JP6536980B1 - Combine - Google Patents

Abstract

The present invention provides a combine that can suppress vibration transmitted to a supply device for supplying urea water. A second threshing drum (38) for transporting a second product connecting the front and the rear of the right wall (4B) of the threshing apparatus (4) on the left side of the first threshing drum (9) The exhaust purification system is installed on the upper side of the purification device frame (20) by connecting the right wall (4B) of the threshing device (4) and the rear portion of the control unit (5) with the purification device frame (20). 12) and a urea purification device (14), connecting the outlet of the exhaust gas purification device (12) and the inlet of the urea purification device (14) with a connecting pipe (13), and at the rear of the connecting pipe (13) An injection device (17) for injecting urea water is provided, and a supply device (18) for pressure-feeding the urea water to the injection device (17) is provided in front of the dust discharge port (39) of the second lifting grain cylinder (38). , Fixing the supply device (18) to the airframe frame (1) through the support member (19), the support member (19) And it is separated from (20). [Selected figure] Figure 7

Description

  The present invention relates to a combine equipped with a supply device for supplying urea water to a purification device.

  In the conventional combine, an exhaust gas purification device for removing impurities in exhaust gas discharged from the engine by connecting the rear portion of the steering unit and the right wall of the threshing device with the purification device frame, and exhaust gas purification A urea purification device for purifying nitrogen oxides in exhaust gas discharged from the device and a jetting device for jetting urea to the urea purification device are provided, and urea water is supplied to the jetting device to a frame supporting the purification device frame The technology for attaching the feeding device is known. (Patent Document 1)

Patent No. 6179832

  However, in the technology of Patent Document 1, there is a possibility that the vibration generated in the exhaust gas purification device or the like is transmitted to the supply device, and the supply device may prematurely fall into an operation failure such as being unable to pump urea water.

  Then, the main subject of this invention is providing the combine which can suppress the vibration transmitted to the supply apparatus which supplies urea water, and the next subject is many through the air inlet to the pot of the threshing apparatus. An object of the present invention is to provide a combine that can draw in air.

The present invention which solved the above-mentioned subject is as follows.
That is, the invention according to claim 1 is characterized in that a threshing device (4) for threshing and sorting the grain is provided on the upper left portion of the machine body frame (1) carrying the engine (E), and the machine body frame (1) In the combine which provided the control part (5) which a pilot rides in the upper right part of and the gren tank (7) for storing the threshed and sorted kernels on the rear side of the control part (5) ,
The lower part of the right wall (4B) of the threshing apparatus (4) and the upper part of the left wall (7A) of the grain tank (7) are connected by a first grain transfer barrel (9) for transporting grains, and the first On the left side of the grain barrel (9), a second grain canal (38) for conveying a second product linking the front and the back of the right wall (4B) of the threshing apparatus (4) is provided in a backward slanting manner The right wall (4B) of the threshing device (4) and the rear portion of the control unit (5) are connected by a purifier frame (20), and discharged from the engine (E) above the purifier frame (20) An exhaust purification device (12) for purifying impurities in the exhaust gas and a urea purification device (14) for purifying nitrogen oxides in the exhaust gas discharged from the exhaust purification device (12), The outlet of the device (12) and the inlet of the urea purification device (14) are connected by a connecting pipe (13), and the connecting pipe (13) Supply device for injecting urea water to the injection device (17) in front of the dust discharge port (39) of the second lifter cylinder (38) provided with an injection device (17) for injecting urea water at the rear part (18) is provided, and the supply device (18) is fixed to the machine body frame (1) through the support member (19), and the support member (19) is separated from the purification device frame (20) It is a combine characterized by that.

  The invention according to claim 2 forms an intake port (67) for sucking air in a chisel (66) in the right wall (4B) of the threshing apparatus (4), and in a side view, the supply device (18) 2. The combine according to claim 1, wherein the rear face of the inner peripheral portion of the intake port (67) is faced.

  The invention according to claim 3 is the combine according to claim 2, wherein the supply device (18) is shifted to the upper part of the inner peripheral portion of the intake port (67) in a side view.

  Invention of Claim 4 arrange | positioned the said supply apparatus (18) between the 1st grain lifting barrel (9) and the 2nd grain lifting barrel (38) in a plain view. It is a combine described in the section.

The invention of claim 5, wherein, after connecting the tail pipe (15) to the outlet of the urea purification unit (14), in which the Terupai flop (15) is passed through the front of the first AgeKoku cylinder (9) The combine according to any one of claims 1 to 4, wherein the vicinity of a drive chamber (37) provided at the lower part of the discharge port (36) of the first fried grain cylinder (9) is passed.

  According to the first aspect of the present invention, the first grain transfer yard (9) for transporting grains in the lower part of the right wall (4B) of the threshing apparatus (4) and the upper part of the left wall (7A) of the gren tank (7). ) And connects the front and rear of the right wall (4B) of the threshing apparatus (4) to the left side of the first The rear wall of the threshing device (4) is connected to the rear of the control unit (5) by the purifier frame (20), and the engine (E) is mounted on the upper side of the purifier frame (20). The exhaust gas purification device (12) for purifying impurities in the exhaust gas discharged from the) and the urea purification device (14) for purifying nitrogen oxides in the exhaust gas discharged from the exhaust gas purification device (12), The outlet of the exhaust gas purification device (12) and the inlet of the urea purification device (14) are connected by the connection pipe (13), and the connection pipe (13) Supply device (18) for injecting urea water to the injection device (17) in front of the dust discharge port (39) of the second discharge grain cylinder (38) by providing the injection device (17) for injecting urea water at the rear part And the supply member (18) is fixed to the machine body frame (1) via the support member (19), and the support member (19) is separated from the purification device frame (20). (12) To prevent vibration generated by the urea purification device (14), the injection device (17), etc. from being transmitted to the supply device (18) to prevent the supply device (18) from malfunctioning Can.

  According to the second aspect of the present invention, in addition to the effect of the first aspect, the right wall (4B) of the threshing apparatus (4) is provided with an air inlet (67) for sucking air into the persimmon (66). Since the supply device (18) is made to face the rear of the inner peripheral portion of the intake port (67) in side view, the air, in particular the traveling wind, is made from the front of the inner peripheral portion of the intake port (67). It can suction efficiently and blow air to the Chinese cabbage (66).

  According to the invention of claim 3, in addition to the effect of the invention of claim 2, the supply device (18) is shifted to the upper portion of the inner peripheral portion of the intake port (67) in side view, Air, in particular traveling air, can be sucked from the front of the inner circumferential portion of the air inlet (67) more efficiently and blown to the box (66).

  According to the invention of claim 4, in addition to the effect of the invention according to any one of claims 1 to 3, in front view, the feeding device (18) comprises the first threshing drum (9) and the first (2) Since it is disposed between the grain lifting barrels (38), dust adhering to the outer surface of the dust outlet (39) of the second lifting grain barrel (38) can be blown off efficiently by the traveling wind rearward.

According to the invention of claim 5, in addition to the effect of the invention according to any one of claims 1 to 4, a tail pipe (15) is connected to the outlet of the urea purification device (14), Terupai the flop (15) after passing through the front of the first AgeKoku cylinder (9), near the first AgeKoku cylinder (9) of the drive chamber provided in the lower outlet (36) (37) The space formed at the rear of the drive chamber (37) can be used effectively.

It is a top view of a combine. It is a left view of a combine. It is a reference front view of an exhaust gas purification device and a urea purification device. It is a reference front perspective view of an exhaust gas purification device and a urea purification device. It is a reference rear perspective view of an exhaust gas purification device and a urea purification device. It is a front perspective view explaining a supply apparatus. It is a right side view explaining a supply device. It is a reference front perspective view of a purification device frame. It is a front view explaining a hook and a lock pin. It is a top view explaining a hook and a lock pin.

  As shown in FIGS. 1 and 2, the general purpose combine is provided with a traveling device 2 consisting of a pair of left and right crawlers traveling on the soil surface below the body frame 1, and harvests the cereals in the field on the front side of the body frame 1. The threshing device 4 is provided at the back left side of the pre-removal processing device 3 and the threshing device 4 for threshing and sorting off the harvested gravel is provided at the rear right side of the removal pre-processing device 3 A control unit 5 is provided on which a pilot rides.

  An engine room 6 for interiorizing an engine E is provided at the lower part of the control unit 5, and a gren tank 7 for storing grains subjected to threshing and sorting is provided on the rear side of the control unit 5, and a rear side of the gren tank 7 A discharge cylinder 8 is provided to discharge the grain to the outside. Further, the lower part of the threshing device 4 and the upper part of the gren tank 7 are communicated by a first grain transfer cylinder 9 for transporting grains from the threshing device 4 to the gren tank 7.

  The pre-removal processing apparatus 3 includes a transport device 3A that transports backward while raising the cereal straw in the field, and a cutting blade device 3B that cuts the stock origin of the cereal straw transported to the rear lower portion of the transport device 3A; It comprises an auger device 3C that gathers on the left side the cereals transported to the rear side of the device 3A, and a feeder house 3D that transports the gathered cereals to the threshing device 4.

  As shown in FIGS. 3 to 5, the threshing drum cover 60 provided on the upper side of the threshing drum of the threshing device 4 is provided with a support shaft 61 provided on the top of the left wall 4A of the threshing device 4 and extending in the front-rear direction. It is rotatably supported. As a result, by rotating the threshing drum cover 60 about the support shaft 61 to form a large space above the threshing drum, maintenance of the threshing drum and the like can be easily performed.

  Further, the right extending extension 62 provided on the lower right side of the threshing drum cover 60 is detachably attachable to a threshing frame 63 extending in the front-rear direction provided on the upper portion of the right wall 4B of the threshing apparatus 4. It is fixed.

  A steering seat frame 50 extending in the left-right direction for supporting the pilot seat is provided on the lower rear side of the steering unit 5. The left portion of the cockpit frame 50 is connected to an inverted U-shaped left frame 52 provided at the front middle portion of the airframe frame 1 via a connecting member 51 extending in the vertical direction. Further, the right portion of the cockpit frame 50 is connected to an inverted U-shaped right frame 54 provided on the front right portion of the machine frame 1 via a connecting member 53 extending in the vertical direction.

  An exhaust pipe 10 for exhausting the exhaust gas burned by the engine E to the outside is connected to an exhaust port of the engine E installed in the engine room 6.

  The exhaust pipe 10 is provided with an exhaust gas purification device (DPF) 12 for purifying impurities in exhaust gas and a urea purification device (SCR) 14 for purifying nitrogen oxides in exhaust gas exhausted from the exhaust gas purification device 12. ing. Maintenance work such as replacement of parts of the exhaust gas purification device 12 and the urea purification device 14 can be performed by removing the front lid. The exhaust gas purification device 12 is internally provided with an oxidation catalyst (DOC) on the upstream side and a particulate filter (DPF) on the downstream side.

  The exhaust port of the engine E and the inlet formed at the front of the exhaust purification device 12 are connected by the flexible first connection pipe 11, and the outlet formed at the rear of the exhaust purification device 12 and the urea purification device The inlet formed in the front of the 14 is connected by a flexible second connection pipe ("connection pipe" in the claims) 13, and the outlet formed in the rear of the urea purification device 14 is flexible Third connection pipe 15 is connected. In addition, an injection device 17 for injecting urea water to the urea purification device 14 via the second connection pipe 13 is connected to the rear of the second connection pipe 13, and a flexible connection pipe is connected to the injection device 17. A supply device 18, which is a pump for pumping urea water via, is connected thereto, and a urea water tank (not shown) for storing urea water is connected to the supply device 18 via a flexible connection pipe.

  As shown in FIGS. 6 and 7, the supply device 18 disposed below the urea purification device 14 is fixed to the machine frame 1 via the support member 19. The support member 19 is formed of a front frame 19A and a rear frame 19B formed in a substantially U shape in a front view, and a connecting member 19C connecting the left portion of the front frame 19A and the left portion of the rear frame 19B. . The supply device 18 is detachably attached to the right surface of the connecting member 19C, the front frame 19A and the lower portion of the rear frame 19B are fixed to the airframe frame 1, and the support member 19 mounts the exhaust gas purification device 12 and the urea purification device 14 thereon. It is not connected with the frame etc. which support the purifier frame 20 mentioned later. As a result, it is possible to suppress that the vibrations generated by the exhaust gas purification device 12 and the urea purification device 14 are transmitted to the supply device 18.

  In a front view, the supply device 18 is disposed between the first raised grain cylinder 9 and a second raised grain cylinder 38 that conveys a second product such as a stabbed grain to the upstream portion of the sorting rack of the threshing device 4 . As a result, the traveling wind generated when the vehicle is traveling can be blown rearward between the threshing device 4 and the grain tank 7.

  In the side view, the supply device 18 is provided on the front side of the dust discharge port 39 of the second raised grain cylinder 38 in the front-rear direction. As a result, it is possible to prevent the accumulation of dust, such as dust, falling from the dust outlet 39 on the supply device 18. Further, the supply device 18 is disposed in the middle between the fuselage frame 1 and the reduction port of the second grain transfer barrel 38 in the vertical direction. Thereby, the length of the flexible connection pipe which connects the supply apparatus 18 and the injection apparatus 17 can be shortened.

  The feeding device 18 is disposed on the upper rear side of the air inlet 67 for sucking the air into the bales 66 in axial view of the bales 66 that blows selection air to the sorting rack of the threshing device 4. As a result, the front of the air inlet 67 is opened, and a large amount of blowing air (air) can be sucked from the front of the air inlet 67 toward the balustrade 66.

  The inner diameter of the third connection pipe (“tail pipe” in the claims) is formed to be larger than the outer diameter of the outlet of the urea purification device 14. Thus, the air around the outlet of the urea purification device 14 can be sucked into the third connection pipe 15 to lower the temperature of the exhaust gas discharged from the urea purification device 14 into the third connection pipe 15.

  The third connection pipe 15 extends from the outlet of the urea purification device 14 to the vicinity of the upper inclined wall 32 of the notch S above the exhaust gas purification device cover 75 described later, and then, approximately 90 degrees on the left side It is bent and extends to the left through the space between the drive chambers 37 which are formed to extend downward to the discharge section 36 of the left first threshing barrel 9 and the first throttling barrel 9, The back side is bent approximately 90 degrees and is extended rearward while being in proximity to the left portion of the first ups and downs 9. The driving chamber 37 is provided with a gear for driving the rotating shaft of the impeller provided in the discharge unit 36. Thus, the threshing drum cover 60 can be easily pivoted about the support shaft 61, and the dust accumulated on the exhaust gas control device cover 75 is prevented from falling to the third connection pipe 15 and burning. be able to. In addition, the third connection pipe 15 is detachably fixed to the first raised grain cylinder 9 via a stay (not shown) provided at the front of the first raised grain cylinder 9. Thereby, the third connection pipe 15 can be easily maintained in a predetermined posture.

  The exhaust purification device 12 and the urea purification device 14 are fixed to the purification device frame 20 via the mounting plate 16. The exhaust purification device 12 is attached to the left side of the purification device frame 20 on the threshing device 4 side, and the urea purification device 14 is attached to the right side of the purification device frame 20 on the grain tank 7 side.

  As shown in FIG. 8, the purification device frame 20 includes a first left and right frame 21 extending in the left and right direction, and a second left and right frame 22 extending in the left and right direction provided on the rear side of the first left and right frame 21. The third left and right frame 23 extending in the left and right direction provided on the rear side of the second left and right frame 22, the first front and rear frame 24 extending in the front and rear direction, and the right on the first front and rear frame 24 It is formed of a second front and rear frame 25 extending in the front and rear direction. The first left and right frames 21, the second left and right frames 22, and the third left and right frames 23 are collectively referred to as the left and right frames A, and the first front and rear frames 24 and the second front and rear frames 25 are collectively referred to as the front and rear frames B. Say.

  The rear surface of the left portion of the first left and right frame 21, the left surface of the left portion of the second left and right frame 22, and the left surface of the left portion of the third left and right frame 23 are connected by a first front and rear frame 24. The rear surface of the right portion of the first left and right frame 21 and the front surface of a portion shifted to the right in the middle portion of the second left and right frame 22 are connected by a second front and rear frame 25. Further, the lower surfaces of the first left and right frames 21, the lower surfaces of the second left and right frames 22, the lower surfaces of the third left and right frames 23, the lower surfaces of the first front and rear frames 24, and the lower surfaces of the second front and rear frames 25 It is provided at the same position. As a result, the portion of the purification device frame 20 extending to the engine room 6 can be reduced, and a large space can be secured in the engine room 6.

  The rear surface of the left portion of the second left and right frame 22 and the front surface of the left portion of the third left and right frame 23 are connected by a first reinforcing frame 26 extending in the front and rear direction. The front surfaces of the right portions of the left and right frames 23 are connected by a second reinforcing frame 27 extending in the front-rear direction. Thereby, the deformation of the purification device frame 20 can be prevented. The lower surfaces of the second left and right frames 22, the lower surfaces of the third left and right frames 23, the lower surface of the first reinforcing frame 26, and the lower surface of the second reinforcing frame 27 are provided at the same position in the vertical direction. As a result, the portion of the purification device frame 20 extending to the engine room 6 can be reduced, and a large space can be secured in the engine room 6.

  In the upper surface of the first reinforcing frame 26 and the upper surface of the second reinforcing frame 27, an opening used when the mounting plate 16 is fixed is formed. The rear surfaces of the second left and right frames 22 and the front surfaces of the third left and right frames 23 located on the extension of the second front and rear frames 25 are connected by a third reinforcing frame 28. Thereby, the deformation of the purification device frame 20 can be further prevented.

  On the front face of the first left and right frame 21, a pair of left and right front stays 21A connecting the purification device frame 20 to the upper surface of the pilot seat frame 50 supporting the pilot seat of the steering unit 5 is provided. On the left side of the rear of the first front and rear frame 24, a left stay 24A is provided which connects the purifier frame 20 to the upper surface of the threshing frame 63 of the threshing device 4. Thus, the purifier frame 20 can be connected and fixed to the cockpit frame 50 and the threshing frame 63. The lower surface of the middle portion of the left stay 24A is connected to the machine body frame 1 via a connecting member 55 extending in the vertical direction. Thereby, the deformation of the purification device frame 20 can be further prevented.

  The rear surface of the right portion of the first left and right frame 21 and the left surface of the front portion of the second front and rear frames 25 are connected by a first plate 21B, and the second plate 22A is provided on the front surface of the right portion of the second left and right frame 22 ing.

  As shown in FIGS. 9 and 10, the first plate 21B of the purifier frame 20 and the left stay 24A are connected by a first support member 40 made of a round pipe or the like. In a front view, the first support member 40 extends upward from the first plate 21B to the upper side of the exhaust purification device 12, bends approximately 90 degrees to the left, and extends to the left after the exhaust purification device 12 And bend downward approximately 90 degrees, and then extend downward to reach the left stay 24A. Further, in a plan view, the first support member 40 extends from the first plate 21B to the rear left side and reaches the left stay 24A. The portion of the first support member 40 extending upward from the first plate 21B to the upper side of the exhaust gas purification device 12 is referred to as the right support member 40A, and is bent approximately 90 degrees to the left in the first support member 40. A portion extending to the left side to the left side of the exhaust gas purification device 12 and bent downward approximately 90 degrees is referred to as a horizontal support member 40B, and extends to the lower side of the first support member 40 to the left stay 24A. The portion leading to it is called a left side support member 40C.

  A locking member 41 formed in a rectangular shape is fixed to the upper surface of the rear portion of the horizontal support member 40B. On the upper surface of the locking body 41, a lock plate 42 formed in a rectangular shape, in which the longitudinal direction is aligned in the left-right direction, is fixed. The right portion of the lock plate 42 is more than the right portion of the locking body 41. It extends to the right.

  A front extension 42A extending upward is formed at the front of the lock plate 42, and a rear extension 42B extending upward is formed at the rear of the lock plate 42. A lock pin 43 extending in the front-rear direction is bridged between the right portion of the rear portion 42A and the right portion of the rear extension portion 42B.

  It is fixed to the left surface of the upper vertical wall 31 near the front side of the discharge part 36 of the upper vertical wall 31 and the upper inclined wall 32 of the grain tank 7 and the upper front of the upper inclined wall 32 and extends to the left The first fixing member 47 is formed in a U-shape in which the upper vertical wall 31 side is opened in a plan view in which the first fixing member 47 is provided.

  On the left surface of the first fixing member 47, a second fixing member 48 extending to the left is provided. In plan view, the second fixing member 48 is formed in a U-shape in which the first fixing member 47 side is opened.

  A support shaft 49 extending in the front-rear direction is erected on the second fixing member 48, and an intermediate portion of the hook 44 is rotatably supported by the support shaft 49. In addition, the left side of the hook 44 is formed with a substantially arc-shaped recessed portion in order to facilitate engagement with the lock pin 43. Thereby, the hook 44 and the lock pin 43 are engaged in the vicinity of the front side of the discharge part 36 of the first dry grain cylinder 9 to improve the adhesion between the discharge part 36 of the first dry grain cylinder 9 and the gren tank 7 Can.

  As shown in FIG. 5, the lower portion of the notch S of the glen tank 7 largely expands toward the left, the rear of the gren tank 7 largely expands toward the left, and the rear of the gren tank 7 The expansion is larger toward the left side than the lower side portion of the notch portion S of the glen tank 7. As a result, the engagement position between the hook 44 and the lock pin 43 becomes close to the center-of-gravity position of the glen tank 7 in the left-right direction, and the sway of the gren tank 7 in the left-right direction can be suppressed.

  It is preferable to provide the engagement position of the hook 44 and the lock pin 43 above the rotation support point (not shown) on the upper side of the grain tank 7. Thereby, the engagement state of the hook 44 and the lock pin 43 can be maintained suitably.

  As shown in FIGS. 9 and 10, the front portion of the threshing frame 63 and the left portion of the locking body 41 are connected by a second support member 45 made of a round pipe or the like. In a front view, the second support member 45 extends upward from the threshing frame 63 to the upper side of the exhaust purification device 12, curves to the right, and then extends to the upper right to the left of the locking body 41. It has reached the bottom of the Further, in plan view, the second support member 45 extends rearward and rightward from the threshing frame 63 and reaches the left portion of the locking body 41, and the second support member 45 and the locking body 41 are at about 90 degrees. Crosses. Thereby, the locking body 41 can be firmly supported on the upper side of the exhaust purification device 12 to prevent the deformation of the locking body 41, and the upper portion of the gren tank 7 can be made into the threshing device 4 via the hook 44 and the lock pin 43. It can be locked securely. In addition, the rigidity of the first support member 40 can also be enhanced to prevent the deformation of the first support member 40.

  A front portion of the right wall 4B of the threshing device 4 and an intermediate portion in the front-rear direction of the third reinforcing frame 28 of the purifier frame 20 are connected by a third support member 46 formed of a round pipe or the like. In front view, the third support member 46 extends upward and to the right from the right wall 4B and reaches the lower portion of the third reinforcing frame 28. Further, in plan view, the third support member 46 extends to the right from the right wall 4B and reaches the lower portion of the third reinforcing frame 28. Thereby, the deformation of the purification device frame 20 is prevented, and the purification device frame 20 can be firmly fixed to the airframe frame 1 via the right wall 4B of the threshing device 4, the cockpit frame 50, and the like.

  The upper portion of the first plate 21B of the purifier frame 20 and the upper portion of the left side support member 40C of the first support member 40 are connected by a first mounting member 70 made of a round pipe or the like having a smaller diameter than the first support member 40. In front view, the first mounting member 70 extends upward from the first plate 21B to reach between the exhaust gas purification device 12 and the horizontal support member 40B, bends approximately 90 degrees to the left, and extends to the left Leading to the top of the left side support member 40C. Further, in a plan view, the first mounting member 70 extends rearward and leftward from the first plate 21B and reaches the left side support member 40C. As a result, the rigidity of the first support member 40 is increased, and the deformation of the first support member 40 can be prevented. The portion of the first mounting member 70 extending upward from the first plate 21B to the exhaust purification device 12 and the horizontal support member 40B is referred to as the right mounting member 70A and is bent approximately 90 degrees to the left and then to the left A portion extending to the upper portion of the left side support member 40C is referred to as a horizontal mounting member 70B.

  A second mounting member 71 is provided at a portion of the first mounting member 70 biased to the rear of the horizontal mounting member 70B. In front view, the second mounting member 71 extends downward and to the left from a portion biased to the rear of the horizontal mounting member 70B and faces the right wall 4B of the threshing device 4. Further, in plan view, the second mounting member 71 extends from the portion biased to the rear of the horizontal mounting member 70B to the front left side and faces the right wall 4B of the threshing device 4. As a result, the harness connected to the purification device frame 20 can be fixed to the second mounting member 71 or the like to facilitate wiring of the harness.

  At a front portion of the horizontal mounting member 70B of the first mounting member 70, a third mounting member 72 which extends rearward and extends rearward of the exhaust gas purification device 12 in plan view is provided. A fourth mounting member 73 is provided at the rear of the horizontal mounting member 70B of the first mounting member 70. The fourth mounting member 73 extends to the rear right side and intersects the rear of the third mounting member 72 in plan view. The horizontal mounting member 70B of the first mounting member 70, the third mounting member 72, and the fourth mounting member 73 are provided at the same height.

  On the upper side of the horizontal mounting member 70B of the first mounting member 70, the third mounting member 72, and the fourth mounting member 73, an exhaust gas purification device cover 75 covering the upper side of the exhaust gas purification device 2 via a stay is removable. It is provided. The exhaust gas control device cover 75 is formed in a substantially mountain shape in a front view. As a result, deposition of scale and the like can be prevented on the outer peripheral portion of the exhaust gas purification device 12, and ignition of the scale and the like can be prevented. Further, the downward inclination angle toward the right side of the right portion of the exhaust gas purification device cover 75 is formed larger than the downward inclination angle toward the left side of the left portion of the exhaust gas purification device cover 75. Thereby, it is possible to prevent the accumulation of soot and the like mixed in the grain discharged from the discharge cylinder 8 on the right portion of the exhaust gas purification device cover 75.

  The exhaust purification device 12 and the urea purification device 14 fixed to the purification device frame 20 are provided at substantially the same position as the threshing body cover 60 of the threshing device 4 in the vertical direction.

  At the front of the left wall 7A of the glen tank 7 facing the urea purification device 14, a notch S having an opening on the front side and the right side is formed. Thus, the exhaust gas purification device 12 and the urea purification device 14 can be provided side by side in the left-right direction and provided between the threshing device 4 and the gren tank 7.

  The portion of the left wall 7A of the glen tank 7 located forward of the first raised grain cylinder 9 is an upper vertical wall 31 and an upper inclined wall extending downward to the right from the lower end of the upper vertical wall 31 in front view 32, a vertical wall 33 extending downward from the lower end of the upper inclined wall 32, a lower inclined wall 34 extending downward to the left from the lower end of the vertical wall 33, and a lower end from the lower end of the lower inclined wall 34 It is formed by a lower vertical wall 35 extending to the side. The notch S is a space defined by the upper inclined wall 32, the vertical wall 33, and the lower inclined wall 34.

  The upper inclined wall 32 extends downward to the right at an inclination angle of 45 degrees with respect to the horizontal plane, the vertical wall 33 is formed above the transport spiral 65 of the grain tank G, and the lower inclined wall 34 with respect to the horizontal plane It extends downward to the left at an inclination angle of 30 degrees. Thereby, the grain transported to the grain tank 7 by the first grain growing cylinder 9 can be dropped to the transport spiral 65 efficiently.

Reference Signs List 1 airframe frame 4 threshing device 4B right wall 5 control unit 7 glen tank 7A left wall 9 first retried barrel 12 exhaust purification device 13 second connection pipe (connection pipe)
14 Urea purification device 15 third connection pipe (tail pipe)
Reference Signs List 17 injection device 18 supply device 19 support member 20 purification device frame 36 discharge port 37 drive chamber 38 second pumped-solid cylinder 39 dust exhaust port 66 箕 67 air intake E engine

Claims (5)

A threshing device (4) for threshing and sorting grains is provided on the upper left side of an airframe frame (1) equipped with an engine (E), and a rider boarding the upper right side of the airframe frame (1) In the combine which provided the control part (5) which carries out, and provided the grain tank (7) which stores the grain which carried out the threshing and the sorting process on the rear side of the control part (5),
Connecting the lower part of the right wall (4B) of the threshing apparatus (4) and the upper part of the left wall (7A) of the gren tank (7) with a first grain transfer cylinder (9) for transporting grains;
The second threshing drum (38) for transporting a second product connecting the front and the rear of the right wall (4B) of the threshing apparatus (4) to the left of the first threshing drum (9) Located on the slope,
The right wall (4B) of the threshing device (4) and the rear of the control unit (5) are connected by a purifier frame (20),
An exhaust gas purification device (12) for purifying impurities in exhaust gas discharged from the engine (E) above the purification device frame (20), and in exhaust gas discharged from the exhaust gas purification device (12) Provide a urea purifier (14) to purify nitrogen oxides in
An injector (17) for connecting the outlet of the exhaust gas purifier (12) and the inlet of the urea purifier (14) by a connecting pipe (13) and injecting urea water to the rear of the connecting pipe (13) Provide
A supply device (18) for pressure-feeding the aqueous urea to the injection device (17) is provided in front of the dust discharge port (39) of the second lift barrel (38),
The combine device is characterized in that the supply device (18) is fixed to the machine body frame (1) through the support member (19), and the support member (19) is separated from the purification device frame (20). .   In the right wall (4B) of the threshing device (4), an air inlet (67) for suctioning air is formed in the chisel (66), and in the side view, the feeder (18) is included in the air inlet (67). The combine according to claim 1, which faces the rear of the circumference.   The combine according to claim 2, wherein the supply device (18) is shifted to the upper part of the inner peripheral portion of the air inlet (67) in a side view.   The combine according to any one of claims 1 to 3, wherein the feeding device (18) is disposed between the first and second harvest kernels (9, 38) in a front view. After the connecting the tail pipe (15) to the outlet of the urea purification unit (14), the Terupai flop (15) is passed through the front of the first AgeKoku cylinder (9), said first AgeKoku cylinder ( The combine according to any one of claims 1 to 4, wherein the vicinity of a drive chamber (37) provided at the lower part of the discharge port (36) of 9) is passed.

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