JP7036156B2 - combine - Google Patents

Description

The present invention relates to a combine equipped with an exhaust gas purification device.

In the conventional combine, when the SCR catalyst is installed as an exhaust purification device, the urea water tank that stores urea water is supported at the front of the right bottom wall of the Glen tank that stores grains, and the water supply port of the urea tank is supported. The technique of facing the front of the front wall of the Glen tank is known. (Patent Document 1)

Japanese Unexamined Patent Publication No. 2016-42850

However, in the technique described in Patent Document 1, the weight of the front part of the Glen tank becomes heavy, and the Glen tank can be easily returned from the open position (maintenance position) to the storage position (storage work position) on the machine frame. In addition, there is a problem that the urea water after use cannot be easily taken out from the urea water tank of the exhaust purification device.

Therefore, an object of the present invention is to provide a combine that can reduce the weight of the front part of the Glen tank and easily treat the urea water after use from the urea water tank of the exhaust purification device to the outside. ..

The present invention that solves the above problems is as follows.
That is, the invention according to claim 1 is provided with a threshing device (4) for threshing the grain on the upper left side of the machine frame (1) on which the engine (E) is mounted, and threshing is performed on the right side of the threshing device (4). In a combine provided with a grain tank (7) for storing threshing grains.
An exhaust gas purification device (20) for purifying the exhaust gas of the engine (E) is provided between the grain removal device (4) and the Glen tank (7), and the exhaust gas purification device (20) is the engine (E). DPF (21) that removes particulate matter in the exhaust gas discharged from the exhaust gas, and SCR catalyst that purifies the nitrogen oxidizing substance in the exhaust gas after passing through the DPF (21) by reducing it with ammonia generated from urea water. An injection device (24) for injecting urea water is provided in a connection pipe (23) having (22) and connecting the outlet of the DPF (21) and the inflow port of the SCR catalyst (22). A supply device (26) for supplying urea water and a urea water tank (28) for storing the urea water supplied by the supply device (26) are provided in 24), and the urea water tank (28) is replaced with the Glen. The first cover (68) is detachably provided on the lower side of the right wall (7B) of the Glen tank (7) by arranging it in the space below the right bottom wall (7G) in the rear part of the tank (7), and the urea. The right side wall and the bottom wall of the water tank (28) are covered with the first cover (68), and the first cover (68) is the first extending portion (68A) and the first extending portion (68A). It is formed from a second extending portion (68B) extending downward to the left from the lower end portion and a third extending portion (68C) extending downward to the left from the lower end portion of the second extending portion (68B). The combine is characterized in that the inclination angle of the third extending portion (68C) is set to a gentler inclination than the inclination angle of the second extending portion (68B).

According to the second aspect of the present invention, a threshing device (4) for threshing a grain is provided on the upper left side of a machine frame (1) on which an engine (E) is mounted, and threshed grains are provided on the right side of the threshing device (4). In a combine provided with a grain tank (7) for storing grains,
An exhaust gas purification device (20) for purifying the exhaust gas of the engine (E) is provided between the grain removal device (4) and the Glen tank (7), and the exhaust gas purification device (20) is the engine (E). DPF (21) that removes particulate matter in the exhaust gas discharged from the exhaust gas, and SCR catalyst that purifies the nitrogen oxidizing substance in the exhaust gas after passing through the DPF (21) by reducing it with ammonia generated from urea water. An injection device (24) for injecting urea water is provided in a connection pipe (23) having (22) and connecting the outlet of the DPF (21) and the inflow port of the SCR catalyst (22). A supply device (26) for supplying urea water and a urea water tank (28) for storing the urea water supplied by the supply device (26) are provided in 24), and the urea water tank (28) is replaced with the Glen. The first cover (68) is detachably provided on the lower side of the right wall (7B) of the Glen tank (7) by arranging it in the space below the right bottom wall (7G) in the rear part of the tank (7), and the urea. The right side wall and the bottom wall of the water tank (28) are covered with the first cover (68), and the second cover (67) extending from the lower part of the right wall (7B) of the Glen tank (7) to the lower side is provided. The first cover (68) is detachably provided at the lower part of the second cover (67), and a reinforcing member (69) is provided at the inner peripheral portion of the rear end portion of the first cover (68). The combine is characterized in that the water supply port (28A) of the urea water tank (28) is provided above the reinforcing member (69) .

According to the invention according to claim 1, an exhaust gas purification device (20) for purifying the exhaust gas of the engine (E) is provided between the grain removal device (4) and the Glen tank (7), and the exhaust gas purification device (20) is provided. Reduces the nitrogen oxidizing substance in the exhaust gas after passing through the DPF (21), which removes particulate matter in the exhaust gas discharged from the engine (E), with ammonia generated from urea water. An injection device (24) for injecting urea water is provided in a connection pipe (23) connecting the outlet of the DPF (21) and the inlet of the SCR catalyst (22), which has an SCR catalyst (22) for purification. A supply device (26) for supplying urea water to the injection device (24) and a urea water tank (28) for storing the urea water supplied by the supply device (26) are provided, and the urea water tank (28) is replaced with Glen. It is placed in the space below the right bottom wall (7G) at the rear of the tank (7), and the first cover (68) is detachably provided on the lower side of the right wall (7B) of the Glen tank (7) to provide a urea water tank. Since the right side wall and the bottom wall of (28) are covered with the first cover (68) and the lower part of the first cover (68) is inclined downward to the left, the weight of the front part of the Glen tank (7) can be reduced. For example, when the rear part of the Glen tank (7) is pivotally supported from the storage work position on the machine to the maintenance position on the outside of the machine, the front part of the Glen tank (7) is less likely to hang down at the maintenance position, and this Glen The tank (7) can be easily returned from the maintenance position to the storage work position.
In addition, the straw waste, muddy water, and urea water overflowing from the urea water tank (28) mixed inside the first cover (68) and the like can be discharged to the outside. Further, it is possible to prevent the urea water tank (28) from colliding with an obstacle such as a ridge and being damaged.

According to the invention of claim 2, in addition to the effect of the invention of claim 1, a second cover (67) extending from the lower part to the lower side of the right wall (7B) of the grain tank (7) is provided. The first cover (68) is detachably provided at the lower part of the second cover (67), and the first cover (68) is a first extension extending downward from the lower end portion of the second cover (67). The portion (68A), the second extending portion (68B) extending downward to the left from the lower end of the first extending portion (68A), and extending downward to the left from the lower end of the second extending portion (68B). Since it is formed from the existing third extending portion (68C) and the inclination angle of the third extending portion (68C) is set to a gentler inclination than the inclination angle of the second extending portion (68B). The first cover (68) can be manufactured at low cost. Further, a reinforcing member (69) is provided on the inner peripheral portion of the rear end portion of the first cover (68), and the water supply port (28A) of the urea water tank (28) is more than the reinforcing member (69) in the rear view of the machine body. Since it is provided above, the urea water can be easily replenished to the urea water tank (28).

It is a left side view of the combine. It is a plan view of a combine. It is a left side view explaining an engine and a purification device. It is a right side view explaining an engine and a purification device. It is a top view explaining an engine and a purification device. It is a front view explaining the purification apparatus provided in the recess of a grain tank. It is a rear view explaining the purification apparatus provided in the recess of a grain tank. It is a top view explaining the purification apparatus provided in the recess of a grain tank. It is a rear view explaining a urea water tank and a protective cover. It is a rear view explaining the urea water tank and the protective cover during attachment / detachment. It is a right side view explaining the urea water tank. It is a right side view explaining the grain take-out outlet of a grain tank. It is a right side view explaining the suspension member of a urea water tank. It is a front view explaining the suspension member of a urea water tank. It is a right side view explaining the auger drive device provided on the front side of a grain tank. It is explanatory drawing which operates the auger drive device manually. It is a right side view explaining the 1st fried grain cylinder and the 2nd fried grain cylinder. It is a top view explaining the 1st fried grain cylinder and the 2nd fried grain cylinder. It is a rear view explaining the 1st winnowing and the 2nd winnowing. (A) of the work equipment switching lever is an upright posture state, (b) is a lying posture state, and is a left side view explaining a seat. It is a left side view explaining a pedestal and a suspension. (A) is a plan view and (b) is a right side view of the base of the lateral discharge auger.

As shown in FIGS. 1 and 2, the combine is provided with a traveling device 2 consisting of a pair of left and right crawlers traveling on the soil surface under the machine frame 1, and the grain culm in the field is cut on the front side of the machine frame 1. A reaping device 3 is provided, a threshing device 4 for threshing and sorting the harvested culms is provided on the rear left side of the reaping device 3, and a control unit 5 on which the operator rides is provided on the rear right side of the reaping device 3. ing.

An engine room 6 for mounting the engine E is provided on the lower side of the control unit 5, and a grain tank 7 for storing threshed and sorted grains is provided on the rear side of the control unit 5, and the grain tank 7 is provided. A discharge auger 8 including a vertical discharge auger 8A extending in the vertical direction and a horizontal discharge auger 8B extending in the front-rear direction is provided on the rear side to discharge grains to the outside.

As shown in FIGS. 3 to 5, an intake pipe (not shown) for supplying purified air is connected to the intake port of the engine E, and the exhaust gas burned by the engine E is connected to the exhaust port of the engine E. A front exhaust pipe 10 for exhausting air to the outside is connected.

An exhaust purification device 20 that purifies impurities in the exhaust gas is connected to the outlet of the front exhaust pipe 10. The exhaust purification device 20 purifies the DPF 21 that removes particulate matter in the exhaust gas and the SCR catalyst 22 that purifies the nitrogen oxide substance (NOx) in the exhaust gas exhausted from the DPF 21 by reducing it with ammonia generated from urea water. It is composed of.

The outlet of the DPF 21 and the inlet of the SCR catalyst 22 are connected by a flexible connecting pipe 23, and the rear part of the connecting pipe 23 is a valve that injects urea water into the SCR catalyst 22 via the connecting pipe 23. An injection device 24 is provided.

A supply device 26, which is a pump for supplying urea water to the injection device 24 via the flexible hose 25, is connected to the injection device 24, and the supply device 26 is a supply device via the flexible hose 27. A urea water tank 28 for supplying urea water is connected to 26. Further, a flexible rear exhaust pipe 11 for discharging the purified exhaust gas to the outside is connected to the outlet of the SCR catalyst 22.

The connecting pipe 23 is provided in the upper part between the DPF 21 and the SCR catalyst 22 so as to extend substantially linearly in the front-rear direction, and the injection device 24 is connected to the rear side of the connecting pipe 23. Further, the injection device 24 is fixed to a support member (not shown) provided at the rear of the SCR catalyst 22. As a result, urea water can be efficiently injected from the injection device 24 to the SCR catalyst 22 via the connecting pipe 23.

The supply device 26 is attached to a reinforcing plate 17 connected between the right front vertical frame 14 and the right rear vertical frame 15 that support the horizontal frame 16 for fixing the exhaust gas purification device 20, and the supply device 26 is mounted on a reinforcing plate 17 in a plan view. It is provided below the middle portion of the exhaust gas purification device 20 in the front-rear direction. As a result, the length of the hose 25 connecting the injection device 24 and the supply device 26 can be shortened, and urea water can be efficiently supplied from the supply device 26 to the injection device 24. As will be described later, the urea water tank 28 is provided at the rear of the right bottom wall 7G of the Glen tank 7.

As shown in FIGS. 6 to 8, the rear exhaust pipe 11 extends rearward from the outlet of the SCR catalyst 22 in a plan view, and is bent approximately 90 degrees to the left on the right side of the injection device 24 in the recess 30. It later extends toward the left side, bends to the rear side by approximately 90 degrees at the right portion of the threshing device 4, and then extends toward the rear side to reach the left side of the first fried grain cylinder 18. Further, the rear exhaust pipe 11 extends from the central portion of the SCR catalyst 22 toward the upper right portion of the threshing device 4 in the front view, and the central portion of the rear exhaust pipe 11 faces the rear side from the horizontal frame 16. It is fixed to a stay (not shown) that extends. As a result, the exhaust gas can be exhausted to the rear of the cockpit 5A of the cockpit 5 to maintain the surrounding environment of the cockpit 5A to a predetermined level or higher. Further, on the rear surface of the horizontal frame 16, a sensor 29 for detecting a nitrogen oxide substance in the exhaust gas passing through the rear exhaust pipe 11 is provided.

The first fried grain cylinder 18 is a device for transporting the grains that have been threshed and sorted by the threshing device 4 to the grain tank 7, and the lower part of the first fried grain cylinder 18 is the lower part of the right wall 4B of the threshing device 4. The upper part of the first threshing cylinder 18 is fixed to the upper part of the left wall 7A of the Glen tank 7.

The DPF 21 and the SCR catalyst 22 of the exhaust gas purification device 20 are provided between the threshing device 4 and the grain tank 7 in the longitudinal direction along the front-rear direction of the machine body, and have a left front vertical frame 13 extending upward from the machine body frame 1. , It is mounted on the right front vertical frame 14 and the horizontal frame 16 fixed to the upper part of the right rear vertical frame 15.

The upper wall 4E of the threshing device 4 is located below the upper wall 7E of the Glen tank 7, and is inclined downward toward the Glen tank 7 side and extends in the front-rear direction on the front side of the right side of the upper wall 4E. An inclined portion 4G is formed. Further, in front view, the upper end portions of the DPF 21 and the SCR catalyst 22 are provided so as to be offset below the upper wall 4E. As a result, on the upper side of the DPF 21 and the SCR catalyst 22, the stay 45 extending toward the upper right side from the inclined portion 4G of the threshing device 4 and the regulating member extending toward the left side from the left wall 7A of the grain tank 7 ( (Not shown) is provided, and the regulating member can be engaged with the stay 45 to regulate the vertical position of the grain tank 7.

The grain tank 7 is formed of a left wall 7A, a right wall 7B, a front wall 7C, a rear wall 7D, an upper wall 7E, a left bottom wall 7F, and a right bottom wall 7G. A recess 30 with open front and left sides is formed in the portion of the left wall 7A located on the front side of the first threshing cylinder 18, and the left wall 7A located on the rear side of the first threshing cylinder 18 is formed. At the site, a convex portion 50 formed by bulging toward the threshing device 4 is formed.

In front view, the SCR catalyst 22 enters the recess 30, and the DPF 21 is provided outside the recess 30. As a result, the DPF 21 and the SCR catalyst 22 can be provided side by side in the left-right direction between the threshing device 4 and the Glen tank 7, and the recess 30 is made smaller to suppress a decrease in the storage capacity of the Glen tank 7. be able to.

Further, the exhaust gas purification device 20 is provided at a relatively low position. As a result, the distance from the engine E to the exhaust gas purification device 20 is shortened, and the deterioration of the exhaust gas purification action of the exhaust gas purification device 20 can be reduced. Further, the presence of the upper part of the right wall 4B of the threshing device 4 and the recess 30 of the grain tank 7 makes it difficult for the atmospheric temperature of the DPF 21 and the SCR catalyst 22 to decrease, and the decrease of the exhaust gas purification action can be reduced.

The parts of the left wall 7A located in front of the first fried grain cylinder 18 are the upper left wall 31 extending downward from the left end of the upper wall 7E and the right side from the lower end of the upper left wall 31 in front view. An upward sloping wall 32 extending downward, an intermediate left wall 33 extending downward from the lower end of the upper sloping wall 32, and a downward sloping extending downward from the lower end of the intermediate left wall 33. It is formed by a wall 34 and a lower left wall 35 extending downward from the lower end of the lower inclined wall 34.

The lower end of the lower left wall 35 extends to the left end of the left bottom wall 7F of the grain tank 7, and the bottoms of the left bottom wall 7F and the right bottom wall 7G are before and after transporting grains to the vertical discharge auger 8A. A transport spiral 36 extending in the direction is provided.

The downward inclination angle of the upper inclined wall 32 is formed to be steeper than the downward inclined angle of the lower inclined wall 34. As a result, the grains transported to the grain tank 7 by the first frying cylinder 18 can be smoothly dropped to the lower part of the grain tank 7, and the grains can be efficiently transported by the transport spiral 36. The downward inclination angle of the upper inclined wall 32 is preferably formed to be steeper than the resting angle at which the grains can fall by their own weight. It is formed at an inclination angle of 45 degrees downward to the right with respect to the upper surface. The downward inclination angle of the downward inclined wall 34 is formed to be an inclined downward angle of 30 degrees with respect to the upper surface of the machine frame 1 in order to increase the storage capacity of the Glen tank 7. Further, the intermediate left wall 33 connecting the upper inclined wall 32 and the lower inclined wall 34 is formed at a position deviated to the right side of the upper side of the transport spiral 36. As a result, the grains conveyed to the grain tank 7 by the first frying cylinder 18 can be smoothly dropped by the lower part of the grain tank 7.

The outer peripheral portion of the exhaust purification device 20 is covered with a cover 40, and the cover 40 includes a right cover 41 extending upward from a portion of the horizontal frame 16 located on the right side of the SCR catalyst 22 and a right cover 41. The right inclined cover 42 extending from the upper end toward the upper left side, the left inclined cover 43 extending from the left end of the right inclined cover 42 toward the lower left side, and the left inclined cover 43 extending downward from the left end. It is formed by a left cover 44 that extends to a portion of the lateral frame 16 that is present and located on the left side of the DPF 21. As a result, it is possible to prevent the accumulation of straw debris and the like on the outer peripheral portion of the DPC and the like of the exhaust gas purification device 20, and prevent the ignition of the straw debris and the like.

In front view, the right-tilted cover 42 and the left-tilted cover 43 are formed in a substantially chevron shape, and in the present embodiment, the right-sided downward slope of the right-tilted cover 42 is formed to be gentler than the left-sided downward slope of the left-tilted cover 43. However, on the contrary, the right downward inclination of the right inclined cover 42 can be formed to be steeper than the left downward inclination of the left inclined cover 43. As a result, it is possible to prevent the paddy and the like mixed in the grains discharged from the discharged auger 8 from accumulating on the right inclined cover 42.

As shown in FIGS. 9 to 11, a urea water tank 28 is provided on the right side of the rear part of the right bottom wall 7G of the Glen tank 7. The urea water tank 28 is a fixed cover extending downward from the lower end of the right bottom wall 7G of the Glen tank 7 and the right wall 7B of the Glen tank 7 via the suspension member 90 (“second cover” in the claims). ) 67 is detachably hung. As a result, the weight of the front portion of the Glen tank 7 can be reduced, and the Glen tank 7 can be smoothly moved from the storage position to the open position and from the open position to the storage position.

At the lower part of the fixed cover 67, a front upper support portion 80A and a rear upper support portion 80B formed by bending a round steel or the like into a substantially U shape extending downward from the lower end portion of the fixed cover 67 are provided. .. A detachable cover (“first cover” in the claims) 68 is detachably fixed to the lower side of the fixed cover 67 via the front upper support portion 80A and the rear upper support portion 80B.

In the right side view, the lower end portion of the fixed cover 67 is formed so as to be inclined backward, and the upper end portion of the removable cover 68 is formed so as to be inclined backward so as to be parallel to the lower end portion of the fixed cover 67. As a result, the lower end of the fixed cover 67 and the upper end of the removable cover 68 can be brought into close contact with each other to suppress the invasion of foreign matter such as straw in the field. Further, in the front part of the detachable cover 68, the fixed cover 67 is also located behind the front part. As a result, a predetermined space can be formed in front of the removable cover 68, and the rear portion of the drive device 52 for transmitting the output rotation of the engine E to the transport spiral 36 or the like of the Glen tank 7 can be desired.

In the rear view, the removable cover 68 has a first extending portion 68A extending from the lower end portion of the fixed cover 67 to the right side of a substantially intermediate portion in the vertical direction of the right side wall of the urea water tank 28, and a first extending portion 68A. The second extending portion 68B extending from the lower end of the second extending portion 68B to the lower right side in the left-right direction of the right side wall of the urea water tank 28, and the lower end portion of the second extending portion 68B extending in the left-right direction of the bottom wall of the urea water tank 28. It is formed from a third extending portion 68C extending downward on the left side. As a result, it is possible to prevent the lower portion of the urea water tank 28, particularly the drain port 28B of the urea water tank 28, from colliding with the field and prevent the drain port 28B from being damaged. In addition, it is possible to prevent the invasion of straw dust, muddy water, etc. on the field into the removable cover 68, and to drain the urea water overflowing from the urea water tank 28 to the outside of the removable cover 68. The inclination angle of the second extending portion 68B is formed to be steeper than the inclination angle of the third extending portion 68C, and the left end portion of the third extending portion 68C and the right bottom wall 7G of the Glen tank 7 are formed. A gap of a predetermined interval is formed between them.

A reinforcing member 69 extending toward the inner peripheral portion is erected inside the rear portion of the first extending portion 68A, the second extending portion 68B, and the third extending portion 68C of the removable cover 68. There is. As a result, the rigidity of the detachable cover 68 can be increased to prevent the detachable cover 68 from being deformed at the time of attachment / detachment.

In the rear view, a substantially arcuate notch 69A is formed in the inner peripheral portion of the reinforcing member 69, and the reinforcing member 69 does not exist behind the water supply port 28A of the urea water tank 28. .. As a result, a large space can be secured behind the water supply port 28A of the urea water tank 28, and urea water can be easily supplied to the urea water tank 28.

A front arm 81A extending toward the right side is provided on the lower front side of the right bottom wall 7G of the grain tank 7, and a round steel or the like extending in the front-rear direction is formed on the right side of the front arm 81A. A front lower support portion 82A is provided, a rear arm 81B extending toward the right side is provided at the rear lower portion of the right bottom wall 7G of the grain tank 7, and a rear arm 81B is provided at the right portion of the rear arm 81B in the front-rear direction. A rear lower support portion 82B formed of extending round steel or the like is provided.

As shown in FIG. 10, when the detachable cover 68 is attached to the lower side of the fixed cover 67, the front lower hook provided at the right end portion of the third extending portion 68C of the detachable cover 68 ("" in the claim. The "third hook") 84A and the rear lower hook ("fourth hook" in the claim) 84B are the front lower support portion (the "third support portion" in the claim) 82A and the rear lower support portion (the "fourth hook" in the claim), respectively. 4th support ") Engage with 82B. Next, as shown in FIG. 9, the detachable cover 68 is rotated counterclockwise around the front lower support portion 82A and the rear lower support portion 82B, and the upper end portion of the first extending portion 68A of the detachable cover 68 is rotated. Front upper hook (“first hook” in claim) 83A and rear upper hook (“second hook” in claim) 83B provided in the front upper support portion (“first support portion” in claim), respectively. ) 80A and the rear upper support portion (“second support portion” in the claims) 80B. As a result, the detachable cover 68 can be easily attached / detached to / from the lower side of the fixed cover 67.

As shown in FIG. 12, on the right surface of the right bottom wall 7G of the Glen tank 7, a reinforcing plate (“first reinforcing plate” in the claim) 63 having an elliptical cross-sectional shape extending in the front-rear direction is provided. On the left surface of the fixed cover 67, a reinforcing plate (“second reinforcing plate” in claim) 64 having a triangular cross-sectional shape extending in the front-rear direction is provided downward. As a result, the rigidity of the right bottom wall 7G of the Glen tank 7 and the fixed cover 67 can be increased, and the deformation of the right bottom wall 7G of the Glen tank 7 and the fixed cover 67 can be prevented.

The urea water tank 28 is suspended behind the grain outlet 65 for discharging the grains remaining in the grain tank 7 to the outside via the hanging member 90. As a result, the paddy bag 66 can be attached to the grain take-out outlet 65, and the grains remaining in the grain tank 7 can be easily taken out.

As shown in FIGS. 13 and 14, the hanging member 90 has a substantially U-shaped front hanging portion 91 formed of round steel or the like and a substantially U-shaped rear hanging portion formed of round steel or the like. It is formed of a connecting portion 93 extending in the front-rear direction, which is formed of flat steel or the like connecting the left portion of the front hanging portion 91 and the left portion of the rear hanging portion 92. As a result, deformation of the hanging member 90 and the like can be prevented, and when the urea water tank 28 is attached to and detached from the hanging member 90, it is possible to prevent the connecting portion 93 from becoming an obstacle.

In front view of the aircraft, the front suspension portion 91 includes a left vertical portion 91A extending in the vertical direction, a right vertical portion 91B extending in the vertical direction, and a lower portion of the left vertical portion 91A and a lower portion of the right vertical portion 91B. It is formed from a horizontal portion 91C extending in the left-right direction to be connected.

At the upper part of the left vertical portion 91A, a plate-shaped left connecting portion 91D having a circular through hole for inserting an engaging member such as a bolt erected on the reinforcing plate 63 is provided, and the right vertical portion 91A is provided. A plate-shaped right side connecting portion 91E having an elliptical through hole having a long axis in the vertical direction for inserting an engaging member such as a bolt erected on the reinforcing plate 64 is provided on the upper portion of the above. There is.

In front view of the aircraft, the rear suspension portion 92 has a left vertical portion 92A extending in the vertical direction, a right vertical portion 92B extending in the vertical direction, and a lower portion of the left vertical portion 92A and a lower portion of the right vertical portion 92B. It is formed from a horizontal portion 92C extending in the left-right direction to connect the above.

At the upper part of the left vertical portion 92A, a plate-shaped left connecting portion 92D having a circular through hole for inserting an engaging member such as a bolt erected on the reinforcing plate 63 is provided, and the right vertical portion 92A is provided. A plate-shaped right side connecting portion 92E having an elliptical through hole having a long axis in the vertical direction for inserting an engaging member such as a bolt erected on the reinforcing plate 64 is provided on the upper portion of the above. There is.

As a result, the left side connecting portion 91D of the front hanging portion 91 and the left connecting portion 92D of the rear hanging portion 92 are fixed to the engaging member erected on the reinforcing plate 63, and then erected on the reinforcing plate 64. The right side connecting portion 91E of the front hanging portion 91 and the right connecting portion 92E of the rear hanging portion 92 are engaged with the engaged member while moving in the vertical direction, respectively, and the hanging member 90 is reinforced by the reinforcing plate 63. It can be easily attached and detached between the reinforcing plate 64 and the reinforcing plate 64.

A plate-shaped front connecting portion 94 for fixing the front wall of the urea water tank 28 is provided at a substantially intermediate portion in the left-right direction of the horizontal portion 91C of the front hanging portion 91, and a central portion in the left-right direction of the front connecting portion 94. Is formed with through holes through which fastening means such as bolts are inserted at predetermined intervals in the vertical direction.

A plate-shaped rear connecting portion 95 for fixing the rear wall of the urea water tank 28 is provided at a substantially intermediate portion in the left-right direction of the horizontal portion 92C of the rear hanging portion 92, and the rear connecting portion 95 is provided in the left-right direction. In the central portion of the above, a through hole is formed in which a fastening means such as a bolt is inserted at a predetermined interval in the vertical direction.

As a result, the urea water tank 28 can be securely fixed to the suspension member 90. Since the hanging member 90 can be easily attached / detached between the reinforcing plate 63 and the reinforcing plate 64, the urea water tank 28 can be attached / detached together with the hanging member 90 from between the reinforcing plate 63 and the reinforcing plate 64. can.

The vertical length of the left vertical portion 92A of the rear hanging portion 92 is formed to be the same as the vertical length of the left vertical portion 91A of the front hanging portion 91, and the right side of the rear hanging portion 92 is formed. The vertical length of the vertical portion 92B is formed to be longer than the vertical length of the right vertical portion 91B of the front hanging portion 91. As a result, the urea water tank 28 can be suspended between the right bottom wall 7G of the Glen tank 7 and the fixed cover 67 via the suspending member 90 while maintaining a horizontal posture without tilting in the front-rear direction.

The connecting portion 93 is provided with two support members 96 formed in a hook shape to support a plurality of hoses 27 at predetermined intervals in the front-rear direction. This makes it possible to prevent the hose 27 from hanging down.

Next, the drive device 52 that transmits the output rotation of the engine E to the transport spiral 36 or the like provided at the lower part of the Glen tank 7 will be described. As shown in FIG. 15, a pulley 53 is supported on the input shaft of the drive device 52. A belt 55 is wound around the pulley 53 and the pulley 54 to which the output rotation of the engine E is transmitted. A tension arm 56 for switching the tension of the belt 55 between a tension state and a relaxed state is provided on the lower side of the belt 55, and the vertical movement of the tip portion of the tension arm 56 is operated by the wire 57.

When the tip of the tension arm 56 moves upward, the tension of the belt 55 becomes tense and the output rotation of the engine E is transmitted to the drive device 52 to drive the transport spiral 36 and the like. On the other hand, when the tip of the tension arm 56 moves downward, the tension of the belt 55 becomes relaxed, the output rotation of the engine E is not transmitted to the drive device 52, and the transport spiral 36 and the like stop.

If the wire 57 breaks during the discharge of the grains stored in the grain tank 7, the tension of the belt 55 becomes relaxed, the output rotation of the engine E is not transmitted to the drive device 52, and the transport spiral 36 and the like are generated. There is a problem that it stops. In such a case, as shown in FIG. 16, a tool 58 such as a spanner is inserted into the base 56A of the tension arm 56 rotatably fixed to the support shaft, and the base 56A of the tension arm 56 is rotated counterclockwise. The tip of the tension arm 56 is moved upward. As a result, the tension of the belt 55 can be brought into a tense state, and the output rotation of the engine E can be transmitted to the drive device 52 to drive the transport spiral 36 and the like.

Next, the arrangement positions of peripheral devices such as the fuel filter 71 for light oil supplied to the first fried grain cylinder 18 and the engine E will be described. As shown in FIGS. 17 to 19, a lower cleaning port 18B for taking out the grains remaining in the first fried grain cylinder 18 is provided at the lower part of the first takeover portion 18A of the first fried grain cylinder 18. On the right side of the first takeover portion 18A, a side cleaning port 18C for taking out the grains in the first fried grain cylinder 18 to the outside is provided.

The lower cleaning port 18B is provided between the front-rear frame 1A extending in the front-rear direction of the machine frame 1 and the adjacent front-rear frame 1A. As a result, a predetermined space can be secured under the lower cleaning port 18B, and the paddy bag can be attached to the lower cleaning port 18B to easily take out the grains to the paddy bag.

The fuel filter 70 is provided on the rear side of the lower cleaning port 18B, and the pitching arm 71 for adjusting the height of the aircraft in the front-rear direction is provided on the front side of the lower cleaning port 18B to supply light oil to the engine E. The fuel pump 72 is provided on the right side of the lower cleaning port 18B, and the hose 27 is provided on the lower left side of the lower cleaning port 18B. As a result, the lower cleaning port 18B can be easily opened and closed.

Between the threshing device 4 and the first fried grain cylinder 18, a second fried grain cylinder 19 for reducing the second item to the sorting shelf of the threshing device 4 is provided. On the right side of the second fried grain cylinder 19, a cleaning port 19A for discharging the straw debris accumulated in the second fried grain cylinder 19 to the outside is provided, and between the first fried grain cylinder 18 and the cleaning port 19A. Gap at predetermined intervals is formed. As a result, the cleaning port 19A can be easily opened and closed, and the straw debris in the second frying cylinder 19 can be easily discharged to the outside.

The connecting pipe 73 extending in the front-rear direction connecting the first fried grain cylinder 18 and the stay 45 is provided on the right side of the second fried grain cylinder 19. As a result, the transport spiral in the second fried grain cylinder 19 can be taken out upward to easily perform maintenance work.

Next, a working machine switching lever 75 for driving a straw cutter (not shown) provided at the rear of the threshing device 4 will be described. As shown in FIG. 20 (a), when the working machine switching lever 75 is made to stand upright, the rotation of the straw cutter is stopped and the threshed culm is not cut. On the other hand, as shown in FIG. 20B, when the working machine switching lever 75 is tilted down, the straw cutter rotates and the threshed culm is cut and discharged to the outside.

In the left side view of the machine, when the work machine switching lever 75 is in the upright position, the grip portion 75A of the work switch lever 75 is located in front of the backrest, and the work machine switching lever 75 is in the down position. The grip portion 75A of the lever 75 is located above the seat portion of the driver's seat 5A. As a result, the operator can easily operate the work equipment switching lever 75 while sitting on the seat 5A. As shown in FIG. 8 and the like, the work equipment switching lever 75 is provided on the left side of the driver's seat 5A and at an intermediate position in the left-right direction of the exhaust gas purification device 20.

Next, a method of fixing the upper suspension base 46 and the lower suspension base 47 that support the rotating shaft (not shown) extending in the left-right direction of the cutting device 3 will be described. As shown in FIG. 21, an extension portion 46A extending downward is formed in the lower part of the front side of the upper suspension platform 46.

When fixing the upper suspension 46 to the upper side of the lower suspension 47, after engaging the extension portion 46A with the front upper portion of the lower suspension 47, the upper suspension 46 is placed on the upper side of the lower suspension 47. It is fixed to the suspension with a fastening means such as a bolt. Further, it is preferable that the crossing angle between the lower portion of the upper suspension base 46 and the extending portion 46A is formed at an acute angle. As a result, when a large force is applied to the upper suspension base 46 when the cutting device 3 is opened and closed, the upper suspension base 46 is suppressed from moving on the upper surface of the lower suspension base 47, and the upper suspension base 46 and the lower side are suppressed. The fixed state of the side suspension 47 can be reliably maintained.

A convex portion toward the lower suspension base 47 is formed in the middle portion in the front-rear direction of the upper suspension base 46, and a concave portion in which the convex portion of the upper suspension base 46 is formed is formed in the middle portion in the front-rear direction of the lower suspension base 47. When the upper suspension base 46 is fixed to the upper side of the lower suspension base 47, it is preferable to insert the convex portion of the upper suspension base 46 into the concave portion of the lower suspension base 47. As a result, the fixed state of the upper suspension base 46 and the lower suspension base 47 can be more reliably maintained.

Next, the angle sensor 76 that detects the vertical elevation angle of the lateral discharge auger 8B will be described.

As shown in FIG. 22, the upper part of the vertical discharge auger 8A and the rear part of the horizontal discharge auger 8B are the vertical auger metal 78A provided on the upper part of the vertical discharge auger 8A and the horizontal auger metal provided on the rear part of the horizontal discharge auger 8B. They are connected via 78B. The horizontal auger metal 78B is rotatably fixed to the left portion of the vertical auger metal 78A.

In a plan view, the rear portion of the lateral discharge auger 8B and the vertical auger metal 78A are connected by a connecting member 77 having a substantially L-shape. The rear portion of the lateral discharge auger 8B and the left portion of the connecting member 77 are fixed, and the rear portion of the vertical auger metal 78A and the connecting member 77 are rotatably fixed. Further, the connecting member 77 and the vertical discharge auger 8A are connected by an elevating cylinder 77A. As a result, the elevating cylinder 77A can be driven and the horizontal auger metal 78B can be rotated around the vertical auger metal 78A to raise and lower the front portion of the horizontal auger metal 8B in the vertical direction.

The angle sensor 76 is fixed to the left portion of the connecting member 77, and is provided in front of the vertical auger metal 78A in a slit formed in the rear portion of the sensor arm 76A provided on the rotation axis of the angle sensor 76 and extending in the front-rear direction. A pin 79 extending in the left-right direction provided in the portion is inserted. Thereby, the inclination angle in the vertical direction of the lateral discharge auger 8B can be detected.

1 Aircraft frame 4 Threshing device 7 Glen tank 7B Right wall 7G Right bottom wall 20 Exhaust purification device 21 DPF
22 SCR catalyst 23 Connection pipe 24 Injection device 26 Supply device 28 Urea water tank 28A Water supply port 63 Reinforcing plate (first reinforcing plate)
64 Reinforcing plate (second reinforcing plate)
67 Fixed cover (second cover)
68 Detachable cover (1st cover)
68A 1st extended part 68B 2nd extended part 68C 3rd extended part 69 Reinforcing member 80A Front upper support part (1st support part)
80B rear upper support part (second support part)
81A Front arm 81B Rear arm 82A Front lower support part (third support part)
82B Rear lower support part (4th support part)
83A Front upper hook (1st hook)
83B rear upper hook (second hook)
84A Front lower hook (3rd hook)
84B rear lower hook (4th hook)
90 Suspension member 91 Front suspension part 91D Left side connection part 92 Rear suspension part 92D Left side connection part 92E Right side connection part 93 Connection part 96 Support member E Engine

Claims (2)

A grain-removing device (4) for threshing grain culms is provided on the upper left side of the machine frame (1) on which the engine (E) is mounted, and a grain tank (7) for storing the threshed grains is provided on the right side of the threshing device (4). ) In the combine
An exhaust purification device (20) for purifying the exhaust gas of the engine (E) is provided between the grain removal device (4) and the Glen tank (7), and the exhaust purification device (20) is the engine (E). A DPF (21) that removes particulate matter in the exhaust gas discharged from the exhaust gas, and an SCR catalyst that purifies the nitrogen oxidizing substance in the exhaust gas after passing through the DPF (21) by reducing it with ammonia generated from urea water. Has (22)
An injection device (24) for injecting urea water is provided in a connection pipe (23) connecting the outlet of the DPF (21) and the inflow port of the SCR catalyst (22), and urea water is supplied to the injection device (24). A supply device (26) and a urea water tank (28) for storing the urea water supplied by the supply device (26) are provided.
The urea water tank (28) is placed in the space below the right bottom wall (7G) at the rear of the Glen tank (7).
A first cover (68) is detachably provided on the lower side of the right wall (7B) of the Glen tank (7).
The right side wall and the bottom wall of the urea water tank (28) are covered with the first cover (68).
The first cover (68) includes a first extending portion (68A), a second extending portion (68B) extending downward to the left from the lower end portion of the first extending portion (68A), and the first extending portion (68B). The second extending portion (68C) is formed from a third extending portion (68C) extending downward and to the left from the lower end portion of the second extending portion (68B), and the inclination angle of the third extending portion (68C) is the second extending portion (68C). The combine is characterized in that the slope is set to be gentler than the tilt angle of 68B). A grain-removing device (4) for threshing grain culms is provided on the upper left side of the machine frame (1) on which the engine (E) is mounted, and a grain tank (7) for storing the threshed grains is provided on the right side of the threshing device (4). ) In the combine
An exhaust purification device (20) for purifying the exhaust gas of the engine (E) is provided between the grain removal device (4) and the Glen tank (7), and the exhaust purification device (20) is the engine (E). A DPF (21) that removes particulate matter in the exhaust gas discharged from the exhaust gas, and an SCR catalyst that purifies the nitrogen oxidizing substance in the exhaust gas after passing through the DPF (21) by reducing it with ammonia generated from urea water. Has (22)
An injection device (24) for injecting urea water is provided in a connection pipe (23) connecting the outlet of the DPF (21) and the inflow port of the SCR catalyst (22), and urea water is supplied to the injection device (24). A supply device (26) and a urea water tank (28) for storing the urea water supplied by the supply device (26) are provided.
The urea water tank (28) is placed in the space below the right bottom wall (7G) at the rear of the Glen tank (7).
A first cover (68) is detachably provided on the lower side of the right wall (7B) of the Glen tank (7).
The right side wall and the bottom wall of the urea water tank (28) are covered with the first cover (68).
A second cover (67) extending downward from the lower part of the right wall (7B) of the grain tank (7) is provided, and the first cover (68) is detachably attached to the lower part of the second cover (67). Provided in
A reinforcing member (69) is provided on the inner peripheral portion of the rear end portion of the first cover (68).
A combine characterized in that the water supply port (28A) of the urea water tank (28) is provided above the reinforcing member (69) on the back surface of the machine body .

Images