JP2018139624A - combine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a combine that can weigh a weight of a grain tank accurately.SOLUTION: A combine includes: a grain tank being provided in a freely turning manner over a maintenance position where a front end is separated from a machine body frame and an operation position where the front end is positioned on the machine body frame; weight detection means arranged between the top of the machine body frame and the grain tank of the operation position, and detecting the weight of the grain tank; and a machine body side guide member attached to the machine body frame, and guiding the front end of the grain tank turned from the maintenance position toward the operation position onto the weight detection means. A machine body side guide member includes a horizontal part for horizontally moving the front end of the grain tank turned from the maintenance position toward the operation position, and a recess continued to this horizontal part and enabling the entry of at least a portion of the front end of the grain tank positioned on the weight detection means. The horizontal part and the recess are constituted integrally, and are fixed to the machine body frame.SELECTED DRAWING: Figure 9

Description

  The present invention relates to a combine.

  The combine is provided with a cutting device on the front side of the body frame provided with the traveling device, and provided with a control unit, a threshing device, and a glen tank on the upper side of the body frame. Then, for the maintenance work of the Glen tank, the combine is a maintenance position in which the front end of the Glen tank is separated from the body frame around the rotation center provided on the outside of the rear end of the Glen tank, and the front end of the Glen tank. Is provided so as to be rotatable over an operating position located on the body frame. The combine is provided with weight detecting means (for example, a load cell) for detecting the weight of the Glen tank at the operation position, that is, the weight of the grain in the Glen tank, on the machine frame (see, for example, Patent Document 1).

JP 2014-64533 A

  However, in the combine described in Patent Document 1, the weight detection means is located on the inner side in the left-right direction with respect to the conveying screw provided at the bottom of the Glen tank, and the inclined wall on the inner side of the conveying screw of the Glen tank rides up. ing. For this reason, there is a possibility that the weight of the Glen tank cannot be accurately measured.

  This invention solves the subject mentioned above, and it aims at providing the combine which makes it possible to measure the weight of a Glen tank correctly.

  In order to achieve the above-described object, the combine according to the present invention is a maintenance that is disposed on the body frame and has a front end portion spaced apart from the body frame around a rotation center provided outside the rear end portion. A grain tank for storing grains that is pivotably provided over a position and an operating position in which the front end portion is located on the body frame; and between the grain tank on the body frame and the motion position. And a weight detecting means for detecting the weight of the Glen tank, and the weight of the front end of the Glen tank attached to the body frame and rotating from the maintenance position toward the operating position. In a combine provided with a fuselage side guide member that guides on the detection means, the fuselage side guide member rotates from the maintenance position toward the operation position. A horizontal portion that horizontally moves the front end portion of the Glen tank, and a recess that is continuous with the horizontal portion and into which at least a part of the front end portion of the Glen tank located on the weight detection means enters, A horizontal portion and the concave portion are integrally formed and fixed to the body frame.

  In the above combine, it is also preferable that the frame member of the machine body frame is provided at an outer edge portion in the left-right direction of the machine frame.

  In the above combine, the Glen tank is preferably provided with a transport unit that is provided at the bottom of the grain tank and transports the grains backward, and a tank-side reinforcing member that is attached to the bottom and covers the bottom of the transport unit. .

  Further, in the above combine, at the position on the maintenance position side with respect to the horizontal part, the ascending slope that gradually rises by riding on the front end part of the Glen tank that rotates from the maintenance position toward the operating position. It is also preferable to provide a part.

  The combine includes a tank-side guide member provided at the front end portion of the Glen tank and riding on the fuselage-side guide member, wherein the tank-side guide member moves the Glen tank from the maintenance position. When turning toward the position, it rides on the rising slope part, and is connected to the tank side upward slope part that gradually slopes upward as it goes inward in the left-right direction, and the tank side upward slope part and is horizontal. It is also preferable to provide a tank-side horizontal portion.

  The combine which concerns on this invention can make it possible to measure the weight of a Glen tank correctly.

FIG. 1 is a side view showing a schematic configuration of a combine according to an embodiment of the present invention. FIG. 2 is a plan view showing a schematic configuration of the combine according to the embodiment of the present invention. FIG. 3 is a plan view showing a combine grain tank and the like according to the embodiment of the present invention. FIG. 4 is a plan view showing a fuselage-side guide member and the like of the combine guide unit according to the embodiment of the present invention. FIG. 5 is a cross-sectional view taken along line VV in FIG. FIG. 6 is a side sectional view showing a combine grain tank and the like according to the embodiment of the present invention. FIG. 7 is a perspective view showing a combine moisture meter and the like according to the embodiment of the present invention. FIG. 8 is a front view showing a tank side guide member and the like of the combine guiding means according to the embodiment of the present invention. FIG. 9 is a cross-sectional view showing a state where the tank side guide member of the combine according to the embodiment of the present invention rides on the machine body side guide member. FIG. 10 is a cross-sectional view illustrating a state where the tank side guide member of the combine according to the embodiment of the present invention has entered the recess of the airframe side guide member. FIG. 11 is a cross-sectional view showing a load cell or the like in a state where the tank side guide member of the combine according to the embodiment of the present invention rides on the fuselage side guide member. FIG. 12 is a cross-sectional view showing a state in which the combine grain tank according to the embodiment of the present invention rides on the load cell.

Embodiments according to the present invention will be described below in detail with reference to the drawings. In addition, this invention is not limited by this embodiment. In addition, constituent elements in the following embodiments include those that can be easily replaced by those skilled in the art or those that are substantially the same.
[Embodiment]
The combine 1 which concerns on embodiment is demonstrated based on FIG. 1 thru | or FIG. FIG. 1 is a side view showing a schematic configuration of the combine according to the embodiment. FIG. 2 is a plan view illustrating a schematic configuration of the combine according to the embodiment. FIG. 3 is a plan view showing a combine grain tank and the like according to the embodiment of the present invention. FIG. 4 is a plan view showing a fuselage-side guide member and the like of the combine guide unit according to the embodiment of the present invention. FIG. 5 is a cross-sectional view taken along line VV in FIG. FIG. 6 is a side sectional view showing a combine grain tank and the like according to the embodiment of the present invention. FIG. 7 is a perspective view showing a combine moisture meter and the like according to the embodiment of the present invention. FIG. 8 is a front view showing a tank side guide member and the like of the combine guiding means according to the embodiment of the present invention.

  In the following, for convenience, three directions orthogonal to each other are defined as a front-rear direction, a left-right direction, and a vertical direction, respectively, and the configuration of each part will be described according to this definition. The front-rear direction is the length direction of the combine (airframe) 1, the left-right direction is the width direction, and the up-down direction is the height direction. Of these, the forward is the direction of travel of the combine 1 during the cutting operation, the left is the left-hand direction toward the front, the right is the right-hand direction toward the front, and the gravity acts on the lower side. Direction. In addition, these directions are defined for convenience in order to make the explanation easy to understand, and the present invention is not limited by these directions.

  The combine 1 is a mobile agricultural machine that harvests and thresh crops while running. The combine 1 includes a traveling device 3 disposed at a lower portion of the body frame 2, a reaping device 4 attached to a front end portion of the body frame 2, and a threshing mounted on the upper left side (one side) of the body frame 2. A device 5, a cab 6 disposed in the right front part on the fuselage frame 2, and a grain tank (grain storage) disposed on the upper right side (the other side) of the fuselage frame 2 and behind the cab 6. (Device) 7 and a diesel engine (hereinafter referred to as an engine) 8 disposed on the body frame 2 and below the cab 6 is mounted.

  The traveling device 3 transmits the power from the engine 8 to the pair of left and right crawler belts 3a to cause the combine 1 to travel.

  The reaping device 4 includes a weeding tool 4a for weeding the cereals, a triggering device 4b for causing the sown cereals, and a cutting blade 4c for cutting the roots of the induced cereals. Reap the cereal grains to be vegetated at a predetermined height. The cereals harvested by the reaping device 4 are sandwiched between a transport chain 9 (see FIG. 2) provided at the left end of the machine body frame 2 and a squeeze above the cradle, and are transported by power from the engine 8. It is conveyed to the threshing device 5 by driving the chain 9.

  The threshing device 5 detaches the grain from the cereal (threshing) in the process of the cereal being conveyed backward by the transport chain 9 and separates impurities such as cocoons from the grain. The cereals (removal) from which the cereals have been handled after passing through the threshing device 5 are transported by the transport chain 9 to the waste cutting device 10 provided at the rear end of the machine body frame 2. For example, the waste is cut by the waste cutting device 10 and then released to the field, for example.

  The driver's cab 6 is a driver's seat for performing a driving operation, a cutting operation, or the like while a worker is seated. The cab 6 is provided in front of the body frame 2 in the front-rear direction, and is provided above the engine 8 in the vertical direction. Further, around the cab 6, for example, a cutting lift lever (not shown) for lifting and lowering the cutting device 4, a lifting and lowering operation and turning of the discharge auger at positions where the operator can sit and operate. An auger operation lever (not shown) for operation, a display panel, and the like are provided.

  The engine 8 is a generation source of driving force used in the combine 1, and is a heat engine that converts fuel energy into mechanical work and outputs it as rotational force by burning the fuel in the combustion chamber. The engine 8 is mounted in an engine room (not shown) formed in front of the body frame 2 in the front-rear direction and below the cab 6 in the vertical direction.

  The transport chain 9 is for transporting the harvested culm to the threshing device 5. The transport chain 9 is provided on the left side of the machine body frame 2 in the left-right direction. The transport chain 9 includes a supply transport device (not shown), a threshing transport device (not shown), and a waste transporting device (not shown). The feeding / conveying device conveys the harvested cereals backward in the front-rear direction while moving the cereal so that the stock side of the cereals faces leftward in the left-right direction and the tip of the cereals faces rightward in the left-right direction. Change to a tilted posture.

  Moreover, a supply conveyance apparatus adjusts the handling depth in the state in which the cereals fell, and takes over the cereals to the threshing conveyance apparatus. The threshing and conveying device conveys the cereal culm to the threshing device 5 while sandwiching the stocker side of the cereal with the feed chain and the holding pestle. In addition, the threshing transport device takes over the threshed waste that has been threshed by the threshing device 5 to the waste transporting device. The waste transporting device transports waste to the rear in the front-rear direction, cuts the waste by the waste cutting device 10, and then discharges the waste from the rear in the front-rear direction of the combine 1 to the outside.

  The waste cutting device 10 includes a plurality of rotary blades, cuts the waste thrown in by the transport chain 9 with the rotary blades, and discharges the waste from the rear in the front-rear direction of the combine 1 to the outside, for example, a field. .

  The Glen tank 7 is a grain storage device that is formed in a box shape and temporarily stores the grains selected by the threshing device 5. The Glen tank 7 is disposed on the right side in the left-right direction of the fuselage frame 2 behind the cab 6 in the front-rear direction. In this embodiment, the Glen tank 7 is provided with the threshing device 5 in the left-right direction. Further, the Glen tank 7 is centered on a hinge portion 7a (corresponding to a rotation center) provided at a right rear end portion, which is an outer side of the rear end portion, on the vehicle outer side, that is, on the right rear side of the vehicle (arrow A in FIG. 2). Direction). The Glen tank 7 has a maintenance position (indicated by a solid line in FIG. 3) in which the front end portion is separated from the body frame 2 around the hinge portion 7a and an operation position (indicated by a two-dot chain line in FIG. 3) on the body frame 2. It is provided so as to be freely rotatable.

  The Glen tank 7 can perform maintenance of the threshing device 5 and the like disposed on the left side of the Glen tank 7 by being rotated outward from the operation position toward the maintenance position. The grain tank 7 is supplied with the grain from the threshing device 5 at the operating position, and discharges the grain stored therein to the outside by a discharge auger 7b composed of a straw cylinder and a transverse feed cylinder. The Glen tank 7 has a locking arm (not shown) provided in the threshing device 5 or the like, and a positioning pin 7c (shown in FIG. 9) provided in the body frame 2 so as to be slidable in the vertical direction. By being locked in the stop hole 7d, it is fixed to the body frame 2 or the like at the operating position.

  As shown in FIGS. 3 and 6, the Glen tank 7 includes a tank main body 71 formed in a box shape, and a screw conveyor 72 (shown in FIG. 8, which corresponds to the conveying means) provided at the bottom of the tank main body 71. A tank side reinforcing member 73 (shown in FIG. 8) and a moisture meter 74 are provided. The tank main body 71 is provided with a width reducing portion 71a whose width in the left-right direction gradually decreases as it goes downward at the lower end portion. Moreover, the tank main body 71 is supplied with the grain selected by the threshing device 5 by the cocoon kernel 51 (shown in FIG. 6). The cocoon kernel 51 supplies the grain selected by the sorting unit of the threshing device 5 and collected by the collecting unit to the tank body 71 of the Glen tank 7 from the collecting unit of the sorting unit. The cereal cylinder 51 includes a cylinder part 51a extending upward from the recovery part, and a corn conveyor 51b that is provided in the cylinder part 51a and rotates around the axis to convey the grain upward from the recovery part. Etc. The cylinder part 51a is provided with a discharge port 51c for discharging the grain toward the wall 71b on the rear side of the tank body 71 of the Glen tank 7 at the upper end. For this purpose, the cocoon cylinder 51 is configured to discharge the grains to the rear of the tank body 71 of the Glen tank 7.

  The screw conveyor 72 is provided at the bottom of the width reducing portion 71a of the tank body 71 in parallel with the front-rear direction. The screw conveyor 72 is provided over substantially the entire length of the tank body 71 of the Glen tank 7 in the front-rear direction, and is provided to be rotatable around an axis parallel to the front-rear direction. The screw conveyor 72 is rotated around the axis by the driving force from the engine 8 and conveys the grains in the tank body 71 of the Glen tank 7 toward the rear, that is, the discharge auger 7b.

  The tank side reinforcing member 73 is made of stainless steel, and is attached to the front portion of the width reducing portion 71 a outside the bottom portion of the width reducing portion 71 a of the tank body 71 of the Glen tank 7. The tank side reinforcing member 73 is attached to the front part of the width reducing part 71 a outside the bottom part of the width reducing part 71 a and covers the front part below the screw conveyor 72. The tank-side reinforcing member 73 is provided with a flat surface 73 a that is parallel to the horizontal direction and provided below the center of gravity of the Glen tank 7. When the screw conveyor 72 conveys the grain backward, the tank-side reinforcing member 73 is caused by the grain that has entered between the screw conveyor 72 and the bottom part, and in particular, the bottom part of the width reducing part 71a of the Glen tank 7 is outside. Suppresses elastic deformation in the spreading direction. The front end portion of the Glen tank 7 referred to in this specification includes a portion of the Glen tank 7 where the tank side reinforcing member 73 is provided and a portion on the front side of the tank side reinforcing member 73.

  The moisture meter 74 samples a part of the grain in the Glen tank 7 and measures the average value and standard deviation (also referred to as variation or moisture unevenness) of the moisture contained in the grain. The moisture meter 74 is attached to the upper part of the wall 71b on the back side of the tank body 71 of the Glen tank 7, and is covered with a cover member 74a as shown in FIG. In this manner, the moisture meter 74 is disposed on the locus of the grains discharged from the cocoon cylinder 51 by being attached to the upper part of the rear wall 71b. For this reason, moisture meter 74 becomes easy to take in the grain stored in Glen tank 7 correctly, and can measure the average value and standard deviation of the moisture of a grain correctly. The moisture meter 74 is provided at a position in the left-right direction of the base end portion of the discharge auger 7b and inside the left-right direction of the discharge auger 7b. For this reason, the moisture meter 74 is protected from foreign matter by the discharge auger 7b.

  The back wall 71b to which the moisture meter 74 is attached has an opening 71c for taking a part of the grain into the moisture meter 74, and the grain attached to the lower edge of the opening 71c is taken into the moisture meter 74. A flange-shaped member 71d is provided to facilitate the operation. The opening 71c penetrates the rear wall 71b. The flange-shaped member 71 d is attached to the inside of the tank body 71 of the Glen tank 7. The bowl-shaped member 71d is formed in a bowl-shaped cross section having an upper opening, and accommodates the grain on the inside, thereby making it easy to take the grain into the moisture meter 74. For this reason, the accuracy of the moisture meter 74 can be improved.

  As shown in FIG. 7, the moisture meter 74 includes a columnar capturing member 74b that captures grains one by one through an opening 71c, a pair of electrode rollers 74c provided below the capturing member 74b, and the like. The taking-in member 74b is provided with intermittent spiral grooves (not shown) for storing grains one by one on the outer peripheral surface, and rotates around the axis to supply the grains one by one between the pair of electrode rollers 74c. . The electrode roller 74c crushes the grains one by one to measure the electrical resistance value between the pair of electrode rollers 74c. The moisture meter 74 measures the moisture contained in the grain one by one by crushing the grain one by one between the pair of electrode rollers 74c and measuring the electrical resistance value between the pair of electrode rollers 74c. To do. The moisture meter 74 measures the moisture of a plurality of grains and measures the average value and standard deviation of the moisture of the grains.

  Further, the cover member 74a that covers the moisture meter 74 and is attached to the rear wall 71b of the tank body 71 of the Glen tank 7 is detachable by being attached to the rear wall 71b with a bolt or the like. Yes. By providing the cover member 74a, the moisture meter 74 can be protected, and by making the cover member 74a detachable, the maintainability of the moisture meter 74 can be improved.

  The Glen tank 7 is provided with components such that the position of the center of gravity in the left-right direction overlaps the screw conveyor 72 in the up-down direction. Desirably, the Glen tank 7 is disposed at a position where the center of gravity of the center of gravity overlaps the axis of the screw conveyor 72 in the vertical direction.

  Further, the combine 1 includes a load cell 11 (shown in FIGS. 11 and 12, which corresponds to the weight detecting means) that detects the weight of the Glen tank 7, that is, the weight of the grain stored in the Glen tank 7, Guide means 12 (shown in FIGS. 9 and 10) for guiding the front end portion onto the load cell 11 is provided.

  The load cell 11 is mounted on the fuselage frame 2 and is disposed between the fuselage frame 2 and the front end portion of the Glen tank 7 in the operating position, and the screw in a state where the Glen tank 7 is positioned in the operating position. It is disposed below the conveyor 72. As shown in FIG. 11, the load cell 11 is mounted on a frame member 21 of the body frame 2 and a reinforcing plate 23 (corresponding to a reinforcing member) spanned between the frame member 21 and the second frame member 22. . That is, the load cell 11 is mounted on the frame member 21 and the reinforcing plate 23, and at least a part of the load cell 11 is mounted on the frame member 21 and is also mounted on the reinforcing plate 23.

  The frame member 21 and the second frame member 22 are formed in a straight line shape parallel to the front-rear direction, and are formed in a square tube shape having a square cross section. The frame member 21 is provided on the outer edge of the body frame 2 in the left-right direction. The second frame member 22 is disposed on the inner side in the left-right direction than the frame member 21. The reinforcing plate 23 is made of stainless steel and has a flat plate shape. When the Glen tank 7 is positioned at the operating position, the load cell 11 having the above-described structure is overlapped with the flat surface 73a of the tank-side reinforcing member 73, and the weight of the grain stored in the Glen tank 7, that is, the Glen tank 7, is stored. To detect. The Glen tank 7 is supported only by the load cell 11 in the vertical direction in the operating position, and is positioned in the front-rear direction and the left-right direction by the hinge portion 7a, the locking arm, the positioning pin 7c, and the like. Further, the body frame 2 is constituted by a plate-like member 24 (shown in FIG. 5) for fixing the frame member 21 and the second frame member 22 on the surface.

  The guiding means 12 guides the front end of the Glen tank 7 onto the load cell 11 when the Glen tank 7 rotates from the maintenance position toward the operating position. As shown in FIGS. 9 and 10, the guide means 12 includes a machine body side guide member 80 attached to the machine body frame 2 and a tank side guide member 90 provided at the front end portion of the Glen tank 7.

  The airframe side guide member 80 gradually raises the front end portion of the Glen tank 7 that rotates from the maintenance position toward the operation position toward the operation position, and then at least a part of the front end portion of the Glen tank 7 is After guiding so as to pass over the load cell 11, the front end portion of the flat surface 73 a of the tank side reinforcing member 73 of the Glen tank 7 is guided on the load cell 11. The fuselage-side guide member 80 is arranged in the front-rear direction with the load cell 11 and is provided on the front side of the load cell 11.

  As shown in FIGS. 4 and 5, the fuselage-side guide member 80 includes a first rising inclined portion 81 (corresponding to the rising inclined portion), a second rising inclined portion 82 (corresponding to the rising inclined portion), and a horizontal portion 83. And a recess 84. The first ascending slope 81, the second ascending slope 82, the horizontal part 83, and the recess 84 are arranged in order from the outside of the body frame 2 in the left-right direction.

  The first ascending slope 81 and the second ascending slope 82 are disposed on the outer side in the left-right direction with respect to the body frame 2 and ride on the front end of the Glen tank 7 that rotates from the maintenance position toward the operating position. Thus, the front end of the Glen tank 7 is gradually raised. The first ascending slope 81 and the second ascending slope 82 are inclined so as to gradually go upward in the left-right direction toward the inner side of the body frame 2. The outer end in the left-right direction of the second ascending slope portion 82 is positioned below the inner end in the left-right direction of the first ascending slope portion 81, and the inner end in the left-right direction of the second ascending slope portion 82 is The first rising inclined portion 81 is positioned above the inner end in the left-right direction.

  The horizontal portion 83 is connected to the inner end in the left-right direction of the second ascending slope portion 82, and horizontally moves the front end portion of the Glen tank 7 that rotates from the maintenance position toward the operating position. The horizontal portion 83 extends in the left-right direction from the inner end in the left-right direction of the second rising inclined portion 82 toward the inner side in the left-right direction. The horizontal portion 83 is disposed on the body frame 2. Further, the horizontal portion 83 is provided with a locking hole 7d for locking the positioning pin 7c.

  The concave portion 84 is connected to the inner end in the left-right direction of the horizontal portion 83, and at least a part of the front end portion of the Glen tank 7 located on the load cell 11 enters. The recess 84 is formed in a recess below the horizontal portion 83. The concave portion 84 extends in the left-right direction from the inner end in the left-right direction of the horizontal portion 83 toward the inner side in the left-right direction. The recess 84 is disposed at a position aligned with the load cell 11 in the front-rear direction. In addition, the depth of the concave portion 84 is set such that when the flat surface 73a of the tank side reinforcing member 73 of the Glen tank 7 in the operating position overlaps the horizontal portion 83, the tank side guide member 90 enters inside, and the tank side guide member The depth 90 is formed so as not to contact the bottom surface.

  In addition, the fuselage-side guide member 80 includes an inclined portion 85 disposed between the concave portion 84 and the horizontal portion 83 in the left-right direction. The inclined portion 85 is connected to the surface of the horizontal portion 83 and the bottom surface of the recess 84, and gradually moves upward as it goes outward in the left-right direction of the body frame 2 with respect to both the horizontal direction and the vertical direction. Inclined. The airframe side guide member 80 includes a horizontal portion 83, an inclined portion 85, and a concave portion 84, and the bottom surface of the concave portion 84 is attached to the airframe frame 2 with bolts 86 (corresponding to fixing means). .

  The tank side guide member 90 rides on the machine body side guide member 80 when the Glen tank 7 rotates from the maintenance position toward the operation position. When the Glen tank 7 is positioned at the operation position, a part of the tank side guide member 90 is located on the machine body side. The guide member 80 enters the recess 84. As shown in FIG. 8, the tank side guide member 90 includes a downward extending member 91, a tank side rising inclined portion 92, a tank side horizontal portion 93, and a pin guide member 94. The downward extending member 91 is attached to the front end portion of the bottom portion of the width reducing portion 71a of the Glen tank 7 and extends downward from the front end portion of the bottom portion of the width reducing portion 71a of the Glen tank 7.

  The tank side ascending inclined portion 92, the tank side horizontal portion 93, and the pin guide member 94 are arranged in order from the inside of the body frame 2 in the left-right direction, and are disposed at positions overlapping the body side guide member 80. When the Glen tank 7 rotates from the maintenance position toward the operating position, the tank-side upward inclined portion 92 rides on the first upward inclined portion 81 and the second upward inclined portion 82 and faces inward in the left-right direction. Gradually inclines upward. The tank side rising inclined portion 92 is provided at the inner end of the downward extending member 91 in the left-right direction.

  The tank side horizontal portion 93 is connected to the tank side rising inclined portion 92 and is parallel to the horizontal direction. The tank side horizontal portion 93 is provided at the center in the left-right direction of the downward extending member 91. The tank-side ascending inclined portion 92 and the tank-side horizontal portion 93 are disposed at positions that enter the recess 84 of the fuselage-side guide member 80 when the Glen tank 7 is positioned at the operating position. The tank side rising inclined portion 92 and the tank side horizontal portion 93 correspond to a part of the tank side guide member 90.

  The pin guide member 94 supports the positioning pin 7c so as to be slidable in the vertical direction. The pin guide member 94 is provided on the outer end of the downward extending member 91 in the left-right direction. The pin guide member 94 is disposed at a position overlapping the horizontal portion 83 of the fuselage side guide member 80 when the glen tank 7 is positioned at the operating position.

  The operation when the Glen tank 7 of the combine 1 having the above-described configuration is rotated from the maintenance position toward the operation position will be described with reference to FIGS. FIG. 9 is a cross-sectional view showing a state where the tank side guide member of the combine according to the embodiment of the present invention rides on the machine body side guide member. FIG. 10 is a cross-sectional view illustrating a state where the tank side guide member of the combine according to the embodiment of the present invention has entered the recess of the airframe side guide member. FIG. 11 is a cross-sectional view showing a load cell or the like in a state where the tank side guide member of the combine according to the embodiment of the present invention rides on the fuselage side guide member. FIG. 12 is a cross-sectional view showing a state in which the combine grain tank according to the embodiment of the present invention rides on the load cell.

  When the Glen tank 7 is rotated from the maintenance position toward the operation position around the hinge portion 7a, the tip of the tank side guide member 90 near the threshing device 5 is the airframe side guide member. 80 first rising inclined portions 81 are brought into contact with. Then, when the Glen tank 7 is further rotated toward the operating position, the tip of the tank side ascending inclined portion 92 of the tank side guiding member 90 near the threshing device 5 is the first ascending inclined portion 81 of the airframe side guiding member 80. After climbing up and gradually rising along the first rising slope portion 81, it rides on the second rising slope portion 82 of the airframe side guide member 80 and gradually rises along the second rising slope portion 82. . Then, as shown in FIG. 9, the tank side horizontal portion 93 of the tank side guide member 90 rides on the horizontal portion 83 of the machine body side guide member 80. Then, as shown in FIG. 11, the front end portion of the width reducing portion 71 a of the Glen tank 7 is positioned above the load cell 11 with a space from the load cell 11.

  Further, when the Glen tank 7 is rotated toward the operating position, the tank side horizontal portion 93 of the tank side guide member 90 slides on the horizontal portion 83 of the machine body side guide member 80, and as shown in FIG. Further, the downward extending member 91 of the tank side guide member 90 overlaps the horizontal portion 83 of the airframe side guide member 80, and the tank side rising inclined portion 92 and the tank side horizontal portion 93 of the tank side guide member 90 are in the recess 84. invade. Then, the locking arm is locked to the Glen tank 7, the positioning pin 7c is locked to the locking hole 7d, and the Glen tank 7 is fixed to the machine frame 2 or the like at the operating position. Then, as shown in FIG. 11, the front end portion of the width reducing portion 71 a of the Glen tank 7 overlaps the load cell 11, and the load cell 11 can detect the weight of the Glen tank 7.

  Next, operation | movement of the combine 1 comprised in this way is demonstrated.

  The combine 1 harvests the culm by the reaping device 4 while the traveling device 3 is driven by the driving force generated by the engine 8 and travels. The cereals harvested by the reaping device 4 are transported to the threshing device 5 by driving the transport chain 9. In the threshing device 5, the grain is separated from the cereal (threshing) in the process in which the cereal is transported backward by the transport chain 9, and the impurities such as the cocoon and the grain are separated. The cereal grains (removal) from which the grains have been handled are transported by the transport chain 9 to the waste cutting device 10 provided at the rear end of the machine body frame 2. For example, the waste is cut by the waste cutting device 10 and then released to the field, for example. The grain separated in the threshing device 5 is stored in the Glen tank 7.

  As mentioned above, according to the combine 1 which concerns on embodiment, since the load cell 11 is arrange | positioned under the screw conveyor 72 provided in the bottom part of the width reduction part 71a of the Glen tank 7, it is a Glen tank in the load cell 11. The weight of 7 will act downward. Therefore, the combine 1 can make it possible to accurately measure the weight of the Glen tank 7.

  In the combine 1, the fuselage-side guide member 80 includes the inclined portion 85 and the horizontal portion 83. Therefore, when the Glen tank 7 is rotated from the maintenance position to the operating position, the Glen tank 7 is once lifted and then the load cell 11. Can be moved in the horizontal direction. Therefore, the combine 1 can arrange | position the Glen tank 7 on the load cell 11 reliably in an operation position.

  The combine 1 is provided with a recess 84 into which the front end portion of the Glen tank 7 in which the fuselage-side guide member 80 is in the operating position enters, so that the Glen tank 7 can be placed on the load cell 11 without interfering with the fuselage frame 2 in the operating position. It can be arranged.

  In the combine 1, since the machine body side guide member 80 is provided with the inclined portion 85 between the concave portion 84 and the horizontal portion 83, the Glen tank 7 can be easily rotated from the operating position to the maintenance position. In the combine 1, the airframe side guide member 80 integrally forms the horizontal portion 83 and the concave portion 84, and the concave portion 84 is fixed to the airframe frame 2 with a bolt 86 or the like. Etc. can be suppressed.

  In the combine 1, a part of the load cell 11 is disposed on the frame member 21 of the fuselage frame 2, so that the portion supporting the load cell 11 can be prevented from being deformed by the weight of the Glen tank 7. The weight can be measured accurately.

  In the combine 1, the frame member 21 in which a part of the load cell 11 is disposed is disposed on the outer edge of the body frame 2 on the outer side in the left-right direction. The length can be suppressed. Therefore, the combine 1 can achieve downsizing of the fuselage side guide member 80.

  In the combine 1, the load cell 11 is also disposed on the reinforcing plate 23 spanned between the frame member 21 and the second frame member 22, so that the body frame 2 is deformed by the weight of the Glen tank 7. And the weight of the Glen tank 7 can be accurately measured.

  Since the combine 1 is provided with the tank side reinforcing member 73 at the bottom of the width reducing portion 71a of the Glen tank 7, the mechanical strength of the Glen tank 7 can be improved, and the weight of the Glen tank 7 can be surely loaded. 11 can be applied. Since the combine 1 is provided with the tank side guide member 90 in the Glen tank 7, the Glen tank 7 can be reliably rotated over the maintenance position and the operation position.

1 Combine 2 Airframe Frame 7 Glen Tank 7a Hinge (Rotation Center)
11 Load cell (weight detection means)
12 Guide means 21 Frame member 22 Second frame member 23 Reinforcement plate (reinforcement member)
72 Screw conveyor (conveying means)
73 Tank side reinforcement member 80 Airframe side guide member 81 1st rising inclination part (rising inclination part)
82 Second ascending slope (rising slope)
83 Horizontal part 84 Concave part 85 Inclined part 86 Bolt (fixing means)
90 Tank-side guide member 92 Tank-side upward inclined portion 93 Tank-side horizontal portion

Claims (5)

A maintenance position in which a front end is separated from the body frame around a rotation center provided on the body frame and provided outside the rear end, and an operation position in which the front end is located on the body frame. A glen tank for storing grains that are rotatably provided over the
A weight detecting means disposed between the fuselage frame and the Glen tank at the operating position, and detecting the weight of the Glen tank;
In a combine provided with a fuselage-side guide member that is attached to the fuselage frame and that guides the front end portion of the Glen tank that rotates from the maintenance position toward the operation position onto the weight detection unit,
The fuselage-side guide member is positioned on the weight detection means and connected to the horizontal portion for horizontally moving the front end portion of the Glen tank rotating from the maintenance position toward the operation position. A recess into which at least a part of the front end of the Glen tank enters,
The combine wherein the horizontal portion and the concave portion are integrally formed and are fixed to the body frame.   The combine according to claim 1, wherein a frame member of the fuselage frame is provided on an outer edge portion of the fuselage frame in the left-right direction.   The said Glen tank is provided in the bottom part, The conveyance means which conveys grain back, The tank side reinforcement member which is attached to the said bottom part and covers the downward direction of the said conveyance means is described in Claim 1 or Claim 2. Combine.   2. An ascending inclined portion that climbs and gradually raises the front end portion of the Glen tank that rotates from the maintenance position toward the operation position at a position on the maintenance position side with respect to the horizontal portion. The combine according to any one of claims 3 to 4. A tank-side guide member provided at the front end of the Glen tank and riding on the fuselage-side guide member;
The tank-side guide member is laid on the rising slope when the Glen tank is rotated from the maintenance position toward the operation position, and is gradually tilted upward as it goes inward in the left-right direction. The combine according to claim 4, further comprising a tank-side upward inclined portion and a horizontal tank-side horizontal portion that is continuous with the tank-side upward inclined portion.

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