CN214708800U - Longitudinal axial flow grain combine harvester centralized transmission system and grain combine harvester - Google Patents

Abstract

The utility model relates to a axis of ordinates flows cereal combine and concentrates transmission system and cereal combine, axis of ordinates flows cereal combine and concentrates transmission system, all have the engine of output shaft including both ends, engine both ends output shaft in one be connected with power take off, another and cereal combine's traveling system is connected. The power output device is connected with the middle transition shaft assembly and the front roller gear box, and provides power for the middle transition shaft assembly and the front roller gear box. The middle transition shaft assembly is connected with a threshing and cleaning assembly and a chopping and impurity discharging assembly of the grain combine harvester, and the middle transition shaft assembly provides power for the threshing and cleaning assembly and the chopping and impurity discharging assembly. The utility model discloses the engine height reduces, has reduced cereal combine's focus, improves stability. Meanwhile, the transmission is centralized in layout, and the transmission reliability is improved.

Description

Longitudinal axial flow grain combine harvester centralized transmission system and grain combine harvester

Technical Field

The utility model belongs to the technical field of agricultural machine, concretely relates to for axis of ordinates flows cereal combine centralized transmission system and cereal combine.

Background

Most of engines of the existing longitudinal axial flow grain combine harvester are laterally arranged and rear arranged, the size requirement of the laterally arranged engines on the engines is high, power is difficult to greatly improve, the gravity center of the whole harvester is easy to be unstable, and safety is affected; the engine of the rear engine is high in height, is far away from a transmission route such as a gearbox and the like, needs a long V-belt or chain, and is easy to cause unreliable transmission.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: overcome prior art's not enough, provide a axis of ordinates and flow grain combine and concentrate transmission system and grain combine, the utility model discloses the engine height reduces, has reduced grain combine's focus, improves stability. Meanwhile, the transmission is centralized in layout, and the transmission reliability is improved.

The utility model provides a technical scheme that the problem that prior art exists adopted is:

the centralized transmission system of the longitudinal axial flow grain combine harvester comprises an engine with output shafts at two ends, wherein one of the output shafts at two ends of the engine is connected with a power output device, and the other output shaft is connected with a traveling system of the grain combine harvester.

The power output device is connected with the middle transition shaft assembly and the front roller gear box, and provides power for the middle transition shaft assembly and the front roller gear box.

The middle transition shaft assembly is connected with a threshing and cleaning assembly and a chopping and impurity discharging assembly of the grain combine harvester, and the middle transition shaft assembly provides power for the threshing and cleaning assembly and the chopping and impurity discharging assembly.

It is preferred. The power output device is in gear transmission with the middle transition shaft assembly and the front roller gear box.

The intermediate transition shaft assembly is in gear transmission with a threshing and cleaning assembly and a chopping and impurity discharging assembly of the grain combine harvester.

Preferably, the power output device, the intermediate transition shaft assembly and the front roller gear box are in any one of belt transmission and chain transmission.

The intermediate transition shaft assembly, the threshing and cleaning assembly and the chopping and impurity discharging assembly of the grain combine harvester are driven by either a belt drive or a chain drive.

Preferably, the intermediate transition shaft assembly is connected with a cleaning fan of the threshing and cleaning assembly and a chopping transition wheel of the chopping and impurity discharging assembly.

Preferably, an elastic tensioning assembly is arranged on one side of a synchronous belt or a chain between the power output device and the middle transition shaft assembly as well as between the power output device and the front roller gear box.

The middle transition shaft assembly, the cleaning fan of the threshing cleaning assembly and the chopping transition wheel of the chopping impurity discharging assembly are provided with elastic tensioning assemblies at one side of a synchronous belt or a chain.

Preferably, the elastic tensioning assembly comprises a tensioning wheel, a tensioning support, a tensioning spring and a pull rod, wherein a rotating shaft and the tensioning wheel are respectively and rotatably arranged at two ends of the tensioning support in the length direction, and the tensioning wheel and the rotating shaft are respectively positioned at two opposite sides of the tensioning support.

The center pin is arranged in the middle of the tensioning wheel in a penetrating mode, one end of the center pin penetrates through the tensioning support and is fixedly connected with one end of the tensioning spring, and the other end of the tensioning spring is fixedly connected with the pull rod.

The rotating shaft and the pull rod are both fixedly connected with the body of the grain combine harvester.

The tension pulley is contacted with the synchronous belt or the chain.

Preferably, the power output device comprises a power output belt wheel and a clutch, wherein the input end of the clutch is connected with the output shaft of the engine, and the output end of the clutch is connected with the power output belt wheel.

Preferably, the front roller gear box comprises a gear box body, the input end of the gear box body is provided with a roller gear box input belt wheel, and the output end of the gear box body is provided with a roller input shaft.

The roller gear box input belt wheel is connected with the power output device and the gap bridge assembly belt or chain.

The input shaft of the roller is connected with a threshing system of the grain combine harvester, and the input shaft of the roller provides power for the threshing system of the grain combine harvester.

Preferably, one of output shafts at two ends of the engine is connected with a walking pump assembly belt or a chain of a walking system of the grain combine harvester.

The grain combine harvester comprises a longitudinal axial flow grain combine harvester centralized transmission system, and axial flow drums of the grain combine harvester are arranged in a mode that the front portions are low and the rear portions are high.

The engine is arranged at the rear side of the cab of the grain combine harvester, in front of the granary and in front of and above the axial-flow roller, and the intermediate transition shaft assembly is arranged on the outer wall of the threshing and cleaning assembly.

Compared with the prior art, the utility model discloses beneficial effect who has:

(1) the engine is arranged in the front upper part of the axial flow roller, and compared with the machine type of a rear engine, the height of the engine can be effectively reduced, the gravity center of the grain combine harvester is reduced, and the stability is improved.

(2) The walking system of the grain combine harvester and all the working power of the whole grain combine harvester except the walking system are respectively provided by the power output belt wheels at two sides of the engine, and most of the transmission is positioned at one side of the whole harvester, so that the arrangement of the transmission system is simplified, the reliability of the whole harvester is improved, and the maintenance is convenient.

(3) The main transmission is mainly V-belt transmission, which is reliable and has low noise.

(4) All the outside of the synchronous belts or chains for transmission is provided with the elastic tensioning assembly, so that the synchronous belts or chains are tensioned by adopting elastic tensioning, the reliability is high, and frequent adjustment is not needed.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a view of the outline of the central transmission system of the longitudinal axial flow grain combine harvester of the utility model,

FIG. 2 is a left side view of the central transmission system of the longitudinal axial flow grain combine harvester of the utility model,

FIG. 3 is a right side view of the central transmission system of the longitudinal axial flow grain combine harvester of the utility model,

FIG. 4 is a front roller gear box structure diagram of the central transmission system of the longitudinal axial flow grain combine harvester

FIG. 5 is a structural view of the gap bridge assembly of the central transmission system of the longitudinal axial flow grain combine harvester of the utility model,

FIG. 6 is a structural diagram of the elastic tension assembly of the centralized transmission system of the longitudinal axial flow grain combine harvester of the utility model,

FIG. 7 is a structural diagram of a walking pump transmission system of the centralized transmission system of the longitudinal axial flow grain combine harvester of the utility model,

FIG. 8 is a top view of the walking pump transmission system of the vertical axial flow grain combine of the present invention,

fig. 9 is a shape diagram of the grain combine harvester of the utility model.

In the figure: 1-chassis, 2-threshing cleaning assembly, 3-engine, 4-power output device, 5-middle transition shaft assembly, 6-front roller gear box, 601-roller gear box input belt wheel, 602-gear box body, 603-roller input shaft, 7-gap bridge input shaft, 701-gap bridge input shaft belt wheel, 8-gap bridge assembly, 801-gap bridge drive shaft, 802-gap bridge output belt wheel, 9-cleaning fan, 10-kernel screw, 11-reverse belt wheel, 12-miscellaneous screw, 13-cutting transition wheel, 14-screen box drive belt wheel, 15-rear cutting device, 16-upper concave plate assembly, 17-elastic tensioning assembly, 1701-tensioning wheel, 1702-tensioning bracket, 1703-tensioning spring assembly, 1704-pull rod, 18-unloading tension wheel, 19-grain elevator, 20-impurity elevator, 21-walking pump assembly, 2101-walking pump, 2102-walking pump seat, 2103-pump input belt wheel, 22-vertical unloading barrel, 23-unloading input belt wheel, 24-cab, 25-granary and 26-axial flow roller.

Detailed Description

The accompanying drawings are preferred embodiments of the vertical axial flow grain combine harvester centralized transmission system and the grain combine harvester, and the invention is further described in detail with reference to the accompanying drawings.

As shown in attached drawings 1, 2 and 3, the longitudinal axial flow grain combine harvester centralized transmission system comprises an engine 3 with output shafts at two ends, wherein one of the output shafts at two ends of the engine 3 is connected with a power output device 4, and the other output shaft is connected with a walking system of the grain combine harvester. In this embodiment, power take-off 4 installs and cereal combine's left side, drives all the operating member operation of cereal combine, and all the operating member transmission of cereal combine are concentrated in the automobile body left side, the management of being convenient for.

The walking system of the grain combine harvester is the prior art, and the output shaft of the engine 3 is connected with a walking pump assembly 21 of the walking system by a belt or a chain. As shown in fig. 8, the traveling pump assembly 21 includes a traveling pump 2101, a traveling pump base 2102, and a pump input pulley 2103. The walking pump 2101 is fixed on the grain combine body by a walking pump seat 2102, and the input end of the walking pump 2101 is provided with a pump input belt pulley 2103. The output shaft of the engine 3 is connected with a pump input belt wheel 2103 through a synchronous belt, and power required by work is provided for the walking pump 2101. The walking pump 2101 drives a motor in the walking system through a hydraulic system, and the motor drives wheels or a track through a gearbox to realize walking of the grain combine harvester.

As shown in fig. 3, the input belt pulley 2103 of the walking pump also transmits power to the belt pulley 23 of the grain unloading barrel, and the belt pulley 23 of the grain unloading barrel controls the grain unloading of the vertical grain unloading barrel 22.

The walking pump input belt pulley 2103 is connected or communicated with the grain unloading barrel belt pulley 23 through a synchronous belt, a grain unloading clutch device is arranged between the walking pump input belt pulley and the grain unloading barrel belt pulley, and grain unloading is realized through a grain unloading handle. As shown in fig. 7 and 8, the grain unloading transmission is provided by the walking pump, and the walking pump always works in a stopped state when grain unloading is performed, so that the utilization rate of the power of the engine 3 can be improved.

Meanwhile, in order to avoid the loosening of a synchronous belt or a chain between the input belt wheel 2103 of the walking pump and the belt wheel 23 of the grain unloading barrel, a grain unloading tension wheel 18 is arranged outside the synchronous belt or the chain, and the structure of the grain unloading tension wheel 18 is the same as that of the elastic tension assembly 17.

The power output device 4 is connected with the middle transition shaft assembly 5 and the front roller gear box 6, and the power output device 4 provides power for the middle transition shaft assembly 5 and the front roller gear box 6.

The power output device 4, the intermediate transition shaft assembly 5 and the front roller gear box 6 are in belt transmission or chain transmission or gear transmission. The intermediate transition shaft assembly 5, the threshing and cleaning assembly 2 of the grain combine harvester and the chopping and impurity discharging assembly are in any one of belt transmission, chain transmission or gear transmission. In order to simplify the transmission system, the transmission connection in this embodiment is implemented by a synchronous belt or a chain, preferably a transmission belt.

The power output device 4 comprises a power output belt wheel and a clutch, the input end of the clutch is connected with the output shaft of the engine 3, and the output end of the clutch is connected with the power output belt wheel. The clutch adopts a friction plate type and is controlled by a hydraulic main clutch oil cylinder on the grain combine harvester, and electric control one-key operation can be realized. The hydraulic main clutch cylinder is fixed on the shell of the power output device 4 and directly controls the work clutch of the whole machine.

The middle transition shaft assembly 5 is arranged at the left side of the grain combine harvester and at the rear lower part of the engine 3. After the engine 3 transmits power to the intermediate transition shaft assembly 5, the intermediate transition shaft assembly 5 transmits power to the threshing and cleaning assembly 2 and the chopping and impurity removing assembly of the grain combine harvester.

The belt pulley of the intermediate transition shaft assembly 5 is connected with the cleaning fan 9 of the threshing cleaning assembly 2 and the chopping transition wheel 13 of the chopping and impurity discharging assembly through a synchronous belt.

The threshing and cleaning assembly 2 is arranged above the chassis 1, and an upper concave plate assembly 16 is arranged above the threshing and cleaning assembly.

After the middle transition shaft assembly 5 transmits power to the cleaning fan 9, the cleaning fan 9 transmits the power to the seed grain auger 10 and the tailing auger 12 through the synchronous belt, and the seed grain auger 10 and the tailing auger 12 respectively drive the seed grain elevator 19 and the tailing elevator 20 to complete corresponding material conveying.

A reverse belt wheel 11 is arranged between the cleaning fan 9 and the tailing auger 12, transmission is changed in direction through the reverse belt wheel 11, then a screen box driving wheel 14 is driven to provide power required by work for the screen box, and cleaning operation is carried out through rotation shaking of the screen box and wind power of the cleaning fan 9.

The intermediate transition shaft assembly 5 transmits power to the chopping transition wheel 13 through a synchronous belt, and drives the rear chopping device 15 to work after being accelerated, so as to complete chopping and throwing of the straws.

The front roller gear box 6 is positioned at the front end of the threshing roller of the grain combine harvester and used for reducing the speed of the power transmitted by the engine 3, so that the transmission torque is larger. The front roller gear box 6 provides power for the threshing system after changing back, and the power at the front end of the roller is input, so that the space can be saved, and unnecessary transition transmission is reduced.

The front roller gear box 6 comprises a gear box body 602, a roller gear box input belt wheel 601 is arranged at the input end of the gear box body 602, a roller input shaft 603 is arranged at the output end of the gear box body 602, the roller gear box input belt wheel 601 is in belt connection or chain connection with the power output device 4 and the gap bridge assembly 8, and the front roller gear box is in belt connection through a synchronous belt.

The roller input shaft 603 is connected with a threshing system of the grain combine harvester, and the roller input shaft 603 provides power for the threshing system of the grain combine harvester.

The intermediate assembly 8 comprises an intermediate driving shaft 801 and an intermediate output belt wheel 802 coaxially and fixedly connected with the intermediate driving shaft 801.

The connection relation between the roller gear box input belt pulley 601 and the gap bridge assembly 8 is that the roller gear box input belt pulley 601 is connected with a gap bridge input shaft belt pulley 701 fixed on the gap bridge input shaft 7 through a synchronous belt, the gap bridge input shaft 7 is connected with a gap bridge driving shaft 801 through a spline and a spline sleeve, the gap bridge driving shaft 801 mainly provides power for a gap bridge input chain harrow, and the power is transmitted to a cutting table of the grain combine harvester through a gap bridge output belt pulley 802.

An elastic tensioning assembly 17 is arranged outside each synchronous belt or chain in the centralized transmission system of the longitudinal axial flow grain combine harvester. As shown in fig. 6, the elastic tensioning assembly 17 includes a tensioning wheel 1701, a tensioning bracket 1702, a tensioning spring 1703 and a pull rod 1704, wherein both ends of the tensioning bracket 1702 in the length direction are respectively provided with a rotating shaft and the tensioning wheel 1701, and the tensioning wheel 1701 and the rotating shaft are respectively located at two opposite sides of the tensioning bracket 1702.

A central shaft penetrates through the middle of the tension wheel 1701, one end of the central shaft penetrates through the tension bracket 1702 and is fixedly connected with one end of a tension spring 1703, and the other end of the tension spring 1703 is fixedly connected with the pull rod 1704.

The rotating shaft and the pull rod 1704 are both fixedly connected with the body of the grain combine harvester, and the tension pulley 1701 is in contact with a synchronous belt or a chain.

The grain combine adopts the prior art except a longitudinal axial flow grain combine centralized transmission system. As shown in the attached figure 9, axial flow rollers 26 of the grain combine harvester are arranged in a mode that the front part is low and the rear part is high, an engine 3 is arranged on the rear side of a cab 24 of the grain combine harvester, in front of a grain bin 25 and in front of and above the axial flow rollers 26, and a middle transition shaft assembly 5 is arranged on the outer wall of a threshing and cleaning assembly 2.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the gist of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. The centralized transmission system of the longitudinal axial flow grain combine harvester comprises an engine (3) with output shafts at two ends, and is characterized in that:

one of output shafts at two ends of the engine (3) is connected with a power output device (4), the other output shaft is connected with a traveling system of the grain combine harvester,

the power output device (4) is connected with the middle transition shaft assembly (5) and the front roller gear box (6), the power output device (4) provides power for the middle transition shaft assembly (5) and the front roller gear box (6),

the middle transition shaft assembly (5) is connected with a threshing and cleaning assembly (2) and a chopping and impurity discharging assembly of the grain combine harvester, and the middle transition shaft assembly (5) provides power for the threshing and cleaning assembly (2) and the chopping and impurity discharging assembly.

2. The longitudinal axis flow grain combine central drive system of claim 1, further comprising:

the power output device (4) is in gear transmission with the middle transition shaft assembly (5) and the front roller gear box (6),

the intermediate transition shaft assembly (5), the threshing and cleaning assembly (2) of the grain combine harvester and the chopping and impurity discharging assembly are in gear transmission.

3. The longitudinal axis flow grain combine central drive system of claim 1, further comprising:

the power output device (4), the middle transition shaft assembly (5) and the front roller gear box (6) are any one of belt transmission or chain transmission,

the intermediate transition shaft assembly (5), the threshing and cleaning assembly (2) and the chopping and impurity discharging assembly of the grain combine harvester are in any one of belt transmission or chain transmission.

4. The longitudinal axis flow grain combine central drive system of claim 3, further comprising:

the middle transition shaft assembly (5) is connected with a cleaning fan (9) of the threshing and cleaning assembly (2) and a chopping transition wheel (13) of the chopping and impurity discharging assembly.

5. The longitudinal axis flow grain combine central transmission system of claim 4, wherein:

an elastic tensioning assembly (17) is arranged at one side of a synchronous belt or a chain between the power output device (4) and the middle transition shaft assembly (5) as well as the front roller gear box (6),

the middle transition shaft assembly (5), the cleaning fan (9) of the threshing cleaning assembly (2) and the chopping transition wheel (13) of the chopping and impurity discharging assembly are provided with elastic tensioning assemblies (17) on one side of a synchronous belt or a chain.

6. The longitudinal axis flow grain combine central drive system of claim 5, further comprising:

the elastic tensioning assembly (17) comprises a tensioning wheel (1701), a tensioning bracket (1702), a tensioning spring (1703) and a pull rod (1704), wherein a rotating shaft and the tensioning wheel (1701) are respectively arranged at two ends of the tensioning bracket (1702) in the length direction in a rotating manner, the tensioning wheel (1701) and the rotating shaft are respectively positioned at two opposite sides of the tensioning bracket (1702),

a central shaft is arranged in the middle of the tension wheel (1701) in a penetrating way, one end of the central shaft passes through the tension bracket (1702) and is fixedly connected with one end of the tension spring (1703), the other end of the tension spring (1703) is fixedly connected with the pull rod (1704),

the rotating shaft and the pull rod (1704) are both fixedly connected with the body of the grain combine harvester,

the tensioner (1701) is in contact with a timing belt or chain.

7. The central drive system of a longitudinal axial flow grain combine harvester according to any one of claims 1 to 6, wherein:

the power output device (4) comprises a power output belt wheel and a clutch, the input end of the clutch is connected with the output shaft of the engine (3), and the output end of the clutch is connected with the power output belt wheel.

8. The longitudinal axis flow grain combine central drive system of claim 7, further comprising:

the front roller gear box (6) comprises a gear box body (602), the input end of the gear box body (602) is provided with a roller gear box input belt wheel (601), the output end is provided with a roller input shaft (603),

the roller gear box input belt wheel (601) is connected with the power output device (4) and the gap bridge assembly (8) by a belt or a chain,

the roller input shaft (603) is connected with a threshing system of the grain combine harvester, and the roller input shaft (603) provides power for the threshing system of the grain combine harvester.

9. The longitudinal axis flow grain combine central drive system of claim 8, further comprising:

one of output shafts at two ends of the engine (3) is connected with a walking pump assembly (21) of a walking system of the grain combine harvester by a belt or a chain.

10. A grain combine comprising the longitudinal axial flow grain combine central drive system of claim 9, wherein:

axial flow drums of the grain combine harvester are arranged in a mode that the front part is low and the rear part is high,

the engine (3) is arranged at the rear side of the cab of the grain combine harvester, in front of the granary and in front of and above the axial flow roller,

the middle transition shaft assembly (5) is arranged on the outer wall of the threshing and cleaning assembly (2).

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