee: Jiangsu University
Priority date: 2020-02-27
Filing date: 2020-02-27
Publication date: 2020-11-10
Anticipated expiration: 2030-02-27

Abstract

The utility model provides a threshing cylinder with adjustable threshing diameter and a combine harvester, wherein the threshing cylinder comprises a threshing cylinder, a diameter adjusting device and a driving device, and the diameter adjusting device is positioned at the inner sides of a front supporting breadth disc and a rear supporting breadth disc of the threshing cylinder; the driving device transmits power to the diameter adjusting device, the diameter of the roller can be adjusted in a stepless mode through the diameter adjusting device, and meanwhile the driving device can effectively lock the adjusted diameter of the roller to ensure the stability of roller operation. The utility model discloses can be in real time, convenient, quick adjustment combine's cylinder diameter of threshing for threshing cylinder's threshing line speed, threshing gap can be adjusted according to the results condition at any time, promote combine's threshing adaptability.

Description

Threshing cylinder with adjustable threshing diameter and combine harvester

Technical Field

The utility model relates to the technical field of harvesting machinery, in particular to a combine harvester for harvesting cereal crops, in particular to a threshing cylinder with adjustable threshing diameter and a combine harvester.

Background

The threshing cylinder is the core component of the threshing device of the combine harvester, and plays a role in threshing plants together with the concave sieve. The threshing gap of the threshing device is an important factor influencing the working quality of the combine harvester, the working conditions of the combine harvester can change in real time in the actual harvesting process, and the working performance of the combine harvester can be seriously influenced if the working parameters of the threshing device are not adjusted along with the change of the working conditions. The existing mode for changing the threshing gap is mainly to adjust the distance between a concave sieve and a threshing cylinder so as to change the whole threshing gap, but the adjustment mode can cause the uneven threshing gap in the threshing device and influence the fluidity of materials in the threshing device; secondly, only the threshing gap is singly changed, the linear velocity of the threshing element cannot be changed, and the threshing adaptability of the combined harvester is not greatly improved.

SUMMERY OF THE UTILITY MODEL

Exist not enoughly among the prior art, the utility model provides an automatic, real-time adjustable diameter threshing cylinder and combine, the regulative mode convenient and fast need not shut down and can realize the infinitely variable control of cylinder threshing diameter, has effectively improved threshing cylinder's dynamic balance stability.

The utility model discloses a realize above-mentioned technical purpose through following technological means.

A threshing cylinder with adjustable threshing diameter is characterized by comprising a threshing cylinder, a diameter adjusting device and a driving device;

the threshing cylinder comprises a cylinder shaft, a front supporting amplitude disc, a middle supporting amplitude disc, a rear supporting amplitude disc and a threshing tooth rod, wherein the front supporting amplitude disc, the middle supporting amplitude disc, the rear supporting amplitude disc and the threshing tooth rod are sequentially arranged on the cylinder shaft from front to back along the power transmission direction;

the driving device comprises a first shaft which is rotatably arranged on the shell of the gearbox, a second shaft which is rotatably sleeved on the drum shaft, a main shaft gear which is fixed on the drum shaft, a reduction gear train and an acceleration gear train which are arranged between the first shaft and the second shaft, wherein gears in the reduction gear train and the acceleration gear train are fixedly connected with the first shaft and are in relative rotating connection with the second shaft; a first shaft transmission gear meshed with the main shaft gear is fixed on the first shaft; the electric push rod is fixed on the shell of the gearbox, and the end part of the electric push rod is fixedly connected with the gear shifting fork; the gear shifting fork is sleeved in the synchronizer groove, and the synchronizer is positioned between the speed reducing gear train and the speed increasing gear train and is sleeved on the second shaft through a spline; a gear shifting clutch is fixed at the tail end of the second shaft; the driving disc is in contact with the gear shifting clutch, and a driving disc gear is fixed on the driving disc through a spline and is meshed with the locking clutch gear; one end of the locking clutch is fixed on the first shaft, and the other end of the locking clutch is fixedly connected with the locking clutch gear;

the diameter adjusting device comprises an inner sleeve, an outer sleeve, a connecting rod mechanism, a supporting plate, a supporting ring and a connecting rod, wherein the inner sleeve is rotatably arranged on the roller shaft, one end of the inner sleeve penetrates through the front amplitude-supporting disc to be fixedly connected with the driving disc, the inner sleeve is provided with threads, and the outer sleeve and the inner sleeve are in threaded connection to form a screw rod mechanism and are positioned between the front amplitude-supporting disc and the middle amplitude-supporting disc; the support ring is arranged on the roller shaft and positioned between the middle support amplitude disc and the rear support amplitude disc, and a connecting rod is connected between the outer sleeve and the support ring; support plates are fixed between the front support breadth disc and the middle support breadth disc and between the middle support breadth disc and the rear support breadth disc, and sliding chutes are formed in the support plates; two-section connecting rod mechanisms are respectively arranged on the outer sleeve and the support ring and are used for driving the threshing toothed bar to move in the radial direction of the threshing cylinder, and the middle hinge point of the two-section connecting rod mechanisms is limited in the sliding groove of the support plate.

The device further comprises a controller and a displacement sensor, wherein the displacement sensor is arranged on the front supporting amplitude disc, the middle supporting amplitude disc or the rear supporting amplitude disc and is used for detecting the moving distance of the threshing toothed bar; the displacement sensor is in communication connection with the controller, and the controller is further connected with the electric push rod, the gear shifting clutch and the locking clutch.

Further, the speed reducing gear train comprises a first shaft slow gear and a second shaft slow gear which are meshed with each other, and the speed increasing gear train comprises a first shaft fast gear and a second shaft fast gear which are meshed with each other; the first shaft fast gear and the first shaft slow gear are fixedly connected with the first shaft, and the second shaft fast gear and the second shaft slow gear are connected with the second shaft in a relatively rotating mode.

Further, the second shaft is sleeved on the drum shaft through a bearing; the first shaft is arranged on a gearbox shell through a bearing seat; the main shaft gear is connected with the drum shaft through a spline.

Furthermore, a second shaft fast gear and a second shaft slow gear are sleeved on the second shaft through bearings respectively.

Furthermore, the inner sleeve is sleeved on the main shaft through a bearing, and a bearing is arranged between the inner sleeve and the front amplitude supporting disc.

Further, a bearing is arranged between the connecting rod and the middle supporting amplitude disc.

Furthermore, the inner sleeve is sleeved on the main shaft through a bearing, and a bearing is arranged between the inner sleeve and the front amplitude support disc; the internal sleeve external thread is a trapezoidal thread.

Furthermore, the front supporting amplitude disc, the middle supporting amplitude disc and the rear supporting amplitude disc are all provided with I-shaped guide rails which are arranged in the radial direction, a toothed bar connecting rod is slidably arranged in the I-shaped guide rails, the threshing toothed bar is fixed at the end part of the toothed bar connecting rod, and the end part of the connecting rod mechanism is hinged on the toothed bar connecting rod.

A combine harvester is provided with the threshing cylinder with adjustable threshing diameter.

The utility model has the advantages that:

the utility model discloses a cylinder with adjustable threshing diameter, diameter adjusting device rotate along with threshing cylinder under the drive of cylinder shaft in the threshing process, the driving device is fixed on the frame of the combine harvester and does not rotate along with threshing cylinder, when the diameter of threshing cylinder needs to be adjusted according to different conditions in the harvesting process of the combine harvester, the electric push rod pushes the shifting fork to move left or right, the push synchronizer is meshed with the second shaft fast gear or the second shaft slow gear, and the gear shifting is completed; the synchronizer obtains power input, the power is transmitted to the gear shifting clutch through the second shaft, the gear shifting clutch is attracted, meanwhile, the locking clutch is separated, the driving disc is driven by the second shaft to start rotating, the rotating speed is inconsistent with the rotating speed of the roller and becomes faster or slower, a rotating speed difference is generated, and the inner sleeve is driven to rotate clockwise or anticlockwise relative to the roller; the inner sleeve rotates relative to the outer sleeve, the outer sleeve moves forwards or backwards through a screw mechanism formed by the inner sleeve and the outer sleeve, and the support ring is driven to synchronously move forwards or backwards through the long connecting rod. At the moment, the connecting rod mechanism enables the threshing toothed bar to ascend or descend, and the diameter of the roller is changed; when the diameter value meets the working requirement of the combine harvester, the shifting clutch is separated, and the locking clutch is engaged, at the moment, the driving disc is driven by the first shaft, the rotating speed is consistent with the rotating speed of the roller, the inner sleeve and the outer sleeve do not rotate relatively, and the diameter of the roller is locked. The screw mechanism formed by the inner sleeve and the outer sleeve adopts trapezoidal threads, has self-locking performance, and the driving device belongs to a two-stage locking mode, so that the locking performance of the threshing cylinder after the diameter of the threshing cylinder is adjusted can be effectively ensured, and the operation stability of the threshing cylinder is ensured.

In the utility model, the adjusting mode of adjusting the threshing diameter of the roller is convenient and fast, stepless adjustment of the threshing diameter of the roller can be realized without stopping the machine, the stepless adjusting mode is more flexible than the traditional step adjusting mode of the threshing diameter of the roller, when the combine harvester works in the field, a driver can input corresponding diameter value of the roller on a cab control interface in real time according to the actual conditions of maturity, water content, feeding amount of the combine harvester, loss rate, breaking rate and the like, or output adjusting and controlling instructions in a self-adaptive manner according to the data of the feeding amount, the loss rate, the breaking rate and the like, the controller compares the input diameter value with the current actual diameter value obtained by the displacement sensor, the diameter is determined to be enlarged or reduced, then output processing signals, the clutch is controlled to be locked for separation, the clutch is shifted, the different propulsion amounts of the electric push rod, and then different gear positions of the gearbox are selected, the diameter of the threshing cylinder is regulated in a stepless mode, when the actual diameter value transmitted by the displacement sensor is equal to the input diameter value, the controller outputs signals, and meanwhile, the locking clutch is controlled to suck and the shifting clutch is controlled to separate, so that the linear speed and the threshing gap of the threshing element are stabilized at the input value of the diameter, and the adaptability and the harvesting efficiency of the combine harvester are greatly improved.

The diameter adjusting device adopts trapezoidal thread drive, so the diameter adjusting device has self-locking property, and simultaneously adopts a double-clutch driving device, so that the diameter of the roller can be ensured to be locked or adjusted, thereby ensuring the operation stability of the threshing roller.

The threshing gap is changed by effectively controlling the threshing diameter of the roller, so that the threshing gap between the threshing roller and the concave plate sieve which is concentrically matched is equal everywhere, the conveying and passing capacity of materials is improved, and the blockage of the materials is avoided; the driving device is arranged outside the threshing cylinder and does not rotate together with the cylinder, and the diameter adjusting device is fixedly installed by taking the cylinder shaft as an axis, so that the dynamic balance stability of the threshing cylinder is effectively ensured, and the problems of unstable dynamic balance of the cylinder and the like caused by the addition of adjusting equipment can be avoided.

Drawings

FIG. 1 is a schematic view of the threshing cylinder of the present invention with adjustable threshing diameter.

Fig. 2 is a sectional view of a threshing cylinder structure with adjustable threshing diameter.

FIG. 3 is a front view of the diameter adjustment device and the drive device.

FIG. 4 is a sectional view showing the assembled relationship of the driving means on both sides of the front carrier web and the diameter adjusting means.

In the figure, the position of the upper end of the main shaft,

101. the novel threshing mechanism comprises a front supporting amplitude disc 102, a middle supporting amplitude disc 103, a rear supporting amplitude disc 104, a threshing tooth rod 105, a tooth rod connecting rod 106, a roller shaft 107, an I-shaped guide rail 108, a second shaft 201, a supporting plate 202, a connecting rod 203, an inner sleeve 204, an outer sleeve 205, a connecting rod 301, a gearbox shell 302, an electric push rod 303, a main shaft gear 304, a second shaft fast gear 305, a synchronizer 306, a second shaft slow gear, a 307 shifting clutch 308, a first shaft 309, a first shaft transmission gear 310, a first shaft fast gear 311, a first shaft slow gear 312, a locking clutch 313, a locking clutch gear 314, a driving disc gear 315, a driving disc 316 and a shifting fork.

Detailed Description

The invention will be further described with reference to the drawings and the following examples, but the scope of the invention is not limited thereto.

As shown in figure 1, the diameter-adjustable threshing cylinder of the utility model comprises a threshing cylinder, a diameter adjusting device and a driving device, wherein the diameter adjusting device is positioned inside the threshing cylinder, a front supporting amplitude disc 101 and a middle supporting amplitude disc 102 are run through, the driving device is positioned at the head part of the threshing cylinder and is arranged at the outer side of the front supporting amplitude disc 101 of the threshing cylinder.

The threshing cylinder comprises a cylinder shaft 106, a front supporting amplitude disc 101, a middle supporting amplitude disc 102 and a rear supporting amplitude disc 103 which are sequentially arranged on the cylinder shaft 106 from front to back along the power transmission direction, and threshing toothed bars 105 which are arranged on the front supporting amplitude disc 101, the rear supporting amplitude disc 103 and the rear supporting amplitude disc 103, wherein the threshing toothed bars 105 can move in the radial direction of the threshing cylinder. Specifically, in the embodiment, the threshing toothed bar 105 is welded with a toothed bar connecting rod 105 at the position where the threshing toothed bar 105 is contacted with the supporting amplitude disc, the toothed bar connecting rod 105 is arranged on the I-shaped guide rail 107 on the supporting amplitude disc, and the threshing toothed bar 105 moves in the radial direction of the threshing cylinder through the sliding of the toothed bar connecting rod 105 in the I-shaped guide rail 107, so that the diameter of the threshing cylinder is ensured to be variable.

As shown in fig. 2 and 3, the diameter adjusting means includes an inner sleeve 203, an outer sleeve 204, a link mechanism 202, a support plate 201, a connecting rod 205, and a support ring. The outer part of the inner sleeve 203 is provided with threads, and the inner sleeve 203 and the outer sleeve 204 are connected through the threads to form a screw rod mechanism and are positioned between the front amplitude supporting disc 101 and the middle amplitude supporting disc 102. The support ring is arranged on the roller shaft 106 and positioned between the middle support web disc 102 and the rear support web disc 103, and a connecting rod 205 is connected between the outer sleeve 204 and the support ring.

A support plate 201 is fixed between the front support breadth plate 101 and the middle support breadth plate 102, and between the middle support breadth plate 102 and the rear support breadth plate 103, and the support plate 201 is provided with a sliding groove. The link mechanism 202 is a two-section link mechanism, one end of one set of link mechanism 202 is hinged with the outer sleeve 204, and the other end is hinged with the rack bar connecting rod 105; one end of a set of linkage 202 is hinged to the support ring and the other end is hinged to the rack bar linkage 105. The middle hinge point of the two-segment link mechanism 202 is limited in the sliding groove of the supporting plate 201, the two-segment link mechanism is positioned in the supporting plate 201, and the middle hinge slides in the sliding groove of the supporting plate 201. Two sets of link mechanisms 202 are respectively positioned between the front supporting breadth disc 101 and the middle supporting breadth disc 102 and between the middle supporting breadth disc 102 and the rear supporting breadth disc 103.

Support plate 201, linkage 202 outer sleeve 204, support ring are rotatable with the support web. The inner sleeve 203 is sleeved on the drum shaft 106 through a bearing, and one end of the inner sleeve penetrates through the front width-supporting disc 101 to be fixedly connected with a driving disc 315 of the driving device in a welding mode. A bearing is provided between the inner sleeve 203 and the front spider 101. The inner sleeve 203 is driven by a driving disc 315, the driving device drives the inner sleeve and the outer sleeve to rotate at different speeds, so that the inner sleeve 203 rotates relative to the roller shaft 106, and the outer sleeve 204 moves on the inner sleeve 203 along with the screw mechanism under the action of the screw mechanism; the outer sleeve 204 drives the support rings to move synchronously by means of the connecting rods 205. The outer sleeve 204 and the support ring move through the link mechanism 202, and the middle hinge of the link mechanism 202 slides back and forth in the sliding groove of the support plate 201, so that the toothed bar connecting rod 105 moves up and down to drive the threshing toothed bar 105 to move in the radial direction of the threshing cylinder, and the diameter of the threshing cylinder is adjusted.

Further, the thread of the inner sleeve 203 is a trapezoidal thread, and is connected with the outer sleeve 204 through the trapezoidal thread, so that the self-locking property is achieved.

The driving device comprises a main shaft gear 303, a first shaft transmission gear 309, a second shaft fast gear 304, a second shaft slow gear 306, a first shaft fast gear 310, a first shaft slow gear 311, a synchronizer 305, a shifting fork 316, a shifting clutch 307, a driving plate gear 314, a locking clutch gear 313 and a locking clutch 312 which are positioned on the left side of the front supporting amplitude disc 101, and the mechanisms are positioned in a gearbox shell 301 at the head part of the threshing cylinder. The whole gear box is fixed on the frame of the combine harvester and does not rotate synchronously with the threshing cylinder.

The second shaft 108 is sleeved on the drum shaft 106 through a bearing, and a gear shifting clutch 307 is concentrically fixed at one end of the second shaft 108; the first shaft is fixed to the gearbox housing 301 by a bearing block. The main shaft gear 303 is connected to the drum shaft 106 through a spline, and is engaged with a first shaft transmission gear 309, and the first shaft transmission gear 309, a first shaft fast gear 310 and a first shaft slow gear 311 are concentrically fixed on a first shaft 308, and rotate synchronously. The second shaft fast gear 304 and the second shaft slow gear 306 are concentric with the drum shaft 106 and are sleeved on the second shaft through bearings. The second shaft fast-speed gear 304 and the first shaft fast-speed gear 310 are engaged with each other to function as a speed-increasing gear train, and the second shaft slow-speed gear 306 and the first shaft slow-speed gear 311 are engaged with each other to function as a speed-increasing gear train.

The electric push rod 302 is fixed on the gearbox shell 301, the head end of the electric push rod 302 is fixed with a shifting fork 316, the shifting fork 316 is sleeved in a groove of a synchronizer 305, the synchronizer 305 is positioned between a second shaft fast gear 304 and a second shaft slow gear 306 and sleeved on the second shaft 108 through a spline, and a shifting clutch 307 is fixed at the tail end of the second shaft 108 and can transmit torque transmitted from the second shaft to the shifting clutch 307; one end of the locking clutch 312 is fixed on the first shaft 108 and rotates synchronously with the first shaft 108, the other end is fixed with the locking clutch gear 313, the locking clutch 312 can transmit the first shaft power to the locking clutch gear 313, the driving plate gear 314 is meshed with the locking clutch gear 313, and the inside is fixed with the driving plate 315 through splines.

The driving device adopts two clutches, when the locking clutch 312 is engaged, the driving disk 315 is driven by the locking clutch, the rotating speed is consistent with the rotating speed of the roller, and the function of locking the diameter adjusting device is achieved; when the lock-up clutch 312 is disengaged, the driving disk 315 is driven by the shifting clutch 307, the diameter adjusting device starts to operate, and the two clutches are always kept in a state that one clutch is engaged and the other clutch is disengaged.

FIG. 4 shows an embodiment of a driving device, which is located on the side of the front supporting web 101, and shifts the power on the drum shaft 106 to drive the diameter adjusting mechanism, and when the locking clutch 313 is engaged, the driving disc is driven by the first shaft 308, and the rotating speed is the same as the rotating speed of the drum, and functions as a locking diameter adjusting device; when the locking clutch 313 is disengaged, the shifting clutch 307 is engaged, the drive plate 308 is driven by the second shaft and the diameter adjustment device starts to operate.

The threshing cylinder with adjustable threshing diameter has the following specific working processes: when the diameter of the threshing cylinder is required to be adjusted according to different conditions in the harvesting process of the combine harvester, the electric push rod 302 pushes the gear shifting fork 316 to move left and right, and pushes the synchronizer 305 to be meshed with the second shaft gear shifting gear to finish gear shifting;

the synchronizer 305 obtains power input, the power is transmitted to the gear shifting clutch 307 through the second shaft, the gear shifting clutch 307 is attracted, meanwhile, the locking clutch is separated, the driving disc is driven by the second shaft to start rotating, the rotating speed is different from the rotating speed of the roller, a rotating speed difference is generated, and the inner sleeve 203 is driven to rotate clockwise or anticlockwise relative to the roller;

the inner sleeve 203 rotates relative to the outer sleeve 204, the lead screw mechanism enables the outer sleeve 204 to advance or retreat, the other group of outer sleeves 204 is driven by the long connecting rod 202, at the moment, the connecting rod 202 mechanism enables the threshing toothed bar 105 to ascend or descend, and the diameter of the roller is changed;

when the diameter value reaches the working requirement of the combine harvester, the shifting clutch 307 is separated, and the locking clutch 312 is attracted, at the moment, the driving disc is driven by the first shaft 308, the rotating speed is consistent with the rotating speed of the roller, the inner sleeve and the outer sleeve do not rotate relatively, and the diameter of the roller is locked. The screw mechanism formed by the inner sleeve and the outer sleeve adopts trapezoidal threads, has self-locking performance, and the locking device belongs to a two-stage locking mode, so that the locking performance of the threshing cylinder after the diameter of the threshing cylinder is adjusted can be effectively ensured, and the operation stability of the threshing cylinder is ensured.

Furthermore, the threshing cylinder also comprises a controller and a displacement sensor, wherein the displacement sensor is arranged on the front supporting amplitude disc, the middle supporting amplitude disc or the rear supporting amplitude disc and is used for detecting the moving distance of the threshing toothed bar; the displacement sensor is in communication connection with the controller, and the controller is also connected with the electric push rod, the gear shifting clutch and the locking clutch; the controller controls the work of the electric push rod, the gear shifting clutch and the locking clutch according to the moving distance of the threshing rack detected by the displacement sensor, so that the starting and stopping of the regulation of the threshing rack are realized. The controller firstly controls the propelling amount of the electric push rod 302 according to a received threshing diameter adjusting instruction, the synchronizer 305 is enabled to be selectively meshed with a gear of a speed reducing gear train or a speed increasing gear train by pushing the gear shifting fork 316 to finish gear shifting, the gear shifting clutch 307 is controlled to be attracted and the locking clutch 312 is controlled to be separated during gear shifting, the synchronizer 305 drives the second shaft 108 and the gear shifting clutch 307 to enable the driving disc 315 and the roller shaft 106 to generate differential speed, the inner sleeve 203 rotates clockwise or anticlockwise relative to the roller shaft 106 to further drive the outer sleeve to move in the axial direction, and the connecting rod mechanism 202 drives the threshing toothed rod 105 to move in the radial direction of the threshing roller; the controller controls the pushing amount of the electric push rod 302 to be that the synchronizer 305 is meshed with gear threshing of a speed reducing gear train or a speed increasing gear train according to whether the moving distance of the threshing toothed bar 105 detected by the displacement sensor reaches an adjusting target, and meanwhile, the shifting clutch 307 is separated, and the locking clutch 312 is attracted to stop the adjustment of the threshing toothed bar 105.

Specifically, the threshing diameter adjusting instruction received by the controller is an artificially input adjusting instruction, namely, a driver inputs a corresponding roller diameter value in a cab control interface in real time according to the ripeness and the water content of grains and the actual conditions of the combined harvester, such as feeding amount, loss rate, crushing rate and the like. Or the self-adaptive control instruction is made according to the operation parameters in the real-time harvesting operation process of the combine harvester where the threshing cylinder is positioned, namely the self-adaptive control system of the combine harvester self-adaptively controls and outputs the control instruction according to the data such as feeding amount, loss rate, crushing rate and the like.

The embodiment is a preferred embodiment of the present invention, but the present invention is not limited to the above embodiment, and any obvious improvement, replacement or modification which can be made by those skilled in the art without departing from the essence of the present invention belongs to the protection scope of the present invention.

Claims

1. A threshing cylinder with adjustable threshing diameter is characterized by comprising a threshing cylinder, a diameter adjusting device and a driving device;

the threshing cylinder comprises a cylinder shaft (106), a front amplitude-supporting disc (101), a middle amplitude-supporting disc (102), a rear amplitude-supporting disc (103) and a threshing rack bar (105), wherein the front amplitude-supporting disc (101), the middle amplitude-supporting disc (102), the rear amplitude-supporting disc (103) and the threshing rack bar (105) are sequentially arranged on the cylinder shaft (106) from front to back along the power transmission direction, and the threshing rack bar (105) is movably arranged on the front amplitude-supporting disc (101), the middle amplitude-supporting disc (102) and the rear amplitude-supporting disc (103) in;

the driving device comprises a first shaft (308) which is rotatably arranged on a gearbox shell (301), a second shaft (108) which is rotatably sleeved on the drum shaft (106), a main shaft gear (303) which is fixed on the drum shaft (106), and a reduction gear train and a speed-up gear train which are arranged between the first shaft (308) and the second shaft (108), wherein gears in the reduction gear train and the speed-up gear train are fixedly connected with the first shaft (308) and are connected with the second shaft (108) in a manner of relative rotation; a first shaft transmission gear (309) meshed with the main shaft gear (303) is fixed on the first shaft (308); the electric push rod (302) is fixed on the gearbox shell (301), and the end part of the electric push rod is fixedly connected with the gear shifting fork (316); the gear shifting fork (316) is sleeved in a groove of the synchronizer (305), and the synchronizer (305) is positioned between the speed reducing gear train and the speed increasing gear train and sleeved on the second shaft (108) through a spline; a gear shifting clutch (307) is fixed at the tail end of the second shaft (108); the driving plate (315) is in contact with the shifting clutch (307), and the driving plate gear (314) is fixed on the driving plate (315) through a spline and is meshed with the locking clutch gear (313); one end of the locking clutch (312) is fixed on the first shaft (308), and the other end of the locking clutch is fixedly connected with the locking clutch gear (313);

the diameter adjusting device comprises an inner sleeve (203), an outer sleeve (204), a connecting rod mechanism, a supporting plate (201), a supporting ring and a connecting rod (205), wherein the inner sleeve (203) is rotatably arranged on the drum shaft (106), one end of the inner sleeve penetrates through the front supporting breadth disc (101) to be fixedly connected with a driving disc (315), the inner sleeve (203) is provided with a thread, and the outer sleeve (204) and the inner sleeve (203) are in threaded connection to form a screw rod mechanism and are positioned between the front supporting breadth disc (101) and the middle supporting breadth disc (102); the support ring is arranged on the roller shaft (106) and positioned between the middle support amplitude disc (102) and the rear support amplitude disc (103), and a connecting rod (205) is connected between the outer sleeve (204) and the support ring; a support plate (201) is fixed between the front support breadth disc (101) and the middle support breadth disc (102) and between the middle support breadth disc (102) and the rear support breadth disc (103), and a sliding groove is formed in the support plate (201); two-section connecting rod mechanisms (202) are respectively arranged on the outer sleeve (204) and the support ring and are used for driving the threshing toothed bar (105) to move in the radial direction of the threshing cylinder, and the middle hinge point of the two-section connecting rod mechanisms (202) is limited in the sliding groove of the support plate (201).

2. Threshing cylinder with adjustable threshing diameter according to claim 1, characterized in that: the device also comprises a controller and a displacement sensor, wherein the displacement sensor is arranged on the front supporting breadth disc (101), the middle supporting breadth disc (102) or the rear supporting breadth disc (103) and is used for detecting the moving distance of the threshing rack bar (105); the displacement sensor is in communication connection with a controller, and the controller is also connected with an electric push rod (302), a gear shifting clutch (307) and a locking clutch (312).

3. Threshing cylinder with adjustable threshing diameter according to claim 2, characterized in that: the speed reducing gear train comprises a first shaft slow gear (311) and a second shaft slow gear (306) which are meshed with each other, and the speed increasing gear train comprises a first shaft fast gear (310) and a second shaft fast gear (304) which are meshed with each other; the first shaft fast gear (310) and the first shaft slow gear (311) are fixedly connected with the first shaft (308), and the second shaft fast gear (304) and the second shaft slow gear (306) are connected with the second shaft (108) in a relatively rotatable manner.

4. Threshing cylinder with adjustable threshing diameter according to claim 3, characterized in that: the second shaft (108) is sleeved on the roller shaft (106) through a bearing; the first shaft (308) is mounted to the transmission housing (301) by a bearing mount.

5. Threshing cylinder with adjustable threshing diameter according to claim 3, characterized in that: the main shaft gear (303) is connected to the drum shaft (106) through a spline; the second shaft fast gear (304) and the second shaft slow gear (306) are sleeved on the second shaft (108) through bearings respectively.

6. Threshing cylinder with adjustable threshing diameter according to claim 2, characterized in that: the inner sleeve (203) is sleeved on the main shaft through a bearing, and a bearing is arranged between the inner sleeve (203) and the front amplitude supporting disc (101).

7. Threshing cylinder with adjustable threshing diameter according to claim 3, characterized in that: and a bearing is arranged between the connecting rod (205) and the middle supporting amplitude disc (102).

8. Threshing cylinder with adjustable threshing diameter according to claim 2, characterized in that: the external thread of the inner sleeve (203) is a trapezoidal thread.

9. Threshing cylinder with adjustable threshing diameter according to claim 4, characterized in that: the front supporting breadth disc (101), the middle supporting breadth disc (102) and the rear supporting breadth disc (103) are all provided with radial I-shaped guide rails (107), a toothed bar connecting rod is slidably arranged in the I-shaped guide rails (107), a threshing toothed bar (105) is fixed at the end part of the toothed bar connecting rod, and the end part of the connecting rod mechanism (202) is hinged on the toothed bar connecting rod.

10. A combine harvester equipped with a threshing cylinder with adjustable threshing diameter according to any of claims 1-9.