JP2020078298A - Combine - Google Patents

Abstract

To facilitate a maintenance work of the inside of a grain tank and improve durability of a quality measurement device.SOLUTION: In a combine including a grain tank 7 for storing harvested grains, a side plate 50 of the grain tank 7 is provided switchably between a storage state in which grains can be stored by blocking a tank-inner storage space, and a maintenance state in which the storage space can be accessed by opening the storage space to the outside, further a reinforcement body is provided on the side plate 50.SELECTED DRAWING: Figure 5

Description

  TECHNICAL FIELD The present invention relates to a combine tank equipped with a grain tank for storing harvested grains and a quality measuring device for measuring the quality of grains by measuring the grains stored in the grain tank.

  Conventionally, the outer peripheral surface of the grain tank is configured by a wall body in which the front side surface, the rear side surface, and the left and right side surfaces are all connected in series, and is stored inside the wall body. A space was formed. Then, an opening is formed in a part of the wall constituting the grain tank, the quality measuring device enters from the outside through the opening, and the quality measuring device is mounted in an exposed state. (See, for example, Patent Document 1).

JP, 2014-68561, A

  In the above-mentioned conventional configuration, since the outer peripheral surface of the grain tank is constituted by the wall bodies that are all connected so as to be continuous in series, for example, after the harvesting work is completed, the particles are deposited and deposited on the inner wall surface of the storage space. There was a disadvantage that it was difficult to perform maintenance work inside the tank, such as cleaning work to remove remaining dust and residual grains.

  Further, in the above-described conventional configuration, since the quality measuring device is provided in a state of being exposed to the outside, although there is an advantage that maintenance work such as inspection and repair for the quality measuring device is easy to perform, rainwater or the like falls on the quality measuring device. There is a risk that the quality measuring device may be less durable.

  Therefore, it has been desired to facilitate the maintenance work inside the grain tank and improve the durability of the quality measuring device.

The characteristic configuration of the combine according to the present invention is provided with a grain tank for storing harvested grains,
At a location on the outer side in the lateral direction of the fuselage inside the grain tank, a quality measuring device for measuring the quality of the grain is provided,
The side plate on the side where the quality measuring device is provided in the outer peripheral portion of the grain tank has a storage state in which the storage space inside the tank is closed to enable storage of grains, and the storage space is provided outside. It is provided so as to be switchable to a maintenance state in which the storage space is opened to allow access to the storage space.

  According to the present invention, when performing a harvesting operation, the harvested crops can be stored in the storage space inside the grain tank by switching the side plate of the grain tank to the storage state. When the harvesting work is completed and maintenance work such as cleaning work is performed, the side plate of the grain tank is switched to the maintenance state. When the maintenance state is switched in this way, the storage space is opened to the outside, and the worker can enter the storage space.

  As a result, when the worker enters the storage space, maintenance work such as cleaning work for removing dust and residual grains adhering to and depositing on the inner wall surface of the storage space can be easily performed without trouble.

  Further, according to the present invention, since the quality measuring device is provided inside the grain tank, there is no fear that rainwater or the like will fall on the quality measuring device and the durability thereof will be reduced due to the rainwater. When the side plate of the grain tank is switched to the maintenance state, the worker can enter the storage space, so the worker can easily perform maintenance work on the quality measuring device provided inside the grain tank. Becomes

  Therefore, it is possible to easily perform the maintenance work inside the grain tank, and further, it is possible to improve the durability of the quality measurement device while easily performing the maintenance work for the quality measurement device. It was

  In the present invention, it is preferable that when the side plate is switched to the maintenance state, the quality measuring device is exposed in a state of facing the outside of the tank.

  According to this configuration, when the side plate is switched to the maintenance state, the quality measuring device is exposed in a state of facing the outside of the tank, so that the worker can perform maintenance work on the quality measuring device without going deep into the grain tank. You can do it. Therefore, it is possible to easily perform maintenance work for the quality measuring device without bothering.

In the present invention, the inside of the grain tank is provided with a front-back frame extending in the front-rear direction across the front portion and the rear portion of the grain tank,
It is preferable that the quality measuring device is supported by the front-rear frame.

  According to this configuration, since the front part and the rear part of the grain tank are connected by the front-rear frame, the side plate is switched to the maintenance state and the storage space is opened to the outside so that the grain tank is supported. It is possible to prevent a decrease in strength. Then, it becomes possible to stably support the quality measuring device using such a front-rear frame for reinforcement.

In the present invention, the inside of the grain tank is provided with a vertical frame extending in the vertical direction over the upper portion of the grain tank and the front-back frame,
It is preferable that the quality measuring device is supported by the vertical frame.

  According to this configuration, the up-down frame is firmly supported by using the front-rear frame and the upper and lower frame members having high rigidity such as the upper part of the grain tank. Then, the quality measuring device can be stably supported by the vertically oriented frame thus firmly supported.

In the present invention, the lower portion of the vertical frame is placed and supported in a state of being engaged with the front-back frame,
It is preferable that the upper portion of the vertical frame is connected to the upper portion of the grain tank.

  According to this configuration, when the connection between the upper portion of the vertically oriented frame and the upper portion of the grain tank is released, the engagement of the lower portion of the vertically oriented frame with the frontward and rearward oriented frame can be easily released. Can be easily removed. The vertical frame can be attached by engaging the lower part of the vertical frame with the front-back frame and then connecting the upper part of the vertical frame to the upper part of the grain tank. Therefore, since the vertical frame can be easily attached and detached, maintenance work of the quality measuring device can be further facilitated.

In the present invention, the vertical frame is formed in a frame shape,
It is preferable that the quality measuring device is housed in the frame of the vertically oriented frame.

  According to this configuration, since the quality measuring device is housed by using the vertical frame having a high rigidity due to the frame shape, it is possible to favorably support the quality measuring device while protecting it with the vertical frame. it can.

In the present invention, the quality measuring device measures the quality of the grain by temporarily measuring the grain to be measured and the grain temporarily stored in the temporary storage unit. Equipped with a measuring unit to measure,
It is preferable that the temporary storage section is located on the central side of the grain tank and the measuring section is located on the outer peripheral side of the grain tank.

  According to this configuration, since the temporary storage unit is located on the central side of the grain tank, the grains carried into the grain tank can be easily received and stored in the temporary storage unit. Since the measuring unit that requires maintenance work such as inspection and repair is located on the outer peripheral side of the grain tank, it is easy to access from the outside and the maintenance work can be performed easily.

It is the whole side view of a combine. It is a whole top view of a combine. It is a partial longitudinal rear view of a grain tank. It is a partial transverse top view of a grain tank. It is a perspective view of a grain tank in a maintenance state. It is a side view of a tank main body. It is a vertical section rear view of a grain tank in the state where the right side wall part is opened. It is a vertical cross-sectional rear view of the grain tank in the state which closed the right side wall part. It is a cross-sectional top view of a grain tank. It is a vertical section rear view of a right side wall part. It is a side view of a right side wall part. It is a perspective view which shows the support state of a quality measuring device. It is a perspective view of the upper part of an opening-and-closing wall part. FIG. 6 is an exploded perspective view of an operation lever arrangement portion. It is a vertical cross-sectional rear view which shows the mounting state of a toggle spring. It is a vertical section rear view showing a locking guide. It is a vertical section rear view showing a locking guide. It is a cross-sectional top view of the right side wall part of another embodiment. It is a flow chart of control operation of another embodiment.

  Hereinafter, a case where the embodiment of the present invention is applied to a self-removing combine will be described with reference to the drawings.

〔overall structure〕
As shown in FIG. 1 and FIG. 2, the combine according to the present invention is provided with a mowing unit 3 for mowing the planted grain culm in the front part of the traveling machine body 2 that is self-propelled by the pair of left and right crawler traveling devices 1, 1. ing. On the front right side of the traveling machine body 2, there is provided a driving section 5 whose periphery is covered with a cabin 4. Behind the operating unit 5, a threshing device 6 for threshing the culms cut by the reaping unit 3 and a grain tank 7 for storing the grains obtained by the threshing process are arranged side by side. It is deployed in the state. The grain tank 7 is located on the right side of the machine body, and the threshing device 6 is located on the left side of the machine body. That is, the operating unit 5 is located in front of the grain tank 7. An engine E is provided below the driver's seat 8 in the driver unit 5. At the rear of the traveling machine body 2 and behind the grain tank 7, a grain discharge device 9 for discharging the grains stored in the grain tank 7 to the outside of the machine is provided.

  In this embodiment, when defining the anteroposterior direction of the machine body, it is defined along the machine body traveling direction in the working state, and when defining the left and right direction of the machine body, the left side and the right side are defined in a state viewed in the machine body traveling direction view. . That is, the direction indicated by reference numeral (F) in FIGS. 1 and 2 is the front side of the machine body, and the direction indicated by reference numeral (B) in FIGS. 1 and 2 is the rear side of the machine body. The direction indicated by the symbol (L) in FIG. 2 is the left side of the machine body, and the direction indicated by the symbol (R) in FIG. 2 is the right side of the machine body.

  The reaper 3 is provided with a weeding tool 10 that guides the plant source of the planted grain culm to be reaped, and a plurality of raising devices 11 that cause the planted grain culled that has been weeded in a vertical posture. A hair clipper-type cutting device 12 for cutting the root of the planted grain culm, and a vertical conveyance that conveys the harvested grain culm backward while changing its posture so that it gradually falls to the sideways posture and supplies it to the threshing device 6. The device 13 and the like are provided. The upper side of the vertical transport device 13 is covered with a dustproof cover 14.

  Although not shown, the threshing device 6 performs threshing processing by handling the tip side in the handling room while sandwiching and transporting the supplied root side of the cut culm by the threshing feed chain. The processed product after the threshing process is sorted into grains, straw wastes and the like in the sorting section below. The grains are carried out to the outside on the right lateral side of the threshing device 6 by a not-shown most-conveying screw, and then are lifted by the lifting grain conveyor 15 to be transported into the grain tank 7. The grain tank 7 stores the grains fed from the threshing device 6. After that, the grain stored in the grain tank 7 is carried out to the outside by the grain discharging device 9.

  The bottom of the grain tank 7 is provided with a bottom screw 16 that rotates around the axis of the front-rear direction and stores the stored grains toward the rear side of the machine body. The grain discharging device 9 receives a grain discharged from the bottom screw 16 and conveys the grain upward, and a vertical feed screw conveyor 17 and a base end connected to the upper end of the vertical feed screw conveyor 17. And a horizontal feed screw conveyor 19 that conveys the grains in the horizontal direction from the discharge section 18 to the discharge port 18 at the tip.

[Quality measuring device]
Inside the grain tank 7, a quality measuring device 20 for measuring the quality of grain is provided.
As shown in FIG. 3, the quality measuring device 20 measures the quality by temporarily measuring the grain stored in the temporary storage unit 21 and the temporary storage unit 21 that temporarily stores the grain to be measured. The measuring part 22 which measures is provided. As shown in FIG. 3, the temporary storage unit 21 is located on the inner side of the grain tank 7, and the measuring unit 22 is located on the outer side of the grain tank 7. The measuring unit 22 is housed inside a housing case 23 formed in a hermetically sealed manner. The temporary storage unit 21 includes a storage case 24 having a substantially rectangular tube shape integrally connected to the inner side surface of the storage case 23, and can store grains therein.

  In the temporary storage part 21, a vertically-directed passage 25 penetrating in the vertical direction is formed inside the storage case 24, and a closed state (see FIG. 3) that closes the middle of the vertically-directed passage 25 in a horizontal posture and a vertical posture. Is provided with a shutter plate 26 whose posture can be changed to an open state (not shown) that opens the vertical passage 25, and an operation unit 27 which changes the posture of the shutter plate 26 by the driving force of an electric motor (not shown). There is. The temporary storage unit 21 receives and stores a part of the grains that are lifted by the fried grain conveyor 15 and transported to the inside of the grain tank 7.

  The fried conveyor 15 feeds the grains to the vicinity of the upper end portion by the screw conveyor 28, and then the feeding blades 29 provided at the upper end portion feed the grains through the opening 30 formed in the grain tank 7. Discharge toward the inner side. Some of the grains discharged by the delivery blade 29 are supplied to the temporary storage unit 21.

  The temporary storage unit 21 receives the released grains and stores the grains in the storage space 31 formed in the upper portion of the shutter plate 26 while the shutter plate 26 is switched to the closed state. You can When the shutter plate 26 is switched to the open state, the stored grains are dropped and discharged downward and returned to the inside of the grain tank 7.

  The measuring unit 22 irradiates the grain stored in the storage space 31 with light, and measures the internal quality of the grain by a known spectral analysis method based on the light obtained from the grain. To do. A window portion 32 through which light can be transmitted is formed on the side surface on the side of the measuring portion 22 of the side surface forming the storage space 31, and the measuring portion 22 irradiates the grain with light through the window portion 32, and Receives light from the grain.

[Storage case]
Next, the storage case 23 will be described.
As shown in FIGS. 3, 4 and 5, the storage case 23 includes a vertically oriented front wall portion 33 located on the front side, a vertically oriented rear wall portion 34 located on the rear side, and an upper end portion of the front wall portion 33. And a vertical plate-shaped upper connecting portion 35 connected to the upper end portion of the rear wall portion 34, a lower connecting portion 36 connected to the lower end portion of the front wall portion 33 and the lower end portion of the rear wall portion 34, the left side of the fuselage. It is configured to include an inner side wall portion 37 located on the (inner side of the tank) and extending in the vertical direction, and an outer side wall portion 38 located on the right side of the machine body (outer side of the tank) and extending in the vertical direction. The lower connecting portion 36 has a substantially L-shaped cross-sectional shape when viewed in the front-rear direction, and includes a vertical surface portion and a horizontal surface portion.

  The inner wall portion 37 is provided in a flat plate shape, and is integrally connected along the tank inner side end edges of the front wall portion 33 and the rear wall portion 34. The outer wall portion 38 has bent surfaces on both front and rear sides and is formed in a substantially U shape in a plan view. The outer side wall portion 38 is connected to the front wall portion 33 and the rear wall portion 34 by fastening the bolts Bo at a plurality of positions on the front and rear side bent surfaces. A lower bent surface for forming a bottom surface of the storage space is formed integrally with the lower portion of the outer wall portion 38 so as to be continuous with the horizontal surface portion of the lower connection portion 36. The outer wall portion 38 can be removed by loosening the bolts Bo at a plurality of locations. When the outer wall portion 38 is removed, the inside of the storage case 23 is opened, and the quality measuring device 20 can be inspected.

Each of the front wall portion 33, the rear wall portion 34, the upper connecting portion 35, and the lower connecting portion 36 in the storage case 23 forms a frame-shaped vertically oriented frame 39. In addition to the front wall portion 33 and the rear wall portion 34 that form the up-down frame 39, the inner wall portion 37 and the outer wall portion 38 supported by the up-down frame 39 respectively form a sealed storage space. Are formed. The quality measuring device 20 is housed in the frame of the vertically oriented frame 39 by being connected to the inner wall portion 37.
The support structure of the storage case 23 for the grain tank 7 will be described later.

[Grain tank]
Next, the grain tank 7 will be described.
As shown in FIGS. 8 and 9, the grain tank 7 is located on the front side 40 located on the front side of the machine, the rear side 41 located on the rear side of the machine, the right side 42 located on the right side of the machine, and the left side of the machine. The periphery of each of the left side surfaces 43 is surrounded. The upper side is covered with the upper side surface 44. Therefore, the grain storage space Q is formed by being surrounded by each of the front side surface 40, the rear side surface 41, the right side surface 42, the left side surface 43, and the upper side surface 44.

  A part of the right side wall part 45 (the opening/closing wall part 50 described later) which constitutes the right side surface 42 of the grain tank 7 closes the storage space Q to enable the storage of the grains, and the storage state. It is provided so that the space Q can be opened to the outside and can be switched to a maintenance state in which a worker can access the storage space Q.

  As shown in FIG. 5, the other side surfaces of the grain tank 7 except the right side surface 42, that is, the front side surface 40, the rear side surface 41, the left side surface 43, and the upper side surface 44 are all connected in series. The tank body 46 is formed by the wall member in the closed state. As shown in FIG. 9, in the left side wall portion 47 of the tank body portion 46 that constitutes the left side surface 43, a recessed portion 48 for disposing the fried food conveyor 15 in a state in which it is inserted is formed.

  The right side wall portion 45 of the grain tank 7 is positioned so as to face the right lateral side outward of the traveling machine body 2. The right side wall portion 45 can open a region in a range from the upper portion to the lower portion and the front portion to the rear portion. That is, as shown in FIGS. 5 and 7, an opening 49 is formed in the right side wall portion 45 in a state where it is widely opened so as to open a region in a range from the upper portion to the lower portion and from the front portion to the rear portion. There is. The opening 49 that is largely open in this way is configured to be closed by the openable/closable wall portion 50 (an example of a side plate) to form the storage space Q inside.

  As shown in FIGS. 5 and 6, the right side wall portion 45 includes an opening/closing wall portion 50 and a frame-shaped portion 51 surrounding the opening 49, and the frame-shaped portion 51 is connected to another side surface. , And constitutes a part of the tank body 46. As shown in FIG. 8, the opening/closing wall portion 50 is switched to the storage state, and the opening/closing wall portion 50 and the frame-shaped portion 51 are integrally connected as described later, thereby configuring the right side wall portion 45. ..

  As shown in FIG. 5, the opening/closing wall portion 50 is supported by the tank main body portion 46 so as to be capable of swinging and opening/closing around the axis Y1 of the vertically oriented support shaft 52 located behind the grain tank 7. At the right end of the rear side wall portion 53 that constitutes the rear side surface 41 of the tank main body portion 46, two rotation support portions 54 are provided at intervals in the vertical direction. The rotation support portion 54 includes a support base 55 protruding rearward, and a vertical support shaft 52 extending upward from the support base 55.

  A pivot bracket that is substantially U-shaped in side view is formed with an engaging hole that is engaged with the vertically oriented support shaft 52 from above from a position corresponding to the rotation support portion 54 in the opening/closing wall portion 50. 57 are connected. The pivot brackets 57 on both the upper and lower sides are fitted and engaged with the vertical support shaft 52 to support the opening/closing wall portion 50 swingably around the axis Y1 of the vertical support shaft 52. There is.

  Next, the structure for reinforcing the strength of the tank body 46 will be described.

  As shown in FIGS. 5, 6 and 9, a front-rear facing frame 58 is provided as a frame body extending in the machine front-rear direction across the front portion and the rear portion of the tank main body portion 46. The front-rear frame 58 is formed in a cylindrical shape, and is provided so as to extend across a front side wall portion 59 that forms the front side surface 40 and a rear side wall portion 53 that forms the rear side surface 41 of the tank body 46. .. The front-rear frame 58 is provided in a state of being located in the upper and lower intermediate portions of the right end portion of the machine body inside the grain tank 7. As shown in FIGS. 5 and 6, the front end of the front-rear frame 58 is provided so as to be inserted through the front side wall 59 and exposed to the outside on the front side. The rear end of the front-rear frame 58 is provided so as to be inserted through the rear side wall 53 and exposed to the outside on the rear side. The front-to-rear frame 58 is held in a state in which the front side wall portion 59 and the rear side wall portion 53 are respectively inserted and the detachment prevention pin (not shown) prevents the frame from coming off.

  A plurality of auxiliary frame bodies that extend in different directions from the front-rear direction frame 58 and connect the left-side wall portion 47 and the front-rear direction frame 58 as a planar tank structure different from the opening/closing wall portion 50 are provided. There is.

  As shown in FIGS. 5, 6, 8, and 9, the front-rear facing frame 58 is located at a position closer to the front side than the front-rear central portion of the front-rear facing frame 58 and at a position closer to the rear side than the front-rear central portion. There is provided a first auxiliary frame 61 made of a round bar as an auxiliary frame body that connects the left side wall portion 47 with the left side wall portion 47. As shown in FIG. 8, the first auxiliary frames 61 on both the front and rear sides extend from the connection position with the front-rear frame 58 to the upper left side and are connected to the upper side portion of the left side wall portion 47.

  Further, there is provided a second auxiliary frame 62 made of a band plate material as an auxiliary frame body that connects the front-rear center of the front-rear frame 58 and the lower side portion of the left side wall 47. The second auxiliary frame 62 is provided over the lower end portion of the storage case 23 that stores the quality measuring device 20 and the lower side portion of the left side wall portion 47. To explain further, as shown in FIGS. 3 and 8, a bracket 63 is integrally provided at the bottom of the storage case 23. Further, a reinforcing member 64 having an L-shaped cross section is connected to a lower side portion of the left side wall portion 47. One end of the second auxiliary frame 62 is fastened and connected to the bracket 63 with a bolt Bo. The other end of the second auxiliary frame 62 is fastened and connected to the reinforcing member 64 with a bolt Bo.

  As described above, since the front-back facing frame 58, the two first auxiliary frames 61, and the one second auxiliary frame 62 are provided, the support strength of the tank main body portion 46 in which the right side wall portion 45 is largely opened is increased. be able to. In addition, since the front-side wall portion 59 and the rear-side wall portion 53 are connected to each other by the front-rear frame 58, the front-side wall portion 59 and the rear-side wall portion 53 are urged outward by the weight of the grain. Even if it is received, the front-back frame 58 can receive the force and prevent the deformation. As shown in FIG. 8, even if the upper side portion of the left side wall portion 47 receives a force so as to project outward due to the weight of the grain, the first auxiliary frame 61 can receive the force and prevent the deformation. .. Similarly, the lower side portion of the left side wall portion 47 can be prevented from being deformed by the second auxiliary frame 62.

The support structure of the storage case 23 that stores the quality measuring device 20 will be described.
A lower portion of the vertically oriented frame 39 in the storage case 23 is placed and supported in a state of being engaged with the longitudinally oriented frame 58. That is, as shown in FIG. 3, engagement recesses 65 that engage with the front-rear frame 58 are formed at the lower ends of the front wall portion 33 and the rear wall portion 34. The engagement recesses 65 of the front wall portion 33 and the rear wall portion 34 can be received and supported by the front-rear direction frame 58 while being engaged with the front-rear direction frame 58 from above.

  The upper portion of the vertical frame 39 is connected to the upper portion of the grain tank 7. That is, as shown in FIGS. 3, 6 and 8, the upper connecting portion 35 is disposed inside the tank at the upper edge portion 51 a of the frame-shaped portion 51 around the opening 49 in the right side wall portion 45 of the grain tank 7. The front and rear parts are fastened with bolts Bo in a state of being abutted from the side and connected.

  Next, the structure for reinforcing the strength of the opening/closing wall portion 50 will be described.

  As shown in FIG. 8, the opening/closing wall portion 50 is formed in a gentle arc shape when viewed in the front-rear direction. As shown in FIGS. 5, 10 and 11, an upper reinforcing member 67 is provided at an upper portion of the opening/closing wall 50 on the inner side of the tank. The upper reinforcing member 67 is formed by bending a plate material into a substantially U-shaped cross section and is provided in a state of extending in the front-rear direction. The upper reinforcing member 67 is integrally connected to the wall surface of the opening/closing wall portion 50 over the entire front-rear direction. The upper side reinforcing member 67 and the wall surface of the opening/closing wall portion 50 form a rectangular tubular frame body 68. At the rear end portion of the opening/closing wall portion 50, a rectangular tubular vertical reinforcing member 69 for supporting the entire opening/closing wall portion 50 via pivot brackets 57 on both upper and lower sides is provided.

  A lower side reinforcing member 70 is provided at a lower side portion of the opening/closing wall portion 50 on the inner side of the tank. The lower reinforcing member 70 is formed by bending a plate material into a substantially U shape and is provided in a state of extending in the front-rear direction. The lower reinforcing member 70 is integrally connected to the wall surface of the opening/closing wall portion 50 over the entire front-rear direction.

  An inclined guide body 71 is provided on the upper side of the lower side reinforcing member 70. The inclined guide body 71 includes an inclined surface 71a that guides the stored grains by flowing down around the upper side of the lower reinforcing member 70 toward the lower bottom screw 16. Intermediate upper and lower intermediate portions of the opening/closing wall portion 50 on the inner side of the tank are provided with intermediate reinforcing members 72 formed by bending a plate material into a substantially mountain shape and extending in the front-rear direction. The intermediate side reinforcing member 72 is integrally connected to the wall surface of the opening/closing wall portion 50 over the entire front-rear direction.

  On the inner side of the tank of the opening/closing wall portion 50, a plurality of vertically-oriented support plates extending in the up-down direction are provided over the upper-side reinforcing member 67 and the lower-side reinforcing member 70 at intervals in the front-rear direction. . Specifically, as shown in FIGS. 4, 5, 9, and 11, as the vertical support plate, the first vertical support plate 73 located at the front end of the opening/closing wall portion 50, the front end A second vertically oriented support plate 74 located at a position closer to the rear side by a set width than the portion and a third vertically oriented support plate 75 located at the front-rear intermediate portion are provided. Each of the plurality of vertical support plates 73, 74, and 75 is made of a plate body having an L-shaped cross section, and is integrally connected to a side surface of the opening/closing wall portion 50 on the inner side of the tank.

  As shown in FIGS. 5 and 11, the upper reinforcing member 67 is provided over the entire width of the opening/closing wall portion 50 in the front-rear direction. The intermediate-side reinforcing member 72, the inclined guide body 71, and the lower-side reinforcing member 70 are provided over the second vertical support plate 74 and the vertical reinforcing member 69, respectively.

Next, a connection structure for connecting the opening/closing wall 50 to the tank body 46 will be described.
A connecting device 76 that connects the swing-side end of the opening/closing wall 50 in the storage state to the tank body 46 is provided. As shown in FIGS. 7, 8 and 10, the coupling device 76 includes a front-rear frame 58 provided on the tank body 46 and a locking member 77 provided on the opening/closing wall 50 and locked to the front-rear frame 58. And a switching operation mechanism 78 for switching between a locked state in which the locking member 77 is locked to the front-rear frame 58 and a released state in which the locking is released. The front-rear frame 58 is provided on one side of the grain tank 7 on the side where the quality measuring device 20 is provided. As shown in FIG. 10, the locking member 77 is composed of a hook-shaped member having a substantially U-shaped locking groove 79.

  The switching operation mechanism 78 is configured to be switchable between a locked state in which the locking member 77 is caught and locked in the front-rear frame 58 and a released state in which the locking is released by swinging the operation lever 80. There is. As shown in FIGS. 4, 10, and 11, the switching operation mechanism 78 includes a rotating shaft 81 that supports the operating lever 80 so that the operating lever 80 can swing, and the locking member 77 can rotate integrally with the rotating shaft 81. Is linked to. The locking member 77 is switched between a locked state and a released state by the rotation of the rotation shaft 81 associated with the swing operation of the operation lever 80.

  The rotating shaft 81 is provided at a position close to the inside of the tank of the opening/closing wall 50, and extends in the front-rear direction across the front-rear intermediate portion and the front portion of the opening-closing wall 50. The rotating shaft 81 is inserted through insertion holes (not shown) formed in the second vertical support plate 74 and the third vertical support plate 75, respectively, and the second vertical support plate 74 and the first vertical support plate 74 are inserted. It is rotatably supported by three vertical support plates 75.

  As shown in FIG. 4, a cylindrical shaft portion 82 integrally connected to the locking member 77 is provided on both front and rear end portions of the rotating shaft 81 so as to be externally inserted. As shown in FIG. 14, the support shaft portion 84 of the operation lever 80 made of an L-shaped rod is inserted and attached to the cylindrical shaft portion 82 located at the front end of the rotating shaft 81. A retaining pin 83 is attached across the support shaft portion 84 and the cylinder shaft portion 82 of the operation lever 80 to prevent the retainer pin from coming off, and the support shaft portion 84 and the cylinder shaft portion 82 rotate integrally. Has become. Also at the rear end of the rotating shaft 81, a retaining pin 83 is attached across the rotating shaft 81 and the cylindrical shaft portion 82 to prevent the retaining pin 83 from coming off and to rotate integrally. It is provided. As shown in FIG. 4, the cylinder shaft portion 82 located on the front side contacts the second vertical support plate 74, and the cylinder shaft portion 82 on the rear side contacts the third vertical support plate 75. The turning shaft 81 is prevented from coming off.

  As shown in FIG. 14, the operation lever 80 is provided in a state of being located between the first vertical support plate 73 and the second vertical support plate 74. In the wall portion of the opening/closing wall portion 50, a removable lid body 85 (see FIG. 1) is provided at a position corresponding to the operation lever 80 between the first vertical support plate 73 and the second vertical support plate 74. ), the opening 86 is formed. When the lid 85 is removed, the operation lever 80 faces the outside through the opening 86, and the operator can manually operate from the outside of the machine body.

  As shown by the solid lines in FIGS. 4 and 10 and 15, when the operation lever 80 is switched to the vertical posture positioned inside the opening/closing wall portion 50, the locking member 77 is locked to the front-back frame 58. The swing-side end of the open/close wall 50 in the storage state and the tank body 46 are connected. As shown by the white arrow in FIG. 14, when the operation lever 80 is manually pulled outward through the opening 86 and the operation lever 80 is switched to the inclined posture, the locking member 77 causes the front-rear frame. The locking with respect to 58 is released, and the connection between the swing-side end of the opening/closing wall 50 and the tank body 46 is released.

  As shown in FIGS. 4 and 15, a toggle spring 87 is stretched over the locking member 77 on the rear side and the third vertical support plate 75. When the operation lever 80 is switched to the vertical posture, the toggle spring 87 is located below the axis of the rotation shaft 81 in the front-rear direction, and the locking member 77 is urged to rotate downward. To do. As a result, the locking member 77 is maintained in a state of being locked to the front-rear frame 58. On the other hand, when the operation lever 80 is switched to the outer inclined posture, the toggle spring 87 is located above the axis of the rotating shaft 81 in the front-rear direction, and the locking member 77 is directed upward. Energize the rotation. As a result, the locking member 77 is maintained in the released state separated from the front-rear frame 58.

  When the locking member 77 is locked to the front-rear frame 58, the front-rear frame 58 receives the force and deforms even if the opening/closing wall 50 receives a force so as to project outward due to the weight of the grain. Can be prevented. Further, the front-back facing frame 58 and the frame-shaped portion 51 around the opening 49 in the right side wall portion 45 are connected via the up-down facing frame 39. As a result, as shown in FIG. 8, the front-rear frame 58 is supported by the first auxiliary frame 61, the second auxiliary frame 62, the locking member 77, and the storage case 23 in a plurality of circumferentially different directions. Since they are held, they can be received by each other in a state where the loads on the respective side surfaces of the grain tank 7 are dispersed, and the support strength can be improved.

  The switching operation mechanism 78 has a configuration for holding the opening/closing wall portion 50 in the stored state and pulling the opening/closing wall portion 50 toward the tank main body portion 46 side to eliminate a gap so as to enhance the closing property of the storage space. .. The configuration will be described below.

  As shown in FIGS. 7, 8, 10, and 11, the rotating shaft is supported by the opening/closing wall portion 50 so as to be movable only in the vertical direction, and is also movable in the vertical direction with the rotation of the rotating shaft 81. A plurality of rods 88 linked to 81 are provided, and a plurality of tilt guide members 89 are provided on the tank body 46. Then, when the operation lever 80 is switched from the tilted posture to the vertical posture so that the locking member 77 is brought into the locked state, the rod 88 is slidably guided by the tilted guide member 89 to open and close the opening/closing wall portion. It is configured to draw 50 toward the tank body 46 side.

  To add a description, a total of four rods 88 are provided at the positions corresponding to the front and rear ends of the rotating shaft 81 and at the upper side portion and the lower side portion of the opening/closing wall portion 50 in a side view. It is provided so that it can only move in the vertical direction.

  As shown in FIGS. 10 and 11, the second vertical support plate 74 and the third vertical support plate 75 each have an insertion hole through which the rod 88 is inserted in the upper middle part thereof. An upper side support member 90 is provided. Further, an insertion hole through which the rod 88 is inserted is formed in the upper side reinforcing member 67. The two rods 88 located on the upper side are provided so as to pass through the through holes formed in the upper side supporting member 90 and the upper side reinforcing member 67, respectively, and are supported so as to be movable only in the vertical direction.

  As shown in FIGS. 10 and 11, there is provided a lower side support member 91 which is formed in a substantially U shape in the front-rear direction and has an insertion hole through which the rod 88 is inserted. The lower side supporting member 91 is connected to the lower side reinforcing member 70 and the inclined guide body 71. The two rods 88 located on the lower side are provided so as to pass through the through holes formed in the upper and lower side portions of the lower support member 91, and are supported so as to be movable only in the vertical direction.

  As shown in FIGS. 10 and 14, an operating body 92 that rotates integrally with the rotating shaft 81 is connected to a cylindrical shaft portion 82 that is externally inserted at both front and rear ends of the rotating shaft 81. The operating body 92 is provided at a front-rear intermediate side portion of the front and rear cylindrical shaft portions 82. That is, the operation body 92 on the front side is provided at the rear end of the cylindrical shaft portion 82 on the front side. The operation body 92 on the rear side is provided at the front end of the cylindrical shaft portion 82 on the rear side.

  The operating body 92 includes a first arm portion 92A extending radially outward from the rotating shaft 81, and a second arm portion 92B extending radially outward in a direction opposite to the first arm portion 92A. ing. The outer end of the first arm portion 92A and the upper rod 88 are pivotally connected by a link member 93. The outer end of the second arm portion 92B and the lower rod 88 are pivotally connected by a link member 93. The rotation shaft 81 rotates in accordance with the operation of the operation lever 80, and the rod 88 slides in the vertical direction via the operation body 92 and the link member 93.

  As shown in FIGS. 5 and 10, a plurality of tilt guide members 89 are provided in the frame-shaped portion 51 of the tank main body 46 at positions where the rod 88 slides. The two inclined guide members 89 located on the upper side are provided at locations outside the tank in the frame-shaped portion 51. The two inclined guide members 89 located on the lower side are provided inside the tank in the frame-shaped portion 51. The two inclined guide members 89 located on the upper side are provided with inclined surfaces such that the lower end portions are located on the side separated from the frame-shaped portion 51, and the upper surface is closer to the frame-shaped portion 51. The two inclined guide members 89 located on the lower side are each provided with an inclined surface whose upper end is located away from the frame-shaped portion 51 and which is closer to the frame-shaped portion 51 as it goes downward.

  As shown in FIGS. 6 and 10, each of the plurality of tilt guide members 89 is integrally provided with two screw shaft portions 89a through which the frame-shaped portion 51 is inserted, and is tightened with a nut 89b screwed to the screw shaft 89a. And is fixed to the frame-shaped portion 51. The tilt guide member 89 is provided so that the position of the tank body 46 and the opening/closing wall 50 in the approaching/separating direction can be changed and adjusted by changing the tightening position of the screw shaft 89a with the nut 89b with respect to the frame-shaped portion 51. Has been.

  When the operation lever 80 is switched to the vertical posture, the upper rod 88 moves upward and the lower rod 88 moves downward via the operating body 92 and the link member 93. The upper rod 88 is slidably guided by an upper tilt guide member 89 provided on the tank body 46, and the lower rod 88 is slid on a lower tilt guide member 89 provided on the tank body 46. You will be notified. By the sliding guide of the rod 88 and the tilt guide member 89, the opening/closing wall portion 50 and the tank main body portion 46 are relatively displaced, and the opening/closing wall portion 50 is drawn toward the tank main body portion 46. As a result, the opening/closing wall portion 50 and the frame-shaped portion 51 around the opening 49 of the tank main body portion 46 are in close contact with each other, and the grain can be stored.

  By providing the connecting structure for connecting the opening/closing wall portion 50 to the tank body 46 as described above, the opening/closing wall portion 50 is brought into a closed state and comes into close contact with the frame-shaped portion 51, and thus the opening/closing wall portion is closed. 50 is switched to the storage state. Therefore, in the right side wall portion 45, not only the opening/closing wall portion 50 and the frame-shaped portion 51, but also a connecting structure for connecting the opening/closing wall portion 50 to the tank main body portion 46, that is, the front-back facing frame 58, the locking member 77. A switching operation mechanism 78 and the like are also included. The contact points between the opening/closing wall section 50 and the frame-shaped portion 51, that is, the contact points between the upper side reinforcing member 67 and the frame-shaped section 51, and the contact points between the lower side reinforcing member 70 and the frame-shaped section 51, It is advisable to interpose a seal member.

  When the operation lever 80 is switched to the tilted posture (phantom line in FIG. 10), the locking member 77 is in the released state as shown by the phantom line in FIG. Along with this, as shown in FIG. 7, the upper rod 88 moves downward via the operating body 92 and the link member 93, and the engagement with the tilt guide member 89 is released, so that the lower rod 88 It moves upward and the engagement with the tilt guide member 89 is released. As a result, the opening/closing wall portion 50 is switched to the closed state, and the right side wall portion 45 is switched to the maintenance state.

  As shown in FIG. 4, the operation lever 80 is provided in the lever storage area W of the opening/closing wall portion 50 sandwiched between the first vertical support plate 73 and the second vertical support plate 74. As shown in FIGS. 4 and 6, a wall surface portion 94 is formed on the right side surface of the tank main body portion 46 at a location corresponding to the lever storage area W. A partition plate 95 that is long in the vertical direction is provided at the rear end edge of the wall surface portion 94, and the lever storage region W and the storage space Q are partitioned by the partition plate 95 and the second vertical support plate 74. It is configured to be. As a result, even if grains are stored in the storage space Q, there are no grains in the lever storage area W in which the operation lever 80 is provided, and the operation can be performed easily.

  Since the opening/closing wall portion 50 is configured to be supported in a cantilever manner around the longitudinal axis Y1 on the rear side, the rocking end side is more slanted than the base end side due to backlash in the pivotal support portion or wear accompanying use. There is a risk of falling a little and becoming an oblique posture. Therefore, a mechanism is provided for lifting and guiding the swing end side of the opening/closing wall portion 50 to an appropriate position when switching to the storage state in response to such a posture change.

  That is, as shown in FIG. 10, when the lower side reinforcing member 70 in the opening/closing wall portion 50 is switched to the storage state, the lower side reinforcing member 70 comes into contact with the lower edge portion of the frame-shaped portion 51 and comes into contact with honey. The portion of the lower side reinforcing member 70 that comes into contact with the lower edge of the frame-shaped portion 51 has an inclined posture such that it is located on the upper side toward the inside of the tank. With this configuration, for example, even when the swing end side of the opening/closing wall portion 50 is slightly lower than the base end side and is in an oblique posture, the opening/closing wall portion 50 is switched to the storage state and the switching operation mechanism. When the connection operation by 78 is performed, the inclined surface of the lower reinforcing member 70 rides on the lower edge of the frame-shaped portion 51, and the opening/closing wall 50 can be lifted and guided to an appropriate position.

Next, a cooling air guide path for cooling the quality measuring device 20 will be described.
A large amount of light is required for the measurement light applied to the grain in the quality measuring device 20. A light source that projects such a large amount of light (for example, a halogen lamp) also has a large amount of heat generation. Therefore, a cooling air guide path for taking in the outside air and discharging the high temperature air in the storage case 23 to the outside is provided.

  As shown in FIGS. 12 and 13, in one side of the grain tank 7 where the quality measuring device 20 is provided, an inlet 96 for introducing air for cooling the quality measuring device 20 and the quality. An exhaust port 97 for exhausting the air after cooling the measuring device 20 is provided. The introduction ventilation path 98 that connects the introduction port 96 and the quality measuring device 20 to each other and the discharge ventilation path 99 that connects the discharge port 97 to the quality measuring device 20 that communicate with each other are among the outer peripheral portions of the grain tank 7. It is provided along the right side wall portion 45 as the side wall portion on the side where the quality measuring device 20 is provided.

  The storage case 23 is connected to an air introduction opening 101 connected to the ventilation opening 100 formed in the introduction ventilation path 98, and a ventilation opening 105 formed in the discharge ventilation path 99. An opening 103 for exhaust is formed. The front-back frame 58, which is a main body side hollow frame provided in the tank main body 46, constitutes an introduction ventilation path 98. An exhaust ventilation path 99 is configured by the rectangular tubular frame body 68 as a side plate side hollow frame provided in the opening/closing wall section 50, and the introduction ventilation path 98 and the exhaust ventilation path 99 are provided in the storage case 23. Through the.

  3 and 12, in the lower part of the storage case 23, there is provided a communication cylinder portion 104 that connects the internal space of the storage case 23 and the internal space of the front-rear frame 58 to each other. .. The upper end of the communication cylinder 104 is open to the internal space of the storage case 23. The communication cylinder 104 is vertically inserted through the horizontal surface portion of the lower connecting portion 36, and is connected to the horizontal surface portion in an airtight state. The lower end of the communication cylinder 104 is open to the internal space of the front-rear frame 58. The communication cylinder 104 is inserted into the front-rear frame 58, and is connected to the front-rear frame 58 in an airtight state.

  The internal space of the storage case 23 and the internal space of the front-rear facing frame 58 are communicatively connected to each other by the communication cylinder portion 104. Therefore, an opening 101 for introducing air is formed at the upper end of the communication cylinder 104, and an opening 100 for ventilation is formed at the lower end of the communication cylinder 104.

  As shown in FIG. 12, both longitudinal end edges of the front-rear frame 58 are open to the outside. As shown in FIGS. 3 and 12, the upper side portion of the outer side wall portion 38 of the storage case 23 is provided in a state of being vertically aligned with the upper connecting portion 35 on substantially the same plane. A plurality of openings 103 for exhaust are formed in the upper side portion of the outer wall portion 38.

  As shown in FIG. 3, when the opening/closing wall portion 50 is in the storage state, that is, when the opening/closing wall portion 50 is in the closed state, a rectangular tubular frame of the upper side portion of the outer wall portion 38 and the opening/closing wall portion 50. The body 68 comes into contact with the body 68. As shown in FIG. 13, in the rectangular tubular frame body 68 of the opening/closing wall portion 50, a plurality of openings 105, 106 are provided in the inner side surface 68 a and the upper side surface 68 b, which contact the upper side portion of the inner side wall portion 37. Are formed. The opening 105 of the inner side surface 68a is formed at a position facing the opening 103 formed at the upper side portion of the outer wall portion 38. Therefore, when the opening/closing wall portion 50 is in the storage state, the opening 105 formed in the inner side surface 68a of the rectangular tubular frame body 68 and the opening 103 formed in the upper side portion of the outer side wall portion 38 communicate with each other. Connected.

  Although not shown, the quality measuring device 20 is provided with a ventilation fan, and when the fan is operated, air is taken in from the lower part of the storage case 23 and discharged from the upper part of the storage case 23 to the outside. The ventilation passage is formed like this. When the fan operates, the outside air is sucked into the storage case 23 from the openings 107 at both longitudinal end edges of the front-rear frame 58 through the internal space of the front-rear frame 58 and the communication cylinder 104. The air in the storage case 23 has an opening 103 formed at an upper side portion of the outer wall portion 38, an opening 105 formed on an inner side surface of the rectangular tubular frame body 68, and an internal space of the rectangular tubular frame body 68. , And is discharged to the outside through an opening 106 formed in the upper side surface of the rectangular tubular frame body 68. The air that has passed through the inner space of the rectangular tubular frame body 68 is discharged to the outside through not only the opening 106 but also the openings 108 formed at both ends in the longitudinal direction of the rectangular tubular frame body 68 (FIG. 13). reference).

  Therefore, the openings 107 on both side edges in the longitudinal direction of the front-rear frame 58 correspond to the introduction ports 96, and the inner space of the front-rear frame 58 corresponds to the introduction ventilation passage 98. The opening 106 and the opening 108 in the rectangular tubular frame body 68 correspond to the discharge port 97, and the internal space of the rectangular tubular frame body 68 corresponds to the exhaust ventilation path 99.

  When the grain is stored in the grain tank 7 in association with the mowing operation, the pressure inside the storage space Q increases with the storing operation, so it is necessary to discharge the air in the tank to the outside. The air in the storage case 23 can be discharged to the outside by using this air discharging operation. That is, as shown in FIG. 12, a check valve V that allows ventilation from outside the case to inside the case and prohibits ventilation from inside to the outside of the case is provided on the front side of the storage case 23. When the pressure inside the storage space Q becomes high, the air in the tank is discharged from the storage case 23 to the outside through the check valve V.

  When the swinging end side of the opening/closing wall portion 50 is slightly lowered as compared with the base end side and the posture changes to an oblique posture, the swinging end side of the opening/closing wall portion 50 is lifted and guided to an appropriate position when switching to the storage state. As another guide mechanism for this, the following locking guide body 110 is provided.

  As shown in FIGS. 4 and 16, the locking guide body 110 is provided at a position corresponding to the front-rear frame 58 on the first vertical support plate 73 provided on the opening/closing wall portion 50. The locking guide body 110 is a plate body having an L-shaped cross section, extends in a cantilever manner from the first vertical support plate 73 to the inner side of the tank, and is an inclined guide that acts so as to ride on the front-rear frame 58. The unit 111 is provided.

  As shown in FIGS. 16 and 17, when the opening/closing wall portion 50 swings so as to switch from the maintenance state to the storage state, the inclined guide portion 111 rides on the front-rear frame 58 to move the swinging end portion of the opening/closing wall portion 50. It is possible to lift and guide to an appropriate position and to maintain that position in the stored state.

[Another embodiment]
Other embodiments will be listed below.

(1) The mounting position of the quality measuring device 20 may be configured to be adjustable in the front-back direction. For example, as shown in FIG. 12, a plurality of bolt insertion holes are formed in the upper edge portion 51a of the grain tank 7 to which the upper connection portion 35 of the storage case 23 supporting the quality measuring device 20 is bolted. In addition, a plurality of connecting portions on the left side wall 47 side with respect to the second auxiliary frame 62 are formed at different positions, and the position of the storage case 23 is slidably fixed in the longitudinal direction of the front-rear frame 58. You can do it. As a result, it is possible to adjust the grain scattered by the delivery blade 29 to a position where it can be easily stored.

(2) The opening/closing wall portion 50 as a side plate may be configured to swing about a vertical axis located on the front side of the machine body, and instead of the vertical axis, swing about a longitudinal axis to open and close. It may be allowed to. Further, instead of swinging, the right side wall portion 45 may be removed or attached to open and close.

(3) As shown in FIG. 18, the frame-shaped portion 51 of the opening 49 of the tank main body portion 46 is provided with the guide portion 120 inclined toward the inside of the opening toward the inside of the tank, and the opening/closing wall portion 50 is provided with the guide portion 120. It may be configured to include the abutment portion 121 in an inclined posture that abuts against. With this configuration, the sealing property can be further improved by the abutment between the guide part 120 and the abutment part 121 in association with the closing operation, and there is also an advantage that the rigidity of the whole grain tank 7 is increased.

(4) Instead of manually switching the opening/closing wall portion 50 between the storage state and the maintenance state, for example, a damper such as a gas spring may be used to assist the opening/closing operation, or a hydraulic cylinder or an electric motor. The actuator may be a motor or the like to be automatically opened and closed.

(5) It may be configured to include a lock mechanism for holding the position of the opening/closing wall portion 50 in a state of being switched to the maintenance state. As the lock mechanism, for example, in the maintenance state, a structure in which the connecting member is connected and fixed with a pin to hold the position over the opening/closing wall 50 and the tank main body 46, or a structure in which the chain is connected to hold the position, etc. There is.

(6) A sensor that detects that the opening/closing wall 50 has been switched to the storage state, a sensor that detects the holding state by the locking member 77, the engagement state by the rod 88, and the like, and these must be detected. For example, a configuration may be adopted in which a notification means for performing notification processing is provided. As the notification means, a structure is used in which a lamp is lit to notify, a message is displayed and displayed by a display device capable of displaying characters, a structure in which a member touched by an operator's body is vibrated to notify, a voice or a buzzer sound Various configurations such as a configuration in which the notification is performed by using, or a configuration in which a small window is provided in the opening/closing wall portion 50 and the notification is performed by a change in color can be considered. Further, as shown in FIG. 19, if the above-described detection sensor does not detect, a configuration is provided that includes a control device (not shown) that warns the operator and executes an engine restraint process that restrains the start of the engine E. May be

  INDUSTRIAL APPLICABILITY The present invention can be applied to a normal combine as well as a self-removing combine.

7 Grain Tank 20 Quality Measuring Device 21 Temporary Storage Section 22 Measuring Section 39 Vertical Frame 50 Side Plate (Opening/Closing Wall)
58 Front-back facing frame Q Storage space

Claims (1)

A grain tank for storing harvested grains is provided,
A storage state in which the side plate of the grain tank closes the storage space inside the tank to enable storage of grains, and a maintenance state in which the storage space is opened to the outside to enable access to the storage space It is provided so that it can be switched to and
A combine having a reinforcing member on the side plate.

Images