KR102207702B1 - Combine - Google Patents

Abstract

An object of the present invention is to provide a combine that is easy to perform maintenance work.
A harvesting unit for harvesting upright grain stems and conveying them to the rear, an engine 7 for driving located in a portion near one side of the vehicle lateral width direction, a cutting input shaft 103 extending along the lateral width direction of the aircraft, and an engine 7 ) Is provided with an input power transmission mechanism 104 that transmits the power from the mowing input shaft 103 to the other portion of the vehicle in the transverse direction of the vehicle.

Description

Combine {COMBINE}

The present invention relates to a combine that mows upright grain stems and threshing while running the aircraft.

In the conventional combine, there was one structured as follows.

That is, it is provided with a harvesting unit that mows upright grain stems in the front of the aircraft and conveys them to the rear, and is configured to thresher the harvested grain stems by the threshing unit provided in the rear part of the aircraft, and is located in the right front part of the aircraft. It is configured to drive the mowing unit or the threshing unit by the power of the engine provided below the negative. And it was configured to transmit the power of the engine to the mowing input shaft extending along the lateral width direction of the aircraft to the side where the engine is located, that is, to the right end of the aircraft (see, for example, Patent Document 1). ). In this configuration, the power of the engine is input to the harvesting input shaft of the lateral attitude positioned above the horizontal axis center for lifting of the harvesting unit, so that a good transmission state can be maintained regardless of the lifting operation of the harvesting unit.

In addition, the engine power is shifted through a mowing transmission including a continuously variable transmission, for example, and then transmitted to the mowing unit.This mowing transmission is located inside the engine in the transverse direction of the engine and is located in the transverse direction. It was arranged in a lined state. In other words, the engine and the mowing transmission were disposed in a state positioned at a site near one side of the vehicle lateral width direction, respectively (see, for example, Patent Document 1). In the above configuration, the driving speed of the mowing unit with respect to the vehicle running speed is changed and adjusted by the mowing transmission according to the type of crop to be mowed or the difference in the lounging state of the crop. Regardless of the difference in the state of robes, it is possible to perform appropriate mowing work.

Japanese Patent Publication No. 2008-72991

In the above conventional configuration, the power of the engine is transmitted to the side where the engine is located on the mowing input shaft, that is, to the end of the right side of the aircraft, so there are disadvantages as follows.

In the transmission mechanism for transmitting the power of the engine to the mowing input shaft, for example, an endless rotation table such as a transmission belt or a transmission chain is wound and mounted to transmit power. In addition, since the endless rotating table may be damaged or damaged due to long-term use, maintenance work such as inspection or repair replacement is required.

However, in the above conventional configuration, the power transmission mechanism for transmitting power to the harvesting input shaft as described above is provided on the side of the harvesting input shaft where the engine is located, that is, in a deep and narrow portion inside the aircraft far away from the left end in the horizontal direction of the aircraft. do. In addition, since the boarding operation unit is present on the right side of the vehicle on the harvesting input shaft, maintenance work cannot be performed from the right outside the vehicle lateral width direction.

As a result, since the operator cannot put his or her hands in from the outside in the widthwise direction of the aircraft, it takes a lot of troublesome work such as separating the mowing part from the traveling aircraft to open the part where the power mechanism is present. The work had to be performed in a narrow area, and it became difficult to perform the maintenance work as described above.

In addition, in the combine of the configuration that can move the mowing part to the maintenance position located horizontally and outward by rotating the mowing part around the longitudinal axis located on the left side of the aircraft, power is transmitted to the mowing input shaft when the mowing part is switched to the maintenance position. It is necessary to remove the endless meeting table for the purpose. However, in the above conventional configuration, as described above, since the transmission mechanism is provided in a deep and narrow area inside the aircraft far from the left end in the transverse direction of the aircraft, the endless pivoting table is removed when the mowing unit is switched to the maintenance position. There was a disadvantage that the work became cumbersome.

In addition, in the above-described conventional configuration, there is a disadvantage in that it is difficult to perform maintenance work on a transmission mechanism that transmits the power of the engine to the mowing transmission device or a transmission mechanism that transmits the power after the shift of the mowing transmission device to the mowing unit.

Incidentally, the transmission mechanism as described above is provided with an endless rotating belt such as a transmission belt, and the endless rotating belt may be damaged or damaged due to long-term use, such as inspection or repair replacement. Maintenance work becomes necessary. Moreover, it is not limited to a transmission mechanism, and maintenance work, such as repair or adjustment, is also required for a mowing transmission.

However, in the conventional configuration, since the mowing transmission is provided in a state that is located inside the vehicle lateral width direction, the mowing transmission or transmission mechanism is provided in a deep and narrow portion inside the vehicle far from the outer end in the lateral width direction of the vehicle. As a result, since the operator cannot put his or her hands in from the outside in the widthwise direction of the aircraft, it takes a lot of troublesome work such as separating the mowing part from the traveling aircraft to open the part where the power mechanism is present. Work must be carried out in a narrow area, and it has become difficult to perform the above-described repair or adjustment work.

An object of the present invention is to provide a combine in which maintenance work is easy.

Further, an object of the present invention is to provide a combine that is easy to perform maintenance work.

The characteristic configuration of the combine according to the present invention includes a harvesting unit that mows upright grain stems and conveys them to the rear, an engine for driving located in a portion near one side in the widthwise direction of the aircraft, and a harvesting input shaft extending along the widthwise direction of the aircraft. And an input power transmission mechanism for transmitting the power from the engine to the other part of the mowing input shaft in the transverse direction of the vehicle is provided.

According to the present invention, the engine for driving is provided in a state located at a portion near one side of the body's width direction, and the power of the engine is provided through an input transmission mechanism and the body of the mowing input shaft extending along the body's width direction. It is transmitted to the other part in the transverse direction.

That is, the power transmission mechanism for input is provided at a position corresponding to the end of the mowing input shaft on the side opposite to the engine in the transverse direction of the vehicle. By the way, in the combine, since the end opposite to such an engine in the transverse direction of the aircraft constitutes a conveying path for conveying the harvested grain stem to the rear threshing part, there is no large-sized device and is located in a state facing the transverse and outward sides of the aircraft.

As a result, in the case of carrying out maintenance work of the power mechanism from the side or outside of the aircraft, or in the case of removing the endless rotation table of the power mechanism, the power mechanism is located near the operator, so the operator is subject to maintenance. You can easily get your hand close to the position, so you can work in a hassle-free state.

Therefore, it has come to be able to provide a combine that is easy to perform maintenance work.

In the present invention, it is preferable that power is transmitted to the harvesting portion from an intermediate position in the horizontal direction of the vehicle in the harvesting input shaft through a relay transmission mechanism and a forward-rear transmission shaft extending along the front-rear direction of the vehicle.

According to this configuration, power is transmitted from an intermediate position in the vehicle transverse direction in the harvesting input shaft extending along the transverse direction of the aircraft to the forward and backward transmission shaft extending along the longitudinal direction of the aircraft through a relay transmission mechanism, and the forward and backward directions Power is transmitted from the transmission shaft to the mowing section.

When the mowing unit is swinging up and down around the axial center of the mowing input shaft, power can be transmitted to the mowing unit through the front-rear transmission shaft in a state where the position of the mowing input shaft is not changed. In other words, it is possible to maintain a satisfactory rolling state with respect to the harvesting portion while having a configuration in which the harvesting portion is supported so as to be elevating and descending.

In the present invention, a supply conveying device for supplying and conveying mowing grain stems from the conveying end of the mowing unit toward the threshing feed chain is provided, and the input transmission is provided at the other part of the mowing input shaft in the transverse direction of the aircraft. It is suitable as long as it includes an input electric rotating body in the mechanism and a supply/transport transmission mechanism that transmits power from the harvesting input shaft to the supply/conveyor device.

According to this configuration, an input electric rotating body and a supply/transport transmission mechanism are provided at the other part of the harvesting input shaft in the horizontal direction of the aircraft, and power is input to the harvesting input shaft through the input electric rotating body, and is transferred to the harvesting unit. While the motion is transmitted, power is transmitted to the supply conveying device via the transmission mechanism for supply conveyance.

In this way, it is possible to effectively use the power transmitted to the harvesting input shaft to drive the supply and transport device, and at the same time, the supply and transport device is driven at a speed corresponding to the driving speed of the harvesting unit. The transfer will be performed smoothly. In addition, since the electric rotating body for input and the transmission mechanism for supply and conveyance are provided at the other part in the lateral width direction of the body, it becomes easy to perform maintenance work on them.

In the present invention, it is preferable that the feed and transport transmission mechanism is provided in a state in the other portion of the harvesting input shaft in the transverse direction of the aircraft, located inside the transverse direction of the aircraft than the supply and transport device.

According to this configuration, since the power transmission mechanism for supply and transport to which power is transmitted from the engine is provided in a state that is located inside the body widthwise direction than the supply and transport device, for example, the power transmission mechanism for supply and transport is located outside the body width direction. Compared with the case, the engine and the power transmission mechanism for supply and transport can be brought close together along the body lateral width direction, and the transmission path can be shortened by that amount.

In the present invention, it is preferable that the electric rotary body for input is provided at the other part of the harvesting input shaft in the transverse direction of the vehicle, and is positioned outside the supply and conveyance device in the transverse direction of the aircraft.

According to this configuration, since the electric rotating body for input is provided in a state located outside the body lateral width direction than the supply and conveying device, the electric power for input including the endless rotating rod for transmitting power to the electric rotating body for input The instrument is located on the outside in the transverse direction of the aircraft.

As a result, maintenance work for the power transmission mechanism for input that transmits power to the mowing input shaft can be easily performed from the side of the aircraft.

In the present invention, the supply/transport transmission mechanism is constituted by a gear-engaging transmission mechanism, and the supply/transport transmission case covering the supply/transport transmission mechanism is an outer circumferential portion of the other end of the mowing input shaft in the horizontal direction of the vehicle It is suitable if it is comprised with the end-side support cylinder which supports it.

According to this configuration, an end-side support cylinder is provided in the supply and transport transmission case for supporting the outer peripheral portion of the other end portion of the mowing input shaft in the transverse direction of the vehicle. In other words, by effectively using the supply/transport transmission case required to cover the supply/transport transmission mechanism, which is a gear-engaging transmission mechanism, it results in complicated configurations such as providing a separate member exclusively for supporting the mowing input shaft. Without doing anything, it is possible to support the outer periphery of the mowing input shaft by a simple configuration.

In the present invention, it is preferable that the end-side support cylinder portion is fitted and connected so as to be able to rotate relative to the cylindrical case body covering the outer circumferential portion inside the vehicle transverse direction than the other end portion in the transverse direction of the vehicle in the harvesting input shaft.

In the case of swinging and lowering the harvesting part around the axial center of the harvesting input shaft, the cylindrical case body rotates together with the lifting of the harvesting part. At that time, according to this configuration, since the cylindrical case body can rotate relative between the end-side support cylindrical portions, the cylindrical case body is rotated while the end-side support cylindrical portion supports the outer circumferential portion of the other end portion of the mowing input shaft in the transverse direction of the vehicle. Since it is allowed, the lifting operation of the mowing unit can be performed satisfactorily.

In the present invention, the supply and conveyance device comprises a plurality of guide rings, an endless rotating table wound over the plurality of guide rings, and a support for transport rotatably supporting the plurality of guide rings. It is configured, and at the same time that the support for transport is connected and fixed to the supply and transport electric case, and the supply and transport electric case is connected and fixed to the gas-side support, so that the supply and transport device is held in position in a transport action position, and the supply and transport The device is configured to be able to change its posture to a maintenance position by rotating relative to the cylindrical case body integrally with the supply and transfer transmission case when the connection and fixation of the supply and transfer transmission case to the base support portion are released. If it is, it is suitable.

According to this configuration, the supply and transport device is configured by winding the endless pivoting table over a plurality of guide rings supported by the support for transport, and the support for transport is connected and fixed to the supply transport transmission case. On the other hand, the supply conveyance transmission case is held in a position-fixed state by being connected and fixed to the base support part, and when the connection and fixation to the base support part is released, it can be rotated relative to the cylindrical case body.

And when the supply conveyance transmission case is connected and fixed to the base support part, the supply conveyance device is position-held at the conveyance action position. When the feed and transport transmission case is rotated relative to the cylindrical case body by releasing the connection and fixing of the base support portion, the feed and transport device can be rotated integrally with the supply and transport transmission case to change its posture to the maintenance position.

In the present invention, a gas-side rotation holding member supported so as to be rotatable about a longitudinal axis with respect to the base frame is provided, and the mowing portion is connected to the base rotation holding member so that the working position for mowing and the front side of the aircraft are It is supported by the gas so that it can swing around the longitudinal axis over an open position that moves outward to open the front part of the gas, and the supply and transfer electric case is connected and fixed to the rotation holding member on the gas side serving as the gas side support. As a result, it is suitable if the position is held in the transport action position.

According to this configuration, the harvesting unit is connected to the rotational holding member on the aircraft side, and is supported by the aircraft so as to be able to swing across the working position and the open position for harvesting. When performing normal harvesting work or road running, the harvesting unit is It is set to the working position of the job. Then, when performing maintenance work such as a transmission mechanism located deep inside the front part of the aircraft, the cutting part is switched to the open position. By doing so, since the harvesting part moves toward the front side and outer side of the base body and the base body front part is opened, maintenance work becomes easy.

In addition, since the feed-transfer transmission case is fitted and connected to the cylindrical case body so as to be able to rotate relative to each other, it swings around the longitudinal axis together with the cylindrical case body as the cutting portion is switched to the open position.

By connecting and fixing the supply conveyance transmission case to the base side rotation holding member, the supply conveyance apparatus is position-held at the conveyance action position. In addition, when the connection and fixation of the supply and transport transmission case to the body-side rotation holding member is released, it can rotate relative to the cylindrical case body, and the posture of the supply and transport device can be changed to the maintenance position.

When the harvesting unit is in the working position, the feeding and transporting device is held in the transport action position, so that the conveying processing of the harvested grain can be performed satisfactorily.When the harvesting unit is switched to the open position, the supplying and transporting unit is placed in the maintenance position. Change. Thereby, it becomes possible to swing the feed and conveyance device around the longitudinal axis together with the mowing portion without interfering with other members on the base side.

In the present invention, the supply and conveyance device includes a plurality of guide rings, an endless rotation table for conveyance wound over the plurality of guide rings, and a support for transport rotatably supporting the plurality of guide rings. It is configured to be provided, and it is suitable if a fixing connecting member for connecting and supporting the transport support to the fixing member on the base side is provided.

According to this configuration, the supply and conveyance device is configured by winding the endless pivoting table over a plurality of guide rings supported by the conveying support, and the conveying support is connected to the fixing member on the base side by the fixing connecting member. It is fixed.

In this way, a plurality of guide rings are stably supported by the transport support body connected and fixed to the fixing member on the side of the aircraft, and the endless rotation table is wound and provided by the plurality of guide rings, so that the supply and transport device is in a stable state. You can return the harvested grain.

In the present invention, it is suitable if the fixing member on the gas side is an oil tank that stores hydraulic oil.

According to this configuration, the support for transport of the supply and transport device is connected and fixed to the oil tank for storing hydraulic oil by a connection member for fixing. Incidentally, in a combine, a hydraulic device is often used, and an oil tank is provided to store hydraulic oil.

Therefore, it is possible to fix and support the supply and transport device with a simple configuration without causing complication of a configuration such as installing a dedicated frame body for supporting the supply and transport device by effectively using the oil tank.

In the present invention, it is suitable if the fixing connecting member is connected and fixed by a plurality of portions in a state in which the connection direction is different with respect to the oil tank.

According to this configuration, the fixing connecting member is connected and fixed in different directions with respect to the oil tank at a plurality of portions. For example, one of the plurality of parts is connected and fixed in the vertical direction, and the other part is connected and fixed in the horizontal direction. The plurality of parts are connected and fixed in different directions.

By the way, by repeatedly carrying out the conveyance operation of the harvested grain stem, the supply conveyance apparatus may receive force in various directions, such as an up-down direction and a horizontal direction, at the connection part of the connection member for fixing.

That is, if the connection direction of the fixing connection member is only one direction, if a force is applied in a direction different from that direction, there is a fear that loosening may occur at the connection portion.

On the other hand, in this configuration, as described above, by connecting and fixing in different directions in a plurality of parts, there is less risk of loosening even when a force is applied in various directions, so that the supply and transport device can be rigidly connected and fixed. I can.

In the present invention, the feeding and conveying power mechanism is wound over an upper electric rotating body provided on the mowing input shaft, a lower electric rotating body interlocked with the input shaft of the feeding and conveying device, and each of the electric rotating bodies. Consisting of having an endless rotating rod, the endless rotating rod is configured to be wound over the upper and lower electric rotating bodies through an opening formed in the cylindrical case covering the outer circumference of the harvesting input shaft If it is, it is suitable.

According to this configuration, power is transmitted from the harvesting input shaft to the input shaft of the supplying and transporting device via the endless rotating table, so that the supplying and transporting device is rotationally driven. Further, the endless rotating table extends outside the case through the opening formed in the cylindrical case, and transmits power to the supply and conveyance device. By forming the opening through which the endless rotation table passes in the cylindrical case in this way, the supply and transport device can be directly driven by the power of the mowing input shaft, and the drive structure can be made simple.

Incidentally, if there is no opening in the tubular case, for example, a power take-out mechanism exclusively for taking out power from the shaft end of the harvesting input shaft is provided, and the power is transmitted to the supply and conveyance device. There is a risk of becoming complicated.

In addition, since the input shaft on the supply and transfer device side and the harvesting input shaft are interlocked with each other by an endless rotating table, there is no need to manage the positional relationship between the supply and transfer device and the harvesting input shaft fixed to the fixing member on the base side with high precision. In addition, for example, in the case of switching the harvesting unit to the open state, by removing the endless rotation table, the supply and transport device and the harvesting input shaft can be easily separated.

In the present invention, in the cylindrical case, an end-side case portion covering the outer circumferential side of the other end in the horizontal direction of the vehicle in the harvesting input shaft, and an inner side in the widthwise direction of the vehicle than the other end in the harvesting input shaft. A case body part covering the outer circumferential side of, and a plurality of connections between the end-side case part and the case body part, distributed along the circumferential direction of the harvesting input shaft, and connecting the end-side case part and the case body part A sieve is provided, and the opening is suitable as long as it is formed by spaced apart the adjacent connecting bodies among the plurality of connecting bodies.

According to this configuration, the other end of the harvesting input shaft is covered by the end-side casing, the inner side of the body in the transverse width direction of the other end is covered by the casing body, and the end-side casing and the casing are distributed along the circumferential direction. It is connected by a plurality of arranged connecting bodies. In addition, the adjacent connecting bodies are arranged to be spaced apart, thereby forming an opening through which the endless rotating table passes between the connecting bodies.

With this configuration, the electric rotating body on the upper side to which the endless rotating table is wound is located at the portion corresponding to the connecting body in the harvesting input shaft, and both sides of the portion in the axial direction are the end-side case portion and the case body portion. As a result, the outer periphery of the mowing input shaft is covered.

Instead of such a configuration, for example, as a tubular case, an integral tubular case covering all of the other end in the transverse direction of the vehicle in the mowing input shaft is used, and the endless rotation table in the tubular case It is also considered that cutting is performed so that an opening is formed in the portion to be wound. However, in such a configuration, while securing the support strength, there are disadvantages such as cumbersome processing for forming a slightly larger opening with high precision.

On the other hand, in this configuration, the end-side case portion and the case body portion are connected by a plurality of connecting bodies to have an opening through which the endless rotation table is wound while covering up to the other end in the horizontal direction of the vehicle in the harvesting input shaft. It can be obtained by a simple configuration that is said to be easy to manufacture.

In the present invention, the other end of the harvesting input shaft is rotatably supported on the end-side case portion via a support member, and the electric rotating body for input and the end-side case portion are integrally detachable. It is suitable as long as it is supported on the case body portion via a connector.

According to this configuration, since the other end of the harvesting input shaft is rotatably supported on the end-side case portion via the support member, the harvesting input shaft is satisfactorily provided without disadvantages such as bending and deformation of the other end of the harvesting input shaft. I can support it.

In addition, since the electric rotating body for input and the case on the end side are integrally supported by the case body so as to be detachable, for example, in the case of a configuration in which the cutting part can be switched to the open position around the longitudinal axis, the input electric rotating rotor The whole and the end-side case part can be removed integrally.

As a result, by removing the end-side case portion, the endless rotation table for transmission can be removed by the supply and conveyance device, and further, by removing the electric rotating body for input, the cutting unit is switched to the open position and swinging. It can be avoided in advance that the electric rotating body for input interferes with other members when the main body part swings.

In addition, a characteristic configuration of the combine according to the present invention includes a harvesting unit for harvesting an upright grain stem and conveying it to the rear, an engine for driving, and a mowing transmission device for shifting the power from the engine and transmitting it to the harvesting unit. , The engine is located in a portion near one side in the widthwise direction of the aircraft, and the mowing transmission device is located in a portion near the other side in the widthwise direction of the aircraft.

According to the above characteristic configuration, the power from the driving engine is shifted by the mowing transmission and transmitted to the mowing unit. By driving the harvesting unit with the output shifted by the harvesting transmission, it is possible to change and adjust the driving speed of the harvesting unit with respect to the vehicle travel speed. As a result, it becomes possible to perform an appropriate mowing operation regardless of the type of crop or the difference in the loam state of the crop.

In addition, the engine is located at a site near one side in the width direction of the aircraft, and the mowing transmission is located at a site near the other side in the width direction of the aircraft. In other words, the mowing transmission is disposed at an end portion on the side opposite to the position of the engine in the transverse direction of the aircraft, so that not only the mowing transmission, but also a transmission mechanism that transmits the power of the engine to the mowing transmission or the mowing transmission In addition, a power transmission mechanism for transmitting power to the mowing unit is also provided at an end-side portion opposite to the position of the engine in the transverse direction of the aircraft.

As a result, when maintenance work such as the power mechanism for the mowing transmission is performed from the side or the outside of the aircraft, the power mechanism for the mowing transmission is located near the operator, so that the operator can easily reach the position to be maintained. I can put it on, and I can work without a hassle.

Therefore, it has come to be able to provide a combine that is easy to perform maintenance work.

In the present invention, it is suitable if an oil tank for storing hydraulic oil is provided in a state in which the engine and the gas are arranged in a transverse direction, and the mowing transmission device is provided in a state in which the mowing transmission device is located on the side opposite to the engine with respect to the oil tank. .

According to this configuration, the engine is located on one side of the gas transverse direction with respect to the oil tank, and the mowing transmission is located on the other side of the gas transverse direction with respect to the oil tank.

With such an arrangement structure, the oil tank can be arranged close to the engine, and the hydraulic oil can be properly supplied by the hydraulic oil pump driven by the engine. Further, the mowing transmission can be arranged close to the oil tank, and when the mowing transmission is configured in a hydraulic operation type, it is possible to satisfactorily supply and discharge hydraulic oil to the mowing transmission.

In the present invention, it is suitable if the mowing transmission is located above the oil tank.

Oil tanks are generally equipped at a low position above the aircraft because they have a large weight, and the mowing unit is supported by the aircraft so as to be able to swing up and down, and the power input unit for the mowing unit is installed at a high position corresponding to the axis of the lifting and swinging axis. It is common.

Therefore, according to this configuration, since the mowing transmission is located above the oil tank, the distance from the power input unit to the mowing unit in a high position is closer than when the mowing transmission is installed in a low position below the oil tank, Power can be transmitted efficiently.

In the present invention, it is preferable if the mowing transmission is located above the rear portion of the oil tank.

According to this configuration, since the mowing transmission is located above the rear portion of the oil tank, there is no need to provide a member in particular above the front portion of the oil tank. In addition, since the mowing unit is provided on the front side of the aircraft, a supporting frame for supporting the mowing unit or a transmission shaft for transmitting power to the mowing unit is required, but such a supporting frame or transmission shaft is used in the upper part of the front part of the oil tank. Can be placed.

Accordingly, by effectively using the upper portion of the oil tank, it is possible to reasonably arrange a mowing transmission and other various devices such as a support frame for mowing and a transmission shaft.

In the present invention, it is suitable if the mowing transmission is supported on the side wall of the oil tank.

According to this configuration, since the mowing transmission is supported on the side wall of the oil tank, it is a simple configuration by effectively using the oil tank without complicating the configuration, such as when a special support is provided on the gas side. It can support the mowing transmission.

In the present invention, it is suitable if the transverse transmission shaft for transmitting the power of the engine to the mowing transmission is provided in a state extending along the transverse direction of the aircraft and positioned at the rear side of the oil tank. .

According to this configuration, the transverse transmission shaft for transmitting the power of the engine to the mowing transmission can be favorably disposed by effectively utilizing the space formed on the rear side of the large oil tank.

In the present invention, there is provided a threshing device for performing a threshing treatment for the grain stem harvested by the harvesting unit and a grain sorting treatment for the threshing treated product, and the transverse transmission shaft is located in front of the gas than the threshing device. If there is, it is suitable.

According to this configuration, the transverse transmission shaft is located on the rear side of the oil tank and on the front side of the gas rather than the threshing device. That is, by using the space formed between the oil tank and the threshing device, it is possible to reasonably arrange a transverse transmission shaft extending along the transverse width direction of the gas.

In the present invention, it is preferable that the mowing transmission is provided in a state positioned at the front side of the aircraft than the transverse transmission shaft.

According to this configuration, the power is transmitted from the transverse transmission shaft to the mowing transmission, but since the mowing transmission is located on the front side of the aircraft rather than the lateral transmission shaft, for example, the arrangement is not interfering with the large-sized threshing device. It becomes easy, and the transverse transmission shaft and the mowing transmission can be well interlocked via a transmission mechanism.

In the present invention, there is provided a threshing device for performing a threshing process for the grain stem harvested by the harvesting unit and a grain sorting process for the threshing treated product, and the mowing power of the engine transmitted through the transverse transmission shaft It is preferable if the transmission and the branch transmission mechanism for branching transmission to the threshing device are provided in a state located at the other side of the gas transverse direction with respect to the oil tank.

According to this configuration, the branch transmission mechanism for branching and transmitting the power transmitted from the engine through the transverse transmission shaft to the mowing transmission and the threshing device is provided in a state located at the other side of the gas transverse direction with respect to the oil tank. As in the case of the Daehan transmission mechanism, it becomes easy to perform maintenance work on the branch transmission mechanism.

In the present invention, an input transmission mechanism for transmitting power from a branch power output shaft in the branch transmission mechanism to a shift input shaft in the mowing transmission device is provided, and the branch power output shaft is a lower side of the mowing transmission device. It is suitable if it is located in.

According to this configuration, power is transmitted from the branch power output shaft located on the lower side to the mowing transmission device located on the upper side via the input transmission mechanism. Further, power is transmitted from the mowing transmission to the mowing section located on the front side of the aircraft. For example, if the branch power output shaft is a configuration in which the power transmission mechanism for input transmits power in the front-rear direction at the same height as the mowing transmission, there is a disadvantage that the transmission mechanism for the mowing unit is enlarged in the front-rear direction. On the other hand, with the above configuration, there is an advantage in that it is easy to achieve compactness of the transmission mechanism in the front-rear direction of the body.

In the present invention, it is preferable that the harvesting input shaft of the harvesting portion is positioned in front of the vehicle than the shift output shaft of the harvesting transmission.

According to this configuration, since the harvesting input shaft is located on the front side of the aircraft than the transmission output shaft, the harvesting input shaft can be provided as close as possible to the driven portion of the harvesting unit located in the front of the aircraft, thereby shortening the transmission path. This makes it easier to achieve compactness of the transmission structure.

In the present invention, it is preferable that an output transmission mechanism that transmits power from the transmission output shaft to the harvesting input shaft is provided on the same side as the harvesting transmission device in the vehicle transverse direction with respect to the oil tank.

According to this configuration, since the power transmission mechanism for output transmits power from the mowing transmission device located on the other side of the vehicle lateral width direction to the other part of the cutting input shaft in the vehicle lateral width direction, the transmission distance of the output transmission mechanism is shortened, Can be delivered efficiently. Further, since the power transmission mechanism for output is located on the same side as the mowing transmission, that is, on the other side in the gas transverse direction with respect to the oil tank, there is also an advantage in that maintenance work on the output transmission mechanism is easy.

In the present invention, it is preferable that the output transmission mechanism is provided on the other outer surface of the oil tank in the gas transverse direction.

According to this configuration, since the power transmission mechanism for output is provided on the outer surface of the oil tank positioned in a state facing the other side in the transverse direction of the body, maintenance work of the power transmission mechanism for output becomes easy.

In the present invention, the output transmission mechanism is configured to transmit power by a transmission belt, and is configured to be switchable to a transmission state in which a tension force is applied to the transmission belt, and a non-motor state in which the application of the tension force is released, It is suitable if a manual operation tool for switching the output power transmission mechanism from the motorized state to the non-powered state is provided.

According to this configuration, by operating the manual operation tool, it is possible to switch between a transmission state in which a tension force is applied to the transmission belt and a non-operation state in which the tension force is released. For example, in the case of performing maintenance work on the power transmission mechanism for output, by releasing the tension force of the transmission belt with a manual operation tool, the transmission belt can be easily removed and maintenance work becomes easy.

In the present invention, it is preferable that the manual operation device is provided on the other outer surface of the oil tank in the gas transverse direction.

According to this configuration, since the manual operation device is provided on the outer surface of the oil tank located in a state facing the other side in the horizontal direction of the aircraft, the operator can easily operate the manual operation device from the outside of the aircraft on the other side in the horizontal direction of the aircraft. . As a result, it becomes easy to perform maintenance work of the output transmission mechanism. Further, the manual operation tool can be supported by using the outer surface of the oil tank, and it is possible to support it in a simple configuration without having a dedicated support member.

In the present invention, the mowing portion is supported by the support frame body on the side of the base so as to be able to swing around the longitudinal axis over a maintenance position in which the front part of the base is opened by moving toward the working position for the mowing operation and the front side and outside of the base, It is suitable if the mowing transmission is provided in a state located behind the body of the support frame.

According to this configuration, when the harvesting operation is carried out, during moving travel, or the like, the harvesting portion is located at the working position for the harvesting operation. In addition, when performing maintenance work inside the harvesting unit or inside the body, the cutting unit is swung around the longitudinal axis to switch to the maintenance position. Thereby, the harvesting part moves toward the front side and outer side of the base body, and the base body front part is opened, so that the operation becomes easy.

Further, the mowing transmission is located at the rear of the support frame body, that is, at the rear side of the longitudinal axis. As a result, even if the mowing part is swung around the longitudinal axis so as to switch to the maintenance position, there is less possibility that the mowing part will interfere with the mowing transmission.

In this way, while the mowing transmission is provided at a position close to the mowing input shaft, the mowing transmission is avoided from interfering with the mowing unit when the posture is changed due to the swing around the longitudinal axis of the mowing unit. Posture change can be performed.

1 is an overall side view of the combine.
2 is a side view of the front part of the combine.
3 is a plan view of a front portion of a combine showing a state in which the position of a harvesting portion is switched.
4 is a front view of the oil tank.
5 is a side view of the oil tank.
6 is a power system diagram.
Fig. 7 is a side view showing a belt transmission mechanism for traveling.
8 is a cross-sectional plan view of a running tension mechanism.
Fig. 9 is a perspective view of an oil tank in a state in which a flow guide plate is attached.
10 is an exploded perspective view showing a supporting structure of an oil tank.
11 is a partially cut-away front view showing a structure for supporting the base of the harvesting portion.
12 is an exploded perspective view showing a support structure of a supply and transport transmission case.
13 is a side view showing a transmission structure for a mowing unit.
14 is a plan view showing a transmission structure for a harvesting unit.
15 is a longitudinal front view showing a transmission structure for a harvesting portion.
16 is a cross-sectional plan view showing a transmission structure for a mowing unit.
Fig. 17 is a partially cut-away side view showing the support structure of the supply and transport device.
18 is a cross-sectional plan view of the supply and transport device.
Fig. 19 is a side view showing the posture switching state of the supply and transport transmission case.
20 is a side view of a cover body mounted state.
Fig. 21 is a side view showing a support structure of a supply and transport device according to another embodiment.
22 is an exploded perspective view showing a support structure of a supply and transport device according to another embodiment.
23 is a cross-sectional plan view showing a supporting structure of a left end portion of a harvesting input shaft according to another embodiment.
24 is an exploded perspective view showing a supporting structure of a left end portion of a harvesting input shaft according to another embodiment.

[First embodiment]

Hereinafter, a first embodiment of the combine according to the present invention will be described based on the drawings.

[Overall configuration]

As shown in Figs. 1 and 3, the combine is a mowing part 3 in the front part of the traveling body 2 provided with a pair of left and right crawler traveling devices 1 to be lifted and lowered around the horizontal axis X. ) Are connected, and a threshing device 4 and a grain tank 5 are provided in a state arranged in a horizontal direction of the gas at the rear portion of the traveling gas 2. Further, a boarding driver 6 covered by a cabin is provided at a portion on the right side of the front part of the traveling body 2, and an engine 7 for driving is provided below the boarding driver 6.

In addition, in this embodiment, when defining the left and right with respect to the lateral width direction of the aircraft, it is assumed that the right side or the left side is defined based on the thing viewed from the forward travel direction. Accordingly, the right side of the body on which the engine 7 is disposed corresponds to one side in the body width direction, and the left side of the body corresponds to the other side in the body width direction.

As shown in Fig. 2, the mowing unit 3 includes six raising devices 8 that cause an upright grain stem that is prone (prone), a varican-type mowing device 9 that cuts the root of the raised upright grain stem, and the root. A conveying device 11 and the like are provided for conveying the cropped grain stem of the cut vertical posture toward the start end of the threshing feed chain 10 of the threshing device 4 located on the rear side of the body while gradually changing the posture to the horizontal collapsed posture. It is composed of.

The mowing part 3 has a structure in which the whole is supported by a front-rear cylindrical frame 12 extending along the front-rear direction, and around the transverse axis X through the front-rear cylindrical frame 12 It is supported by the traveling body 2 so that the lifting operation is possible. In addition, the mowing unit 3 moves toward the front side and outer side of the aircraft as shown in Fig. 3(a) and the operation position for the mowing operation as shown in Fig. 3(a) to open the front part of the aircraft. It is supported by the traveling body 2 so that it can swing around the longitudinal axis|shaft center Y over a maintenance position.

As shown in Fig. 1, the threshing device 4 is a threshing unit 3, while holding and conveying the root of the grain stem harvested by the threshing feed chain 10, and moving the ear side into a barrel 13 It is configured to perform the threshing treatment by means of the method, and to perform the grain sorting treatment for the threshing treated product by the sorting unit 14 provided below the grain, and to discharge the obtained grain to the grain tank 5. In addition, although not described in detail, a grain discharging device 16 is provided for discharging grains stored in the grain tank 5 to the outside.

A feed conveyance device 17 for feeding and conveying the harvested grain from the harvesting section 3 to the threshing feed chain 10 from the transfer end of the harvesting section 3 toward the threshing feed chain 10 ) Is provided.

[Support structure of the cutting unit]

The supporting structure of the cutting part 3 will be described.

As shown in Figs. 3 and 11, the rear end of the front-rear cylindrical frame 12 is integrally connected and fixed to the transverse cylindrical frame 18 in the transverse posture, and this transverse cylindrical frame ( 18) is rotatably supported around the horizontal axis X by a pair of left and right receiving and holding portions 19 and 20 provided on the base side. Accordingly, the harvesting portion 3 is supported by the traveling body 2 so as to be able to move up and down around the horizontal axis X.

1 and 2, the hydraulic cylinder 22 is pivotally connected over the middle portion of the cylindrical frame 12 in the front-rear direction and the front end portion of the base frame 21, and the hydraulic cylinder 22 By stretching and contracting, the harvesting portion 3 is configured to be able to swing up and down around the horizontal axis X. In addition, although a detailed description is not given, the connection part of the hydraulic cylinder 22 and the cylindrical frame 12 in the front-rear direction is configured to be detachable.

As shown in FIGS. 2 and 3, an oil tank 23 for storing hydraulic oil is disposed in a state located below the transverse cylindrical frame 18. This oil tank 23 is constituted by a structure with high rigidity.

As shown in FIGS. 4, 5 and 10, the oil tank 23 has vertical surfaces 23a and 23b on both left and right sides made of a thick plate, and a top surface of a mountain shape as viewed from the side made of a thick plate. It comprises a part 23c, a front part 23d, a rear part 23e, and a bottom part 23f formed by bending a plate connected to one, and they are integrally connected to form a storage space for hydraulic oil inside. have. Of the vertical surfaces 23a and 23b on the left and right sides, the vertical surface 23a on the left is formed to protrude rearward and upward than the upper surface 23c or the rear surface 23e. In addition, the vertical surface portion 23b on the right side is installed in a state located below the upper surface portion 23c, and the upper surface portion 23c is formed to extend in a state protruding to the right outward side than the vertical surface portion 23b on the right side. have.

In addition, in the oil tank 23, the mowing portion 3 is provided in a state that is integrally and continuously installed on the vertical surface portion 23a, outside of the vertical surface portion 23a on the left side and at a portion on the front side of the gas. A rotation support part 29 is provided that supports rotation around the longitudinal axis Y.

This rotation support portion 29 is formed in a substantially box-like shape in which only the rear side of the body is opened using the vertical surface portion 23a on the left. That is, by integrally fixing one end of the plate body 30 that is bent in an L-shape when viewed in a plan view on the left outer side of the vertical surface part 23a on the left, an approximately inverted U-shaped space is formed when viewed in a plan view. The ceiling plate 31 which forms the ceiling surface of is fixed, and a substantially box-shaped storage space in which only the rear side of the body is opened is formed. Further, the bottom surface of the storage space is formed by the base frame 21.

The oil tank 23 is attached and fixed to the base frame 21 by bolting a plurality of portions. That is, as shown in Fig. 4, the horizontal surface portions 23a1 and 23b1 are formed by bending the plate material at a substantially right angle at the lower ends of the vertical surfaces 23a and 23b on both left and right sides, and the horizontal surface portions 23a1 and 23b1 Is fastened to the base frame 21 with bolts 33 along the vertical direction.

Specifically, each of the horizontal surface portions 23a1 and 23b1 on both left and right sides is fastened and fixed with bolts 33 along the vertical direction in three locations in a state dispersed in the front-rear direction, in a total of six locations.

That is, as shown in Figs. 10, 11, and 13, the bottom frame body 21B forming the bottom of the storage space at a portion corresponding to the lower side of the rotation support portion 29 in the base frame 21 The front surface portion 29a and the left surface portion 29b of the rotation support portion 29 are provided in the front and rear directions and the left and right directions of the rotational support portion 29 with respect to the L-shaped fixing bracket 34 when viewed from a plane that is fixed to the bottom frame body 21B. It is fastened and fixed with bolts 35 along the line.

In addition, the cylindrical support shaft 36 for supporting the mowing part 3 to be rotatable around the longitudinal axis Y by the rotation support unit 29 is supported so as to be rotatable around the longitudinal axis Y It is housed inside the furnace rotation support part 29. The ceiling plate 31 of the rotation support part 29 is provided with a rotation tube part 37 for rotatably supporting the support shaft 36, and the support shaft 36 through which the rotation tube part 37 is inserted. The pivoting base portion 38 is integrally connected and fixed to the upper portion.

As shown in Figs. 11 and 12, the support shaft 36 having a pivoting base portion 38 on the upper side is rotatably received around the longitudinal axis Y by the pivoting barrel portion 37. In addition, the small-diameter stepped portion 39 at the lower end is rotatably received and supported by an insertion hole 40 formed in the bottom frame body 21B. When it is switched to the maintenance position in this way, it is comprised so that the load of the harvesting part 3 can be received and supported by the rotation support part 29. Therefore, the rotation support part 29 functions as a support frame body on the base side.

Further, a receiving holding portion 19 on the left side for supporting the transverse cylindrical frame 18 is attached to the upper portion of the pivoting base portion 38.

As shown in Fig. 12, the receiving holding portion 19 on the left is a fixed side support member 41 fixed to the pivoting base portion 38, and the fixed side support member 41 overlapping vertically. It is composed of a pivoting-side pressing member 42 supported so as to swing open and close in a closed state and an open state that is open to the outside.

Then, by placing the transverse cylindrical frame 18 between the fixed side support member 41 and the rotation side pressing member 42, the rotation side pressing member 42 is switched to a closed state and fixed by a bolt 43. , The transverse cylindrical frame 18 is fitted and held around the transverse axis X in a state capable of integrally rotating with the support shaft 36.

In addition, as shown in FIG. 11, the receiving holding part 20 on the right side for receiving and holding the transverse cylindrical frame 18 rotatably is a bracket 44 at the top of the oil tank 23 It is attached and supported through. This right receiving holding part 20, like the left receiving holding part 19, is composed of a fixed side support member 41 and a rotating side pressing member 42, and the transverse cylindrical frame 18 Insert and hold in a state in which rotation around the transverse axis (X) is possible.

Since the mowing part 3 is supported by this support structure, the connection between the hydraulic cylinder 22 and the front-rear cylindrical frame 12 is released from the operating position for mowing operation shown in FIG. 3A, Of the pair of left and right picking holding parts 19 and 20, the rotational pressing member 42 of the right picking holding part 20 is switched to the open state, and the cutting part 3 is attached to the support shaft 36. When it swings around the longitudinal axis Y in the case, it can be switched to the maintenance position shown in Fig. 3B.

However, at this time, it is necessary to remove the transmission belt 107 for power transmission described later. In addition, although not shown, in order to hold the upper and lower positions of the whole mowing unit 3 in a predetermined position instead of the hydraulic cylinder 22, a position to support the pivoting base unit 38 or the transverse cylindrical frame 18 A holding part is provided separately.

The oil tank 23 is located below the receiving portion of the harvested grain from the harvesting portion 3 to the threshing device 4, and as described above, the oil tank 23 has a mountain-shaped upper surface portion ( Since it is provided with 23c), there is a possibility that the fallen straw crumbs may accumulate in the upper part of the oil tank 23.

Therefore, as shown in Figs. 9 and 11, in the upper part of the oil tank 23, the straw crumbs that have fallen are guided to the ground from the open space on the front side of the oil tank 23, so that it is only in one direction. A flow guide plate 45 for forming a photo-shaped flow path is attached.

In addition, as shown in Figs. 4 and 5, the plurality of hydraulic oil entrances 46 in the oil tank 23 are located at the lower side of the front surface 23d and the left vertical surface 23a. It is formed, and compared with the case of installing on the bottom surface of the oil tank 23, for example, it is easier to attach or remove the oil supply hose. In this regard, as the entrances 46 of the plurality of hydraulic oils, a hydraulic pump (not shown) for supplying hydraulic oil to the hydraulic cylinder 22 or the like, a static hydraulic continuously variable transmission for driving driving as described later, and for mowing transmission There are a plurality of entrances 46 to which a hydraulic oil supply path and a return path are connected to the hydrostatic constant-pressure type continuously variable transmission.

[Power structure for driving]

Next, a traveling transmission structure that transmits the power of the engine 7 to the crawler traveling device 1 will be described.

As shown in FIG. 7, the power of the engine 7 disposed below the boarding driver 6 is transmitted from the output shaft 7a of the engine 7 through the belt-type transmission mechanism 47 to the transmission case 49 ). Although not shown in the transmission case 49, a static-hydraulic continuously variable transmission HST for traveling driving and a turning transmission mechanism are provided. Then, driving power is transmitted from the transmission case 49 to the left and right crawler travel devices 1.

The belt-type transmission mechanism 47 is provided with a running tension mechanism 51 that imparts a tension force to the transmission belt 50. In this traveling tension mechanism 51, as shown in Figs. 7 and 8, a U-shaped bracket 52 in plan view on the upper part of the horizontal frame body 21C in the body frame 21 It is welded and fixed, and the expansion/contraction operation mechanism 54 is supported by the pivot pin 53 to this bracket 52 so that it can swing back and forth around the axis P. As shown in Fig. 8, the pivot pin 53 is prevented from being pulled out by fastening the attachment plate 55 fixedly connected to one end thereof to the bracket 52 with a bolt 56. As shown in FIG.

The expansion and contraction mechanism 54 includes a cylindrical support member 57 pivotally connected to the bracket 52 by a pivot pin 53, a compression spring 58 accommodated in the support member 57, and It is configured to include a slide shaft 59 slidably supported by the support member 57 with the upper end of the support member 57 inserted therethrough.

As shown in Fig. 14, the tension roller 61 is supported at the upper end of the slide shaft 59 via an L-shaped connecting member 60, and a compression spring 58 built in the support member 57 Thereby, the slide shaft 59 is pulled and pressed downwardly, and the tension roller 61 is configured to impart a tension force to the transmission belt 50.

Between the pivot pin 53 and the support member 57, a flexible tube is formed along the radial direction, and the support member 57 is in a direction orthogonal to the axial direction of the pivot pin 53 (ie , It is supported so as to be able to swing along the belt width direction). As a result, the tension roller 61 can be removed from the transmission belt 50 by shifting the position in the belt width direction.

In this way, the traveling tension mechanism 51 is a simple structure with one pivot pin 53, and the tension roller 61 is in a state in which the front and rear swing movement accompanying the tension force and the lateral movement for removal are possible. It is supported by the body frame 21.

[Power structure for mowing]

Next, a mowing transmission structure for transmitting the power of the engine 7 to the mowing unit 3 will be described.

As shown in Fig. 6, the power of the engine 7 is transmitted from the output shaft 7a to the branch transmission mechanism 64 via the belt transmission mechanism 62 and the lateral transmission shaft 63, and the branch transmission mechanism By means of (64), the threshing device 4 and the hydrostatic constant-hydraulic continuously variable transmission (HST) (abbreviated as the harvesting HST) 65 for mowing driving as a mowing transmission are branched and transmitted. The belt transmission mechanism 62 is configured by winding three transmission belts 62C over the pulley 62A on the engine side and the pulley 62B on the driven side.

As shown in FIGS. 10 and 13 to 15, the HST 65 for mowing is located above the rear portion of the oil tank 23, and the vertical surface portion 23a on the left as the side wall of the oil tank 23 A plurality of portions are attached and fixed by fastening a plurality of portions with bolts 70 to a portion extending upwardly to the rear in ).

As shown in Fig. 10, four attachment portions 67 are integrally formed in a state protruding toward the left and outer sides in a portion extending rearwardly upward in the left vertical surface portion 23a. The flange portion 69 formed in the casing 68 of the HST 65 for mowing is fastened to the front end surface of the portion 67 with bolts 70, and the HST 65 for mowing is attached and fixed. As a result, as shown in Fig. 14, a gap corresponding to the amount of protrusion of the attachment portion 67 is formed between the harvesting HST 65 and the left vertical surface portion 23a.

In addition, as shown in Fig. 10, two of the four attachment portions to the four attachment portions 67 on the rear side are a motor-driven type for operating the trion shaft 71 of the HST 65 for mowing. A support plate 73 for supporting the shifting operation mechanism 72 of the motor is fastened and fixed with a bolt 74.

Therefore, the engine 7 is located in the vicinity of one side (right) in the width direction of the aircraft, the HST 65 for mowing is located in the area near the other side (left) in the width direction of the aircraft, and the HST 65 for mowing It is provided in a state of being located on the opposite side of the engine 7 with respect to the oil tank 23.

As shown in Fig. 16, the transverse transmission shaft 63 is rotatably supported by a bearing 76 while the outer circumferential side is covered by an integrally formed relay transmission case 75. , In a state that extends along the gas transverse direction from a position corresponding to the left end of the oil tank 23 to the right outer side of the right end position, and is the gas rear side of the oil tank 23 and the threshing device 4 It is equipped in a state located on the front side of the aircraft.

Further, power is branched from the middle portion of the transverse transmission shaft 63 to the transmission shaft 78 in the front-rear direction via the bevel gear mechanism 77, and the electric pulley 79 provided in the transmission shaft 78 and Power is transmitted to the barrel 13 of the threshing device 4 via the transmission belt 80.

13, 14 and 16, the relay transmission case 75 is configured to also use the case of the branch transmission mechanism 64, and surrounds the outer circumference of the transverse transmission shaft 63. The transverse cylindrical portion 75A, the branch transmission case portion 75B surrounding the circumference of the branch transmission mechanism 64, and the mounting flange portion 75C are integrally formed to form the mounting flange portion 75C. It is attached and fixed to the frame 21 by bolting.

13 and 16, the branch transmission mechanism 64 is arranged in a state positioned on the left side of the aircraft from the other side in the transverse direction of the gas with respect to the oil tank 23, and a transverse transmission shaft 63, a relay Each of the transmission shaft 81, the threshing drive transmission shaft 82, and the mowing drive transmission shaft 83 (an example of a branch power output shaft) are interlocked in turn via transmission gears 84 to 87. In addition, it is provided in a state of being lined up in the front and rear directions of the aircraft.

As shown in Fig. 6, an electric pulley 88 is attached to the transmission shaft 82 for threshing drive. Power is transmitted from this electric pulley 88 to the sorting part 14 of the threshing apparatus 4 via a transmission belt 89. As shown in FIG. 16, the threshing drive transmission shaft 82 protrudes to the left and outer sides of the relay transmission case 75, and an electric pulley 88 is attached to the outer protrusion.

As shown in Fig. 6, power is transmitted from the mowing drive transmission shaft 83 to the shift input shaft 90 of the harvesting HST 65 via the input transmission mechanism 91. 13, 15, and 16, the power transmission mechanism 91 for input is a driving-side electric pulley fixed to the transmission shaft 83 for mowing drive protruding to the left and outside of the relay transmission case 75. (92), a driven-side electric pulley (93) provided on the shift input shaft (90), an input power transmission belt (94) wound over them, and an input to impart a tension force to the input transmission belt (94). A tension mechanism 95 is provided and it is comprised. And, as shown in Fig. 15, this input transmission mechanism 91 is arranged in a gap formed between the harvesting HST 65 and the left vertical surface 23a as described above.

13 and 15, the input tension mechanism 95 is provided on the left and outer side of the vertical surface portion 23a on the left side of the oil tank 23. As shown in FIG. In addition, this input tension mechanism 95 is supported by a pair of L-shaped swing arms 97 and 98 when viewed from the side so as to be integrally swingable with respect to the fixed shaft 96 fixed to the vertical surface portion 23a. , The tension ring body 99 is supported on one of the swing arms 97, and the spring 101 spans the bracket 100 fixed to the swinging end and the longitudinal surface 23a of the other swinging arm 98. ) Is mounted and configured to impart a tension force to the input transmission belt 94 by the pressing force of the spring 101.

As shown in FIG. 13, the transverse transmission shaft 63 and the branch transmission mechanism 64 are disposed at a low position close to the base frame 21. On the other hand, the HST 65 for harvesting is disposed at a higher position than that. That is, the transmission shaft 83 for harvesting drive provided in the branch transmission mechanism 64 is located on the lower side of the HST 65 for harvesting.

The power after being shifted by the mowing HST 65 is transmitted from the shift output shaft 102 of the mowing HST 65 to the mowing input shaft 103 provided inside the transverse cylindrical frame 18, but mowing The input shaft 103 is provided in a state positioned in front of the vehicle than the shift output shaft 102 of the harvesting HST 65, and the power transmission mechanism 104 for output transfers power from the shift output shaft 102 to the harvesting input shaft 103. ) Is provided with respect to the oil tank 23 on the same side as the harvesting HST 65 in the gas transverse direction, specifically on the left outer surface of the oil tank 23.

6 and 13, the power transmission mechanism 104 for output includes a drive-side electric pulley 105 fixed to the transmission output shaft 102, and a driven-side electric pulley 106 provided on the mowing input shaft 103. Wow, an output power transmission belt 107 wound over them, and an output tension mechanism 108 that imparts a tension force to the output power transmission belt 107.

13 and 15, the tension mechanism 108 for output is provided on the left outer side of the left vertical surface part 23a of the oil tank 23. As shown in FIG. And this output tension mechanism 108 is supported by a pair of rocking arms 109, 110 installed in an L-shape when viewed from the side so as to be able to swing integrally with respect to the mowing input shaft 103, and one of the rocking arms ( A tension ring body 111 is supported at the swinging end of 109, and a spring spanning the bracket 112 fixed to the swinging end of the swinging arm 110 on the other side and the bracket 113 fixed to the rotational support 29 114 is attached, and is configured to impart a tension force to the output transmission belt 107 by the pressing force of the spring 114.

The manual operation tool 115 is installed in a state that is integrally fixed to the swing arm 110 on the other side and extends in the longitudinal direction. The operator grips and manipulates the manual operation tool 115 to operate the swinging arm 110 in a direction opposite to the pressing direction by the spring 114, thereby resisting the pressing force of the spring 114 to the tension ring body 111 You can cancel the provision of tension.

Therefore, when the manual operation tool 115 is not operated, the output power transmission mechanism 104 is in an electric state in which a tension force is applied to the output transmission belt 107 by the pressing force of the spring 114, and the manual operation tool 115 By operating in the direction opposite to the pressing direction by the spring 114, it is possible to switch to a non-powered state in which the application of the tension force is released.

When the manual operation device 115 is provided on the left and outer side of the oil tank 23, and the operator removes the power transmission belt 107 for output in order to switch the mowing unit 3 to the maintenance position, The manual operation tool 115 can be easily operated from the left outside.

As shown in Fig. 15, since the power transmission belt 107 for output is provided at a position skewed toward the outermost left side of the body, when the power transmission belt 107 for output is removed, it becomes easy to work.

However, in a normal working state, the driven side electric pulley 106 and the output transmission belt 107 are covered with the cover body 117 as shown in FIG. 20 so that it may not be exposed to the outside.

On the outer surface of the cover body 117, a guide rod 118 for satisfactory transfer of the root side of the harvested grain stem to the threshing feed chain 10 is attached. In addition, in the case of attaching the cover body 117 covering the driven-side electric pulley 106 or the output transmission belt 107, the guide rod 119 for receiving and receiving guide provided in the conveying device 11 is an example. Since there is a possibility of interference with the cover body 117 when the mounting 3 is raised, it is necessary to short the guide rod 119 for receiving and receiving guidance on the side of the conveyance device 11. Therefore, in order to improve the guiding function at the receiving portion of the harvested grain stem from the conveying device 11 to the threshing feed chain 10, the guide rod 118 is attached to the cover body 117 as described above. .

In addition, the power transmitted to the harvesting input shaft 103 is transmitted to the harvesting unit 3 via the front-rear transmission shaft 78 provided in the front-rear cylindrical frame 12 (FIGS. 2 and 6 ). Reference).

[Support structure of supply and conveyance device]

Next, the support structure of the supply and transport device 17 will be described.

As shown in Fig. 17, the supply and conveyance device 17 is provided with a protrusion comprising a driving sprocket 120 and an endless rotating chain as an endless rotating rod over the two guide rings 121 and 122. The conveyance chain 123 is wound and attached. Further, a guide ring 124 on the outer circumferential side acting on the outer circumferential portion of the conveyance chain 123 is provided, so that the length of winding by the drive sprocket 120 is lengthened. This supply conveyance device 17 is configured to hold and convey the harvested grain stem toward the threshing feed chain 10 by rotating the conveying chain 123 by rotational power transmitted to the drive sprocket 120.

As shown in Fig. 18, in the left end portion of the harvesting input shaft 103, the feeding and conveying device from the harvesting input shaft 103 in a state positioned to the right of the driven-side electric pulley 106 of the power transmission mechanism for output. A transmission mechanism 125 for supply and transport that transmits power to 17 is provided.

The transmission mechanism 125 for supply conveyance is provided in a state positioned on the right side (inside the body lateral width direction) than the supply conveyance device 17. Further, the driven-side electric pulley 106 to which the power to the harvesting input shaft 103 is input is provided in a state positioned on the left side (outside the body lateral width direction) than the supply and transport device 17. That is, the vertical side electric pulley 106 is located on the outermost side of the body lateral width direction, the supply and transport device 17 is located inside the body lateral width direction than the vertical side electric pulley 106, and the body width is wider than the supply and transport device 17 It is arrange|positioned in the state which lined up in the lateral width direction of a base body so that the transmission mechanism 125 for supply and conveyance may be located inside the direction.

By setting it as such an arrangement structure, since the driven-side electric pulley 106 is located at the outermost side in the lateral width direction of the body, it is easy to remove the power transmission belt 107 for output, and it becomes easy to perform maintenance work. In addition, as shown in Fig. 11, when viewed from the front, the threshing feed chain 10 is located outside the body lateral width direction than the supply and transport device 17, and partially overlaps the driven side electric pulley 106, and It is located outside the electric pulley 106 in the transverse direction of the body.

As shown in Figs. 18 and 19, the supply/transport transmission mechanism 125 is a small-diameter gear externally fitted to the mowing input shaft 103 so as to be integrally rotatably covered by the supply/transport transmission case 126 127 and a large-diameter gear 129 externally fitted to the driven shaft 128 so as to be integrally rotatably interlocked with each other to be interlocked with each other. The small-diameter gear 127 is fitted and fitted in a state in which the position in the rotation axis direction is regulated by the sleeves 148 on both left and right sides.

The driven shaft 128 protrudes from the supply and transfer transmission case 126 to the left and outer sides, and a drive sprocket 120 is attached to the outer protrusion. In addition, the guide ring body 124 on the outer circumferential side can be rotated around the horizontal axis to the support shaft 130 protruding from the rear upper left and outer sides of the supply and transfer transmission case 126, as shown in Figs. 12 and 18 Is supported.

As shown in Figs. 12, 17, and 19, the supply/transport transmission case 126 is configured by flange-connecting the split cases 126a and 126b on both left and right sides by bolting at a plurality of portions. In addition, the supply and transport transmission case 126 is connected and fixed to the rotating base portion 38 with bolts 145 via two brackets 131A and 131B in two of the plurality of bolt connection portions. These two brackets 131A and 131B connect the upper and lower end sides of the fixed-side support member 41 in the receiving holding portion 19 on the left side and the upper and lower end sides of the rotating-side pressing member 42 All are fastened and connected by bolts 43 for, and fixed to the rotating base portion 38.

In addition, as shown in Figs. 12 and 18, an end-side support cylindrical portion 132 that supports the outer peripheral portion of the left end portion of the harvesting input shaft 103 is integrally formed in the supply/transport transmission case 126. . This end-side support cylindrical portion 132 is formed in a transverse cylindrical shape, and supports the left end of the harvesting input shaft 103 so as to be rotatable therein via a bearing 133.

The supply/transport transmission case 126 is fixed to the rotation base portion 38, but as shown in FIG. 18, the left end of the transverse cylindrical frame 18 can be rotated relative to the end-side support cylinder portion 132 It is externally fitted and connected, and the transverse cylindrical frame 18 can be rotated around the transverse axis X along with the lifting operation of the mowing part 3.

As shown in FIG. 17, the supply conveyance device 17 is provided with the support body 134 for transmission which supports the two guide ring bodies 121, 122 on which the conveyance chain 123 is wound. Of the two guide ring bodies 121 and 122, the guide ring body 122, which is located on the rear side of the aircraft, is configured to function as a tension ring body that imparts a tension force to the conveyance chain 123. That is, the support body for transmission 134 is a support body 135 fixed to the supply and transfer transmission case 126, and the support body 135 is slidable in the front and rear direction, and the coil spring 136 for pressing By this, it is comprised with the annular body support member 137 which is moved and pressed to the front side (the side for applying tension).

The ring body support member 137 is constituted by integrally providing a U-shaped support part 138 and a cylindrical spring receiving part 139 for accommodating the coil spring 136 when viewed from a plane supporting the guide ring body Has been. Further, a support rod 140 including a support member for receiving the other end side of the coil spring 136 is provided at the distal end portion while being inserted into the spring receiving portion 139. The support rod 140 is screwed to the plate member 141 provided on the support body 135, and the position can be changed and adjusted in the front-rear direction. In the drawings, reference numeral 142 denotes a lock nut for preventing looseness.

The cylindrical spring receiving portion 139 is internally fitted to the cylindrical support portion 143 formed in the support body 135, so that the annular support member 137 is slidably supported by the support body 135. In addition, the support body 135 is provided with a guide rail 144 that is positioned between the two guide rings 121 and 122 on which the transfer chain 123 is wound, and receives and guides the transfer chain 123. .

As shown in FIG. 17, the support body 135 is connected and fixed to the supply/transport transmission case 126 by fastening two points with bolts 147. And, as described above, since the supply and transfer transmission case 126 is fixed to the rotation base 38 as the base support part, the supply and transfer device 17 is held in a transfer action position for holding and conveying the mowing grain stem. I can support it.

The supply conveyance device 17 is configured to be able to rotate integrally with the supply conveyance transmission case 126 to change its posture to the retracted position when the connection of the supply conveyance transmission case 126 to the rotation base 38 is released. Has been.

That is, as shown in Fig. 19, when the connection of the bolts 145 at two places (connection portion Q) to the rotation base portion 38 of the supply transfer transmission case 126 is released, the supply transfer transmission case The 126 can be rotated relative to the transverse cylindrical frame 18 that is fitted and connected. As described above, since the transverse cylindrical frame 18 is received and supported by a pair of left and right receiving and holding portions 19, 20, and is integrally fixed with the front and rear cylindrical frame 12, In a state in which the rotation of the transverse cylindrical frame 18 is prevented, the supply conveyance device 17 and the supply conveyance transmission case 126 can be integrally rotated upward around the transverse axis X.

And in the bolt connection part on the lower side (bracket 131B side) of the two bolt connection parts Q in the supply transfer transmission case 126, the supply transfer transmission case 126 is moved upward by a predetermined angle. In the rotated state (corresponding to the retracted position), a screw hole 146 for bolt connection is formed in the bracket 131 again. By bolting the screw hole 146 and the connection part of the supply conveyance transmission case 126, the supply conveyance device 17 can be position-held in the retracted position.

In this way, by switching the feeding and conveying device 17 to the retracting position, when the mowing unit 3 is rotated around the longitudinal axis Y and switched to the maintenance position, the feeding and conveying device 17 is turned into the threshing device 4 It is possible to avoid interference with the inlet plate (not shown) or the like. Therefore, although it is necessary to remove the power transmission belt 107 for output, the mowing unit 3 can be rotated without removing the driven-side electric pulley 106 provided on the supply and conveyance device 17 and the harvesting input shaft 103. I can.

[Second Embodiment]

Hereinafter, a second embodiment of the combine according to the present invention will be described based on the drawings.

In this second embodiment, the support structure (including the electric structure) of the supply and transport device 17 is different from the first embodiment, and other configurations are the same as those of the first embodiment, so only other configurations will be described below. And, a description of the same configuration is omitted.

21 to 24 show the support structure of the supply and transport device 17 of the second embodiment.

As shown in Fig. 21, the supply and conveyance device 17 includes three guide rings 150, 151, 152 as a plurality of electric rotating bodies, one drive sprocket 153, and an endless conveyance wound over them. For transmission that rotatably supports the conveying chain 154, three guide rings 150, 151, 152, and one driving sprocket 153 comprising an endless rotating chain having a protrusion as a secondary pivot It is provided with the supply conveyance frame body 155 etc. as a support body.

21 and 22, the supply and transport frame body 155 is a pair of support brackets 156 for supporting each of the two guide ring bodies 150 and 151 positioned on the upper side, and A connection body 157 formed by integrally connecting and fixing each support bracket 156 and bending the pipe material in a substantially U-shape when viewed from a plan view, and a support plate 158 attached across both sides of the connection body 157 , And a guide rail 159 supported by the support plate 158 and the like.

The guide rail 159 receives and guides the conveyance chain 154 between the two guide rings 150 and 151.

A cylindrical support boss 160 is connected and fixed to an intermediate portion of the connecting body 157 in the longitudinal direction. This support boss unit 160 rotatably supports the rotation shaft 162 as an input shaft of the supply and transport device 17 on which the sprocket 161 is mounted via a bearing (not shown). The rotation shaft 162 is provided with a tension arm 163 in a state supported so as to be able to swing a balance.

At one end of the tension arm 163, one guide ring body 152 that functions as a tension ring body is supported, and is fixed to the other end of the tension arm 163 and the support bracket 156 on one side. A tension spring 165 is mounted between the spring supports 164. The tension arm 163 is configured to swing and press in a direction in which the guide ring body 152 imparts a tension force to the conveyance chain 154 by the pressing force of the tension spring 165.

A fixing connection member 166 for connecting and supporting the supply and transport frame body 155 to an oil tank 23 as an example of a fixing member on the base side is provided. As shown in Fig. 22, the fixing connecting member 166 is configured by bending a pipe material in an approximately L-shape when viewed from the front and rear directions of the body, and the one end side in the longitudinal direction is in the supply and transport frame body 155. It is integrally connected and fixed to the middle portion of the connection body 157 and the support boss portion 160.

The other end side in the longitudinal direction of the fixing connecting member 166 is connected and fixed to the upper surface of the oil tank 23 by a plurality of portions with different connection directions.

In addition, as shown in Figs. 21 and 22, the other end side of the fixing connection member 166 is disposed in a state extending toward the body transverse direction, and the other end of the fixing connection member 166 On the side, a first bracket 167 and a second bracket 168 formed by bending the plate material in an L-shape when viewed from the front and rear directions of the body are connected and fixed to different portions.

On the other hand, the first attachment body 169 to which the first bracket 167 is connected, and the second attachment body to which the second bracket 168 is connected to the left end of the top of the upper surface of the oil tank 23 170 is provided in a fixed state. In addition, when attaching to the oil tank 23 of the fixing connecting member 166, the vertical and horizontal portions of the first bracket 167 are in a state in which they are in surface contact with the first attachment body 169, in the vertical direction. And it is fastened and fixed with bolts 171 toward the left and right directions. Further, in a state in which the horizontal surface portion of the second bracket 168 is in surface contact with the second attachment body 170, it is fastened and fixed with a bolt 172 in the vertical direction. In this way, the fixing connection member 166 is connected and fixed to the upper surface of the oil tank 23 by a plurality of portions in a state in which the connection direction is different.

Accordingly, in this embodiment, the supply and transport device 17 is configured to be attached to the base body in a fixed position.

The sprocket 174 (an example of an upper electric rotating body) provided on the mowing input shaft 103 with a supply/transport transmission mechanism 173 for transmitting power to the supply/conveyor device 17, and the supply/conveyor device 17 A sprocket 175 provided on the input shaft (an example of a lower electric rotating body) and a drive chain 176 as an endless rotating table wound over them are provided.

The drive chain 176 is configured to be wound over the respective sprockets 174 and 175 through an opening K formed in the cylindrical case 177 covering the outer circumferential side of the harvesting input shaft 103.

That is, the cylindrical case 177 covering the outer circumferential side of the harvesting input shaft 103 is the end-side case portion 178 covering the outer circumferential side of the left side (an example of the other side in the gas transverse direction) of the harvesting input shaft 103 ), a transverse cylindrical frame 18 as a case body portion covering the outer circumferential side inside the body in the transverse direction of the vehicle than the left end of the harvesting input shaft 103, the end-side case portion 178 and the transverse cylindrical frame (18) Distributed and arranged along the circumferential direction of the harvesting input shaft 103 between, and comprising a plurality of connecting bodies 179 connecting the end-side case portion 178 and the transverse cylindrical frame 18 Has been.

In addition, as shown in Figs. 23 and 24, a connection member 180 in which three connecting bodies 179 are integrally formed is attached to the left end of the transverse cylindrical frame 18. The connection member 180 has an external shape of a substantially triangular shape as viewed from the side, and an attachment plate-shaped portion 182 having an insertion hole 181 for inserting the cutting input shaft 103 in the center thereof. At the same time, it is constituted by integrally forming three connecting bodies 179 in a state protruding from the vicinity of the triangular top portion of the plate-shaped portion 182 for attachment toward the left outer side. And it is fastened and fixed to the transverse cylindrical frame 18 with a bolt 183 at an intermediate position of each connector 179.

Further, the end-side case portion 178 is bolted to the left side of the connection member 180. This end-side case portion 178 is formed in an approximately triangular shape when viewed from the side, and is inserted through a hole for mounting the bearing 184 as a support member for rotatably supporting the mowing input shaft 103 in the center ( 185) is formed. The end-side case portion 178 is fastened and fixed with a bolt 186 to the left end of each connecting body 179 in each of the vicinity of the triangular top.

As shown in Fig. 23, spline processing is applied to a portion protruding from the left end of the transverse tubular frame 18 in the harvesting input shaft 103 to the left and outer sides, and the transmission mechanism 173 for feeding and transporting The sprocket 174 on the upper side and the driven side electric pulley 106 are spline-fitted. The sprocket 174 is fitted and fitted in a state in which the position in the rotation axis direction is regulated by the sleeves 187 on both left and right sides. In addition, with the driven-side electric pulley 106 fitted and fitted, the sprocket 174 or the driven-side electric transmission by bolts 189 fastened to the shaft end of the mowing input shaft 103 through the backing plate 188 The pulley 106 is fixed to prevent it from falling off.

The sprocket 174 is provided in correspondence with the installation position of the connecting body 179 in the cylindrical case 177, and the drive chain 176 is in a state that passes between the plurality of connecting bodies 179, It is mounted across both sprockets 174 and 175.

That is, the opening K through which the drive chain 176 passes is formed by arranging adjacent connecting bodies 179 spaced apart from each other.

Then, the driven-side electric pulley 106 and the end-side case portion 178 are supported by the transverse cylindrical frame 18 so as to be integrally detachable.

That is, when the bolt 189 attached to the shaft end of the harvesting input shaft 103 and the three bolts 186 connecting the end-side case portion 178 and the three connecting bodies 179 are removed, respectively, the driven side The electric pulley 106 and the end-side case portion 178 can be removed from the mowing input shaft 103 integrally including the bearing 184. Moreover, it can also be attached by the opposite operation.

By removing the driven-side electric pulley 106 in this way, when the mowing part 3 is rotated around the longitudinal axis Y and moved to the maintenance position, the mowing part 3 is in a good state that members do not interfere with each other. Can be moved.

[Other embodiment]

Hereinafter, another embodiment is enumerated.

(1) In the first embodiment, the transmission mechanism 125 for supply and transport is provided in a state positioned on the right side (inside the body transverse direction) than the supply and transport device 17, and the power to the mowing input shaft 103 is A configuration in which the driven driven-side electric pulley 106 (input electric rotating body) to be input is located on the left side (outside the body transverse direction) than the supply and transfer device 17 is shown, but is limited to such a configuration. In addition, the order of the supply/conveyance device 17, the supply/transport transmission mechanism 125, and the driven-side electric pulley 106 along the body width direction may be appropriately replaced.

(2) In the first embodiment, the supply and transfer transmission case 126 has a configuration including the end-side support cylinder 132, but the supply and transfer transmission case 126 and the end-side support cylinder 132 are separated from each other. You may consist of a member.

(3) In the second embodiment, the supply and transport device 17 is connected and fixed to the oil tank 23, but instead, the supply and transport device 17 is connected and fixed to a dedicated support frame body. It may be configured.

(4) In the second embodiment described above, the transmission mechanism 125 for supply and transport has a configuration including the drive chain 176 as an endless rotating table. Instead, a configuration including a transmission belt may be used.

(5) In the second embodiment, in the cylindrical case 177, adjacent connecting bodies 179 among the plurality of connecting bodies 179 are disposed to be spaced apart from each other, so that the opening for passing the endless rotating stage ( Although it was set as the structure in which K) was formed, a part of the circumferential direction of a cylindrical case may be cut out, and the opening K may be formed.

Further, as the plurality of connecting bodies 179, it has been shown that three connecting bodies 179 are provided, but as the plurality of connecting bodies 179, two or four or more connecting bodies 179 may be provided. .

(6) In each of the above embodiments, the mowing portion is supported so that it can swing around the longitudinal axis over the operating position and the open position (maintenance position), but a combine not provided with such a configuration may be used.

(7) In each of the above embodiments, it has been shown that the supply and conveyance device 17 includes two guide rings 121 and 122 as a plurality of guide rings, but three or more guide rings as a plurality of guide rings It may be a configuration including a sieve.

(8) In each of the above-described embodiments, the combine of 6 lines is shown, but the number of lines less than 6 lines or more than 6 lines may be used.

(9) In the above embodiment, the HST 65 for harvesting is shown to be supported by the left vertical surface 23a of the oil tank 23, but is not limited to such a configuration, and the HST 65 for harvesting is used. It may be configured to be supported by a dedicated support frame extending from the base frame 21.

(10) In the above embodiment, the HST 65 for harvesting is provided in a state located above the rear portion of the oil tank 23, but is not limited to such a configuration, and the HST 65 for harvesting is The oil tank 23 may be provided in a state positioned above the front side, or the harvesting HST 65 may be provided in a state positioned above the front and rear intermediate portions of the oil tank 23.

In addition, instead of the structure provided in such a manner that it is positioned above the oil tank 23, it may be positioned at the front outside, the rear outside, or the lateral outside of the oil tank 23. In addition, the oil tank 23 is not limited to a configuration in which the engine 7 and the gas are lined up in the transverse direction, and the oil tank 23 is located at a position separated from the engine 7 or the mowing unit 3. It may be a structure to be provided.

(11) In the above embodiment, a branch transmission mechanism 64 for branching transmission of the power of the engine 7 to the HST 65 for mowing and the threshing device 4 is provided on the left side of the oil tank 23, but this The installation position of the branch transmission mechanism 64 may be provided on the right side of the oil tank 23 or may be disposed above the oil tank 23, and is not limited to the left side of the oil tank 23.

In addition, without having such a branch transmission mechanism 64, an electric system for transmitting the power of the engine 7 to the HST 65 for mowing, and the power of the engine 7 to the threshing device 4 A configuration in which the electric system is installed independently may be used.

(12) In the above embodiment, the mowing portion 3 is supported so that it can swing around the longitudinal axis over the operating position and the maintenance position, but a combine not provided with such a configuration may be used.

The present invention can be applied to a combine that mows upright grains and threshing while running the aircraft.

3: Savings
7: engine
10: threshing feed chain
17: supply conveying device
18: cylindrical case body
21: body frame
23: oil tank
38: gas side rotation holding member
103: mowing input shaft
104: input power mechanism
106: electric rotating body for input
121, 122: guide ring body
123: Unauthorized team meeting
125: transmission mechanism for supply and transport
126: supply transfer electric case
132: end-side support cylinder
134: support for transport
147: relay transmission mechanism
148: front and rear transmission shaft
166: fixing connection member
174: upper electric rotating body
175: lower electric rotating body
176: Unauthorized Team
177: cylindrical case
178: end side case portion
179: connector
184: support member
K: opening

Claims (16)

A harvesting unit for harvesting and conveying the upright grain stem to the rear, an engine for driving, and a mowing transmission device for shifting the power from the engine and transmitting it to the harvesting unit are provided,
The engine is located at a site near one side in the width direction of the aircraft, and the mowing transmission is located at a site near the other side in the width direction of the aircraft,
An oil tank storing hydraulic oil is provided in a state in which the engine and the gas are horizontally aligned, and the mowing transmission device is provided in a state in which the mowing transmission device is located on a side opposite to the engine with respect to the oil tank,
A transverse transmission shaft for transmitting the power of the engine to the mowing transmission is provided in a state extending along the transverse direction of the aircraft,
A threshing device for performing a threshing treatment for the grain harvested by the harvesting unit and a grain sorting treatment for the threshing treated product is provided,
A combine, wherein a branch transmission mechanism for branching and transmitting the power of the engine transmitted through the transverse transmission shaft to the mowing transmission and the threshing unit is provided in a state located at the other side of the gas transverse direction with respect to the oil tank. The method of claim 1,
The combine, wherein the mowing transmission is located above the oil tank. The method of claim 2,
The combine, wherein the mowing transmission is located above a rear portion of the oil tank. The method according to any one of claims 1 to 3,
The combine, wherein the mowing transmission is supported on a side wall of the oil tank. The method according to any one of claims 1 to 3,
The combine, wherein the transverse transmission shaft is provided in a state in which the oil tank is located on the rear side of the body. The method of claim 5,
A threshing device for performing a threshing treatment for the grain harvested by the harvesting unit and a grain sorting treatment for the threshing treated product is provided,
The combine, wherein the transverse transmission shaft is located in front of the body than the threshing device. The method of claim 5,
The combine, wherein the mowing transmission is provided in a state in which the transverse transmission shaft is positioned in front of the aircraft. The method according to any one of claims 1 to 3,
An input transmission mechanism for transmitting power from a branch power output shaft in the branch transmission mechanism to a shift input shaft in the mowing transmission device is provided, and the branch power output shaft is located at a lower side of the mowing transmission device. . The method according to any one of claims 1 to 3,
The combine, wherein the harvesting input shaft of the harvesting unit is located in front of the vehicle than the shift output shaft of the harvesting transmission device. The method of claim 9,
A combine, wherein an output transmission mechanism for transmitting power from the transmission output shaft to the harvesting input shaft is provided with respect to the oil tank on the same side as the harvesting transmission device in a gas transverse direction. The method of claim 10,
The combine, wherein the output transmission mechanism is provided on an outer surface of the oil tank on the other side in the gas transverse direction. The method of claim 10,
The output transmission mechanism is configured to transmit power by a transmission belt, and is configured to be switchable to a transmission state in which a tension force is applied to the transmission belt, and a non-operation state in which the tension force is released,
A combine provided with a manual operation tool for switching the output power transmission mechanism from the transmission state to the non-power state. The method of claim 12,
The combine, wherein the manual operation device is provided on an outer surface of the oil tank on the other side of the gas transverse direction. The method according to any one of claims 1 to 3,
The harvesting portion is supported by the support frame body on the side of the aircraft so as to be able to swing around the longitudinal axis over a maintenance position in which the front portion of the aircraft is opened by moving toward the operating position for the harvesting operation and the front side of the aircraft,
The combine, wherein the mowing transmission is provided in a state located behind the body of the support frame body. delete delete

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