JP6624244B2 - Combine - Google Patents

Description

  The present invention relates to a combine.

  Conventionally, in a combine equipped with a supply device that supplies grains into a Glen tank and a moisture meter that measures the moisture of the grains supplied into the Glen tank, the supply device is located above the front and rear intermediate position of the Glen tank. A configuration in which grains are discharged from a formed supply port toward a moisture meter disposed at a front portion in a Glen tank is known (for example, see Patent Document 1).

JP 2015-55537 A

  In the known example, since the supply port of the supply device is provided at an intermediate position between the front and rear of the Glen tank 5, the supply device is rotated in a counterclockwise direction when discharging grains into the Glen tank.

  For this reason, the release of grains by the supply device increases at the upper side in the rotation direction and scatters more at the rear side, so that the moisture meter provided at the front side of the supply port cannot collect enough grains, and the amount of measurement is accordingly increased. There is a problem that accuracy is reduced.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a combine capable of accurately measuring the water content of a grain by devising the shape of a Glen tank and the arrangement of a moisture meter and a supply device.

  The present invention employs the following technical means in order to solve the above-described problems.

  That is, the invention according to claim 1 provides a supply device (16) for supplying the grains into the Glen tank (5) and a moisture meter (17) for measuring the moisture of the grains supplied to the Glen tank (5). ) And a combine provided with a spiral discharge device (11) for discharging grains provided at the bottom of the Glen tank (5), wherein the supply device (16) is provided at the upper front side of the Glen tank (5). The grain is discharged from the formed supply port (21) to the moisture meter (17) disposed at the rear of the Glen tank (5), and the top plate (20) of the Glen tank (5) is discharged. Comprises an inclined portion (23) inclined forward and upward from the upper end of the rear surface (18), the supply port (21) is arranged at a position higher than the upper end of the rear surface (18), and the moisture meter ( 17) is arranged near the upper end of the rear surface (18), Vibration is applied to the inner side plate (22) at a position below the rear side of the inner side plate (22) of the Glen tank (5) to discharge the grains in the Glen tank (5) by the spiral discharge device (11). A combine having a vibration applying device for smoothing is provided.

The invention according to claim 2 is characterized in that the moisture meter ( 17 ) is provided with a take-in portion (27) for taking in grains, and a guide member (28) for guiding the grains to the take-in portion (27) is provided. The combine described in item 1 is used.

  According to the first aspect of the present invention, since a part of the grains discharged from the supply device 16 is collected in the moisture meter 17 and the moisture is measured, the measurement accuracy can be improved. The measurement accuracy can be improved by ensuring the recovery of the kernels into the soil. In addition, by applying vibration to the inner side plate 22 of the Glen tank 5 by the vibrating device, it is possible to smoothly discharge the grains in the Glen tank 5 by the spiral discharge device 11.

  According to the second aspect of the present invention, in addition to the effect of the first aspect of the present invention, since the vibration is applied to the rear portion of the Glen tank 5 by the vibrating device, the moisture meter 17 also vibrates, and The effect of shaking out the necessary grains and not lowering the measurement accuracy by the moisture meter 17 can be expected.

The schematic side view of a combine. FIG. FIG. 3 is a plan view of the Glen tank in an open state. FIG. 4 is a plan view of the vicinity of a body-side guide member of the guide means. Sectional drawing of a guide means. The side view of a Glen tank. The partial schematic perspective view of a moisture meter. The front view near guidance means. Sectional drawing which shows the state in which the tank side guide member got on the fuselage side guide member. Sectional drawing which shows the state which the tank side guide member entered into the recessed part of the fuselage side guide member. Sectional drawing which shows the load cell etc. in the state where the tank side guide member got on the fuselage side guide member. Sectional drawing which shows the state which the Glen tank got on the load cell. The side view of the Glen tank which showed the arrangement state of the supply device and the moisture meter. FIG. 4 is an explanatory view of a state of kernel release from a supply port of the supply device as viewed from a plane. The rear view of the Glen tank which showed the arrangement state of the vertical discharge device and the moisture meter. The front view of a moisture meter. The side view of the Glen tank near a moisture meter. The side view of other embodiment of arrangement of a moisture meter. FIG. (A) Front view of the lock mechanism of the Glen tank, (B) Side view of the lock mechanism of the Glen tank. (A) The same part enlarged front view, (B) The enlarged side view. The enlarged rear view of the adjustment shaft part. (A) A perspective view of a stay and a holder of the control unit, (b) a side view of the stay and the holder of the control unit, and (c) a front view of the stay and the holder of the control unit.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to the drawings. 1 is a body frame of a combine, and the combine is a mobile agricultural machine that cuts and threshes agricultural products while traveling. In the figure, 2 is a traveling device provided below the body frame 1, 3 is a threshing device provided above the body frame 1, 4 is a reaping device provided in front of the threshing device 3, 5 is a Glen tank, and 6 is a pilot Department.

  In addition, for convenience of explanation, directions such as front and rear, right and left are shown for easy understanding, but the present invention is not limited by these directions.

  Reference numeral 8 denotes an engine. The engine 8 is a source of driving force used in the combine. The engine 8 is a heat engine that converts fuel energy into mechanical work by burning the fuel in a combustion chamber and outputs the result as rotational force. The engine 8 is mounted in an engine room (not shown) formed vertically below the control section 6 in front of the body frame 1 in the front-rear direction.

  The Glen tank 5 is a grain storage device that is formed in a box shape and temporarily stores the grains selected by the threshing device 3. The Glen tank 5 is disposed on the right side in the left-right direction of the body frame 1 behind the control unit 6 in the front-rear direction. In the present embodiment, the Glen tank 5 is provided along with the threshing device 3 in the left-right direction.

  The Glen tank 5 is separated from the body frame 1 by a maintenance position (in FIG. 3) around a hinge 10 (corresponding to the center of rotation) provided at the right rear end outside the rear end of the Glen tank 5. (Shown by a solid line) and a work position (shown by a two-dot chain line in FIG. 3) located on the body frame 1.

  By rotating the Glen tank 5 from the working position to the maintenance position toward the outside of the vehicle, maintenance and the like of the threshing device 3 disposed on the left side of the Glen tank 5 can be performed. In the Glen tank 5, an in-tank spiral discharge device 11 (FIGS. 8 to 12) for discharging grains in the Glen tank 5 is provided. It faces inside the connection metal 12 provided outside the machine. The lower part of the vertical discharge device 13 is connected to the spiral discharge device 11, and the base of the horizontal discharge auger 14 is connected to the upper part of the vertical discharge device 13.

  The spiral discharge device 11 is provided at the bottom of the Glen tank 5 in parallel with the front-rear direction, and the spiral discharge device 11 is provided over substantially the entire length of the Glen tank 5 in the front-rear direction. It is provided rotatable around. The spiral discharge device 11 is rotated around the axis by the driving force from the engine 8, and conveys the grains in the Glen tank 5 of the Glen tank 5 toward the rear connection metal 12 (FIG. 13). The grains are discharged out of the machine via the discharge device 13 and the horizontal discharge auger 14.

  The grain tank 5 samples a part of the grain discharged from the supply device 16 of the threshing device 3 into the grain tank 5 and averages and standard deviations of the moisture contained in the grain (variation and moisture unevenness). ) Is provided. The moisture meter 17 is mounted on the rear surface (rear plate) 18 of the rear surface of the Glen tank 5.

  The top plate 20 of the Glen tank 5 has a front portion formed in a horizontal shape, and at least a supply port 21 at an upper portion of the supply device 16 is opened from a predetermined position on the inner side plate 22 of the Glen tank 5 from a predetermined position rearward. The top plate 20 is formed on an inclined portion (rear-side inclined portion) 23 that is inclined downward toward the rear, and the rear end of the inclined portion 23 is connected to the upper end of the rear surface 18 (FIG. 13).

  Accordingly, the moisture meter 17 is provided at a position lower than the supply port 21 of the supply device 16, and the rebound grains 25 (FIG. 14) facing the supply port 21 of the supply device 16 cause the kernels to be sprung out of the top plate 20. It is configured to be guided to the moisture meter 17 from the inclined portion 23.

  That is, the moisture meter 17 is attached to the upper part of the rear surface 18 on the rear side, and is arranged on the scattering trajectory of the grain discharged from the supply device 16 of the threshing device 3 (FIG. 14, FIG. In FIG. 14, the amount of scattering is indicated by oblique lines.

  Therefore, the moisture meter 17 is provided on the rear side of the Glen tank 5 that has a large amount of splashed out by the supply device 16, and the moisture meter 17 is disposed at a position lower than the supply port 21 of the supply device 16, The moisture meter 17 can surely collect the grains spouted from the supply device 16 and accurately measure the average value and the standard deviation of the moisture of the grains.

  Therefore, the measurement accuracy of the moisture meter 17 can be improved.

  In other words, the supply device 16 is configured to discharge the grains from the supply port 21 formed in the upper front part of the Glen tank 5 toward the moisture meter 17 disposed at the rear part in the Glen tank 5.

  Therefore, the grain release is increased on the upper side in the rotation direction of the spring-out body 25 of the supply device 16 and the particles are scattered more on the rear side, so that the moisture meter 17 according to the present application is compared with the moisture meter provided on the front side of the supply port 21. Can collect enough grains.

  In the figure, 16A is a filing spiral, and 16B is a fry cylinder.

  Further, the top plate 20 of the Glen tank 5 is provided with an inclined portion 23 inclined forward and upward from the upper end of the rear surface 18, the supply port 21 is arranged at a position higher than the upper end of the rear surface 18, and the It is arranged near the upper end of the rear surface 18.

  A vertical discharge device 13 for discharging the grains in the Glen tank 5 is provided on the rear side of the rear surface 18, and the moisture meter 17 is a portion of the rear surface 18 of the Glen tank 5 that does not overlap with the vertical discharge device 13 in the rear view when viewed from the rear. To place.

  For this purpose, the moisture meter 17 is protected from foreign substances by the vertical discharge device 13.

  That is, the moisture meters 17 are provided at positions aligned in the left-right direction of the vertical discharge device 13.

  In this case, the moisture meter 17 is disposed at a position inside the machine body with respect to the vertical discharge device 13.

  Therefore, the vertical discharge device 13 further protects the foreign matter from foreign matters.

  Specifically, the moisture meter 17 is installed on the inclined portion 23 in the vicinity of the joint 26 between the rear end and the upper end of the rear surface 18.

  For this reason, the grains spouted out by the supply device 16 hit the inclined portion 23, and it is possible to effectively collect the grain into the moisture meter 17.

  The configuration of the moisture meter 17 may be any configuration as long as it is possible to collect and measure the grains splashed from the supply device 16, and the configuration is arbitrary. However, for example, the moisture meter 17 takes the grains into the moisture meter 17. The intake unit 27 may be provided, and a guide member 28 for guiding the grains to the intake unit 27 may be provided near the intake unit 27.

  Specifically, an opening 30 for taking in a part of the grain into the moisture meter 17 is provided on the rear surface 18 of the Glen tank 5, and a guide member attached to the front side of the opening 30 to facilitate taking the grain into the moisture meter 17. 28 are provided. The opening 30 extends through the rear surface 18. The guide member 28 is attached inside the Glen tank 5. The guide member 28 is formed in a trough-like shape with an open top, and accommodates the grains inside so that the grains can be easily taken into the moisture meter 17. For this reason, the accuracy of the moisture meter 17 can be improved.

  The upper opening 31 of the guide member 28 is provided with a net-like intrusion prevention body 32 (FIG. 17). The intrusion prevention body 32 is formed with a size larger than that of the grain, and prevents the invasion of foreign matter such as straw chips into the guide member 28 while allowing the guide member 28 to collect the grain.

  Therefore, the moisture meter 17 is prevented from being damaged by preventing intrusion of foreign matter.

  The entry preventing body 32 has an upper end abutting on the rear surface 18 side of the Glen tank 5 above the upper opening 31 of the guide member 28, and a lower end of the entry preventing body 32 is in front of the upper opening 31 of the guide member 28. It may be provided so as to be located so as to be located forward and downward with respect to the horizontal plane of the upper opening 31 in a side view.

  For this reason, the accumulation of foreign matter on the entry prevention body 32 is suppressed.

  The penetration preventing body 32 may be formed in a net shape by a so-called punched plate.

  For this reason, it is possible to prevent a branch of a grain or a foreign substance from being caught.

  As shown in FIGS. 7 and 16, the moisture meter 17 includes a column-shaped intake portion 27 that takes in grains one by one through the opening 30, and a portion of the intake portion 27 that extends into the main body of the moisture meter 17. A pair of electrode rollers 35 and the like provided below are provided.

  The take-in portion 27 has a shaft shape, is provided with an intermittent spiral groove (not shown) for accommodating grains one by one on the outer peripheral surface, and is rotated around the axis so that the grains are separated by a pair of electrodes. It is supplied between the rollers 35. Reference numeral 36 denotes a guide member provided on the side of the take-in portion 27. The guide member 36 is transferred to the pair of electrode rollers 35 by rotation of the take-up portion 27 in a state where grains are fitted between the guide member 36 and the intermittent spiral groove. I do.

  The electrode roller 35 crushes grains one by one between each other, and measures an electric resistance value between the pair of electrode rollers 35. The moisture meter 17 crushes the grains one by one between the pair of electrode rollers 35, and measures the electric resistance value between the pair of electrode rollers 35, thereby measuring the moisture contained in the grains one by one. I do. The moisture meter 17 measures the moisture of a plurality of grains, and measures the average value and the standard deviation of the moisture of the grains.

  The moisture meter 17 is covered with a cover member 40 as shown in FIG.

  A cover member 40 that covers the moisture meter 17 and is attached to the rear surface 18 of the Glen tank 5 is detachable by being attached to the rear surface 18 with bolts or the like. By providing the cover member 40, the moisture meter 17 can be protected, and by making the cover member 40 detachable, the maintainability of the moisture meter 17 can be improved.

  The moisture meter 17 is configured to drive the intake unit 27 and the electrode roller 35 by a motor (not shown), and stops the driving when the rotational load of the motor becomes larger than a predetermined value.

  That is, in the case where the intake unit 27 takes in a foreign substance into the moisture meter 17, the rotational load of the motor increases. Therefore, the driving of the motor is stopped to prevent the moisture meter 17 from being damaged.

  Also, the stop of the motor is notified by voice or a monitor (not shown).

  The motor of the moisture meter 17 continues to be driven while the grains in the Glen tank 5 are discharged by the spiral discharge device 11, the vertical discharge device 13, and the horizontal discharge auger 14.

  Therefore, the grains remaining in the moisture meter 17 are discharged, and the measurement of the grains in the next process can be performed accurately.

  Although not shown, a vibration motor (not shown) is provided separately from a motor for driving the moisture meter 17 on a stay (not shown) on which the moisture meter 17 is installed, and a rotating shaft (not shown) of the vibration motor is provided. If an eccentric weight (not shown) with a eccentric load is provided and the vibration is generated by driving the vibration motor, the moisture meter 17 vibrates and vibrates grains, dust and the like placed on the plane portion of the moisture meter 17. Is dropped.

  18 and 19 show an example in which the whole or a part of the moisture meter 17 is provided inside the rear surface 18 of the Glen tank 5, and the intake unit 27 and the electrode roller 35 of the moisture meter 17 are provided. The guide member 28 is provided on the front surface of the stored case 45, and the opening 30 is provided in the guide member 28.

  Therefore, the moisture meter 17 is prevented from being damaged by being pressed by the grains filled in the Glen tank 5.

  In addition, since the moisture meter 17 is inserted into the Glen tank 5, the amount of the moisture meter 17 protruding outside the Glen tank 5 can be reduced, and the vertical discharge when the Glen tank 5 is opened to the maintenance position. A gap with the device 13 can be secured.

  In the example in which the moisture meter 17 is entirely or partially provided inside the rear surface 18 of the Glen tank 5, an oblique shielding plate 46 is provided between the front upper surface of the case 45 and the inner surface of the rear surface 18.

  Therefore, accumulation of grains and the like on the upper surface of the case 45 serving as the moisture meter 17 is suppressed.

  The components of the Glen tank 5 are arranged such that the position of the center of gravity in the left-right direction overlaps the spiral discharge device 11 in the vertical direction. Desirably, the Glen tank 5 is disposed at a position where the position of the center of gravity in the left-right direction vertically overlaps the axis of the spiral discharge device 11.

  Thus, the combine includes a load cell 47 (shown in FIGS. 11 and 12 and corresponding to a weight detecting unit) for detecting the weight of the Glen tank 5, that is, the weight of the grain stored in the Glen tank 5, and the combine tank. Guide means 48 (shown in FIGS. 9 and 10) for guiding the front end onto the load cell 47 is provided.

  The load cell 47 is mounted on the body frame 1 and disposed between the body frame 1 and the front end of the Glen tank 5 at the working position, and is spirally mounted when the Glen tank 5 is positioned at the working position. It is disposed below the discharge device 11. As shown in FIG. 11, the load cell 47 is mounted on a frame member 49 of the body frame 1, and on a reinforcing plate 51 (corresponding to a reinforcing member) bridged between the frame member 49 and the second frame member 50. . That is, the load cell 47 is mounted on the frame member 49 and the reinforcing plate 51, at least a part is mounted on the frame member 49, and also mounted on the reinforcing plate 51.

  The frame member 49 and the second frame member 50 are formed in a straight line parallel to the front-rear direction, and formed in a quadrangular cylindrical shape having a quadrangular cross section. The frame member 49 is provided at the outer edge of the body frame 1 in the left-right direction. The second frame member 50 is disposed inside the frame member 49 in the left-right direction. The reinforcing plate 51 is made of stainless steel, and is formed in a flat plate shape.

  When the Glen tank 5 is positioned at the working position, the flat surface 53 of the tank-side reinforcing member 52 overlaps with the load cell 47 having the above-described configuration, and the weight of the grain stored in the Glen tank 5, that is, the grain stored in the Glen tank 5 is reduced. To detect.

  In the working position, the Glen tank 5 is vertically supported only by the load cell 47, and is positioned in the front-rear direction and the left-right direction by the hinge part 10, the locking arm, the positioning pin 54, and the like. The body frame 1 is composed of a plate member 55 (FIG. 5) for fixing the frame member 49 and the second frame member 50 on the surface.

  The guide means 48 guides the front end of the Glen tank 5 onto the load cell 47 when the Glen tank 5 rotates from the maintenance position to the work position. As shown in FIGS. 9 and 10, the guide means 48 includes a body-side guide member 56 attached to the body frame 1 and a tank-side guide member 57 provided at the front end of the Glen tank 5.

  The machine body-side guide member 56 raises at least a part of the front end of the Glen tank 5 after gradually raising the front end of the Glen tank 5 rotating from the maintenance position toward the work position toward the work position. After guiding so as to pass above the load cell 47, the front end of the flat surface 53 of the tank-side reinforcing member 52 of the Glen tank 5 is guided onto the load cell 47. The fuselage-side guide member 56 is arranged in the front-rear direction with the load cell 47 and is provided on the front side of the load cell 47.

  As shown in FIGS. 4 and 5, the fuselage-side guide member 56 includes a first rising slope 58 (corresponding to a rising slope), a second rising slope 59 (corresponding to a rising slope), and a horizontal section 60. And a recess 61. The first rising inclined portion 58, the second rising inclined portion 59, the horizontal portion 60, and the concave portion 61 are arranged in order in the left-right direction from the outside of the body frame 1.

  The first rising inclined portion 58 and the second rising inclined portion 59 are disposed outside the body frame 1 in the left-right direction, and ride on the front end of the Glen tank 5 that rotates from the maintenance position toward the work position. Thus, the front end of the Glen tank 5 is gradually raised. The first rising inclined portion 58 and the second rising inclined portion 59 are inclined so as to gradually move upward in the left-right direction toward the inside of the body frame 1.

  An outer end in the left-right direction of the second rising inclined portion 59 is located below an inner end in the left-right direction of the first rising inclined portion 58, and an inner end of the second rising inclined portion 59 in the left-right direction is: The first rising inclined portion 58 is located above an inner end in the left-right direction.

  The horizontal portion 60 is connected to the inner end of the second rising inclined portion 59 in the left-right direction, and horizontally moves the front end of the Glen tank 5 that rotates from the maintenance position toward the work position. The horizontal portion 60 extends in the left-right direction from the inner end in the left-right direction of the second rising inclined portion 59 toward the inside in the left-right direction. The horizontal portion 60 is provided on the body frame 1. The horizontal portion 60 is provided with a locking hole 63 for locking the positioning pin 54.

  The concave portion 61 is continuous with the inner end of the horizontal portion 60 in the left-right direction, and at least a part of the front end of the Glen tank 5 located on the load cell 47 enters. The concave portion 61 is formed to be concave below the horizontal portion 60. The concave portion 61 extends in the left-right direction from the left-right inside edge of the horizontal portion 60 toward the left-right inside. The recess 61 is disposed at a position aligned with the load cell 47 in the front-rear direction. When the flat surface 53 of the tank-side reinforcing member 52 of the Glen tank 5 at the working position overlaps the horizontal portion 60, the depth of the concave portion 61 is such that the tank-side guide member 57 enters the inside and the tank-side guide member 57 is formed to a depth that does not abut against the bottom surface of the recess 61.

  Thus, only the load cell 47 supports the weight of the Glen tank 5 and the guide member 48 does not support the load, and the measurement accuracy of the load cell 47 is ensured.

  A notch 71 is provided in the tank-side guide member 57 outside the tank-side horizontal portion 67, and the weight of the tank-side guide member 57 is not supported by the horizontal portion 60 of the body-side guide member 56 by the notch 71. , The measurement accuracy of the load cell 47 is ensured.

  Further, the fuselage-side guide member 56 has an inclined portion 64 disposed between the concave portion 61 and the horizontal portion 60 in the left-right direction. The inclined portion 64 is continuous with the surface of the horizontal portion 60 and the bottom surface of the concave portion 61, and gradually rises upward toward the outside in the left-right direction of the body frame 1. It is inclined. The body-side guide member 56 has a horizontal portion 60, an inclined portion 64, and a concave portion 61 integrally formed, and the bottom surface of the concave portion 61 is attached to the body frame 1 by bolts (corresponding to fixing means).

  When the Glen tank 5 rotates from the maintenance position to the work position, the tank-side guide member 57 rides on the machine-side guide member 56, and when the Glen tank 5 is positioned at the work position, a part of the tank-side guide member 57 is It intrudes into the recess 61 of the guide member 56. As shown in FIG. 8, the tank-side guide member 57 includes a downwardly extending member 65, a tank-side rising inclined portion 66, a tank-side horizontal portion 67, and a pin guide member 68. The downwardly extending member 65 is attached to the front end of the bottom of the width reducing portion 69 of the Glen tank 5 and extends downward from the front end of the bottom of the width reducing portion 69 of the Glen tank 5.

  The tank-side rising inclined portion 66, the tank-side horizontal portion 67, and the pin guide member 68 are arranged in order from the inside of the body frame 1 in the left-right direction, and are disposed at positions overlapping the body-side guide member 56. When the Glen tank 5 rotates from the maintenance position to the work position, the tank-side rising slope 66 rides on the first rising slope 58 and the second rising slope 59 and goes inward in the left-right direction. Inclines gradually upward. The tank-side rising inclined portion 66 is provided at an inner end of the downwardly extending member 65 in the left-right direction.

  The tank-side horizontal portion 67 is continuous with the tank-side rising inclined portion 66 and is parallel to the horizontal direction. The tank-side horizontal portion 67 is provided at the center of the downwardly extending member 65 in the left-right direction. The tank-side rising inclined portion 66 and the tank-side horizontal portion 67 are disposed at positions where the Glen tank 5 enters the concave portion 61 of the body-side guide member 56 when the Glen tank 5 is positioned at the working position. The tank-side rising inclined portion 66 and the tank-side horizontal portion 67 correspond to a part of the tank-side guide member 57.

  The pin guide member 68 supports the positioning pin 54 so as to be slidable in the vertical direction. The pin guide member 68 is provided at an outer end of the downwardly extending member 65 in the left-right direction. The pin guide member 68 is disposed at a position overlapping the horizontal portion 60 of the machine-side guide member 56 when the Glen tank 5 is positioned at the working position.

  Although not shown, a vibration device is provided at a position below the rear portion of the inner side plate 22 of the Glen tank 5.

  That is, the vibration device is provided on the rear side opposite to the load cell 47 provided on the front side.

  The vibration device applies vibration to the inner side plate 22 of the Glen tank 5 to smoothly discharge the grains in the Glen tank 5, and is provided on the opposite side of the load cell 47 to vibrate (noise) the measurement of the load cell 47. ) Is not affected.

  Further, since the vibration device applies vibration to the rear part of the Glen tank 5 close to the moisture meter 17, the moisture meter 17 also vibrates and shakes out the grains that have entered the guide member 28 of the moisture meter 17 unnecessarily. The effect of not lowering the measurement accuracy of the total 17 is also expected.

  The vibrating body (vibrator) of the vibrating device is brought into contact with a spring material provided on the Glen tank 5 side.

  Therefore, the vibration of the vibrating body is transmitted to the inner side plate 22 of the Glen tank 5 via the spring material, and the wear and the like of the inner side plate 22 are suppressed.

  The installation position of the vibrating device is arbitrary, but it is preferable to arrange the moisture meter 17 and the vibrating device on adjacent surfaces, because the moisture meter 17 can use the vibration of the vibrating device.

  That is, when the moisture meter 17 is installed on the same surface as the vibration device, the vibration is too strong and adversely affects the device of the moisture device 17, and when it is too far, the vibration does not act. By arranging the moisture meter 17 on the surface to be subjected to the vibration, an appropriate vibration is applied to the moisture meter 17 to suppress the volume of grains and dust, and the measurement accuracy of the moisture meter 17 is maintained.

  Thus, the Glen tank 5 engages an engaging hook 77 provided on the Glen tank 5 with an engaging pin 78 provided on the threshing device 3 side, in addition to the positioning pin 54, to open the Glen tank 5. A lock mechanism L for locking the movement is provided.

  However, if the engagement pin 78 supports the vertical load while the engagement hook 77 is engaged with the engagement pin 78, the load cell 47 may measure the yield in the Glen tank 5. Error occurs.

  Therefore, in the present application, the engagement height position between the engagement hook 77 and the engagement pin 78 is made adjustable, and the engagement hook 77 prevents the open rotation of the Glen tank 5, but does not support the weight of the Glen tank 5. I did it.

  A base plate 80 is fixed to the front upper portion of the inner side plate 22 of the Glen tank 5, and an adjustment plate 81 is abutted on the base plate 80 slidably up and down. The adjustment plate 81 is attached to the base plate 80 by screws 82. The screw 82 is vertically movable within a vertically long hole 83 provided in the adjustment plate 81. An adjusting shaft 84 is screwed into a lower portion of the base plate 80, and an upper end of the adjusting shaft 84 is brought into contact with a lower portion of the adjusting plate 81.

  An engagement hook 77 is rotatably attached to the adjustment plate 81 by a shaft 85.

  Therefore, when the adjusting shaft 84 is rotated forward and backward, the adjusting plate 81 moves up and down with respect to the base plate 80, and the height of the engaging pin 78 of the engaging hook 77 is changed by the up and down movement of the adjusting plate 81.

  In this case, if the screw pitch of the adjustment shaft 84 is about 1.5 mm, the amount of rotation of the adjustment shaft 84 and the vertical amount of the adjustment plate 81 can be easily understood, and fine adjustment is facilitated, which is preferable.

  The control section 6 in FIG. 23 has a cabin 86 surrounding a driver's seat (not shown) and an operation panel (not shown). A stay 90 having a holder 89 on which a tablet 88 can be mounted is provided on the left front vertical frame 87 of the cabin 86.

  The stay 90 is detachably attached to the left front vertical frame 87. When the tablet 88 is not used, the stay 90 is detached from the left front vertical frame 87.

  The stay 90 includes a base stay 91 attached to the left front vertical frame 87 by bolts 92, a second stay 93 attached to the base stay 91 by bolts 92, a stand 94 attached to the second stay 93, and a tablet 88 attached to the stand 94. The holder 89 is attached.

(Operation of the embodiment)
The present invention is configured as described above, and the cutting device 4 cuts the culm while the traveling device 2 is driven and driven by the driving force generated by the engine 8. The grain stalks harvested by the reaper 4 are transported and supplied to the threshing apparatus 3, and in the process in which the grain stalks are transported backward by the threshing apparatus 3, the grains are separated from the culm (hulling), and impurities such as straw are contaminated. The grains and the grains separated and separated by the threshing device 3 are separated and collected by the supply device 16, discharged from the supply port 21, and stored in the Glen tank 5.

  The grain tank 5 samples a part of the grain discharged from the supply device 16 of the threshing device 3 into the grain tank 5 and averages and standard deviations of the moisture contained in the grain (variation and moisture unevenness). ) Is provided above the rear surface 18 at a position behind the outlet supply port 21 of the supply device 16 of the inner side plate 22 of the Glen tank 5. The moisture meter 17 is located on the scattering trajectory of the grains discharged more from the supply port 21 of the supply device 16, thereby improving the collection efficiency of the grains of the moisture meter 17, and therefore, measuring accuracy of the moisture meter 17. Can be improved.

  The top plate 20 of the Glen tank 5 is formed as an inclined portion 23 which is inclined downward from a predetermined position on the rear side of the supply port 21 of the inner side plate 22 toward the rear, and a rear end of the inclined portion 23 is an upper end of the rear surface 18. Connected to the supply port 21 of the supply device 16, the grains bounced out by the spring body 25 facing the supply port 21 of the supply device 16 are directed to the moisture meter 17 located at a lower position than the supply port 21 of the supply device 16. Then, the water is collected by the moisture meter 17 while being guided by the inclined portion 23.

  Also in this respect, it is possible to effectively collect the grain in the moisture meter 17.

  That is, the moisture meter 17 is provided on the rear side of the Glen tank 5 that has a large amount of splashing out by the supply device 16, and the guide member 28 of the moisture meter 17 is disposed at a position lower than the supply port 21 of the supply device 16. As a result, the grains spouted from the supply device 16 are guided by the inclined portion 23 and reliably collected by the moisture meter 17, so that the average value and the standard deviation of the moisture of the grains can be accurately measured.

  In other words, in other words, since the moisture meter 17 is installed near the joint 26 between the rear end and the upper end of the rear surface 18 on the inclined portion 23 of the top plate 20, the grains spouted by the supply device 16 are removed. By hitting the inclined portion 23, it is possible to effectively perform sampling on the guide member 28.

  Since the moisture meter 17 is provided at a position aligned in the left-right direction of the vertical discharge device 13 and inside the left-right direction of the vertical discharge device 13, the moisture meter 17 is protected from foreign matter by the vertical discharge device 13.

  The configuration of the moisture meter 17 may be any configuration as long as it is possible to collect and measure the grains splashed from the supply device 16, and the configuration is arbitrary. The grains collected by the guide member 28 take in the grains through the opening 30. The grains are taken in one by one by the part 27, and the taken grains fall between the pair of electrode rollers 35 below the taking part 27, and the electrode rollers 35 crush the grains one by one between each other to form a pair. By measuring the electric resistance value between the electrode rollers 35, the moisture content of the grains is measured one by one, the moisture content of a plurality of grains is measured, and the average value of the moisture content of the grains and the standard value are measured. Measure the deviation.

  A guide member 28 for receiving and recovering a part of the grains of the moisture meter 17 is formed in a gutter-like cross section with an upper opening, and a mesh-shaped intrusion prevention body 32 is provided in an upper opening portion 31 of the guide member 28 so as to enter. Since the prevention body 32 is formed to have a larger size than the grain, the entry prevention body 32 can achieve both recovery of the grain of the guide member 28 and prevention of foreign matter such as straw chips from entering the guide member 28. .

  In addition, the moisture meter 17 is prevented from being damaged by preventing intrusion of foreign matter.

  The entry preventing body 32 has its upper end abutting on the rear surface 18 side of the Glen tank 5 above the upper opening 31 of the guide member 28, and the lower end of the entry preventing body 32 is located at the front end of the upper opening 31 of the guide member 28. When provided in such a manner as to be inclined downward and forward with respect to the horizontal plane of the upper opening 31 as viewed from the side, the accumulation of foreign matter on the entry preventing body 32 is suppressed.

  When the penetration preventing body 32 is formed in a net shape by a so-called perforated plate, it is possible to prevent a branch of a grain or a foreign substance from being caught.

  Since the rear side of the moisture meter 17 is covered by the cover member 40, the moisture meter 17 can be protected.

  Since the cover member 40 is detachably attached to the rear surface 18 with bolts or the like, the provision of the cover member 40 not only protects the moisture meter 17 but also allows the cover member 40 to be detachably attached. The maintainability of the total 17 can be improved.

  The moisture meter 17 is configured to drive the intake unit 27 and the electrode roller 35 by a motor (not shown). When the rotation load of the motor becomes larger than a predetermined value, the moisture meter 17 stops driving. In the case where the foreign matter is taken into the moisture meter 17 by the unit 27, the rotation load of the motor increases. Therefore, the driving of the motor is stopped to prevent the moisture meter 17 from being damaged.

  Since the motor of the moisture meter 17 is configured to continue driving while the grains in the Glen tank 5 are being discharged by the spiral discharge device 11, the vertical discharge device 13, and the horizontal discharge auger 14, the grain remaining in the moisture meter 17 is provided. The grains are discharged, and the measurement of the grains in the next process can be performed accurately.

  Also, a vibration motor is separately provided in addition to the motor on the stay or the case 45 on which the moisture meter 17 is installed, and an eccentric weight of the load is provided on the rotating shaft of the vibration motor, and vibration is generated when the motor is driven. Therefore, the grains, dust, and the like placed on the plane portion of the moisture meter 17 can be dropped by the vibration of the moisture meter 17.

  Thus, the combine has a load cell 47 for detecting the weight of the Glen tank 5, that is, the weight of the grains stored in the Glen tank 5, and a guide means 48 for guiding the front end of the Glen tank 5 onto the load cell 47. Therefore, when the Glen tank 5 is in the working position, the load cell 47 is operated to measure the yield of the Glen tank 5, and after the work is completed, the Glen tank 5 is opened and rotated to the maintenance position to perform maintenance. The Glen tank 5 is returned to the working position by the guide means 48.

  When the Glen tank 5 is rotated from the maintenance position to the work position, the tip of the tank-side rising slope 66 of the tank-side guiding member 57 near the threshing device 3 becomes the first rising slope of the body-side guiding member 56. Touch 58. When the Glen tank 5 is further rotated toward the working position, the tip of the tank-side rising slope 66 of the tank-side guiding member 57 near the threshing device 3 becomes the first rising slope 58 of the body-side guiding member 56. After climbing up and gradually ascending along the first ascending portion 58, it rides on the second ascending portion 59 of the body side guide member 56 and gradually ascends along the second ascending portion 59. . Then, the tank-side horizontal portion 67 of the tank-side guide member 57 rides on the horizontal portion 60 of the body-side guide member 56. Then, the front end of the width reduction portion 69 of the Glen tank 5 is located above the load cell 47 with an interval from the load cell 47.

  When the Glen tank 5 is further rotated toward the working position, the tank-side horizontal portion 67 of the tank-side guide member 57 slides on the horizontal portion 60 of the body-side guide member 56, and then the tank-side guide member 57 Of the tank-side guide member 57, and the tank-side rising inclined portion 66 and the tank-side horizontal portion 67 of the tank-side guide member 57 enter the recess 61.

  Then, the locking arm is locked to the Glen tank 5, the positioning pin 54 is locked to the locking hole 63, and the Glen tank 5 is fixed to the machine body frame 1 or the like at the working position.

  Then, the front end of the width reduction portion 69 of the Glen tank 5 overlaps the load cell 47, and the load cell 47 can detect the weight of the Glen tank 5.

  Further, since the fuselage-side guide member 56 includes the inclined portion 64 and the horizontal portion 60, when rotating the Glen tank 5 from the maintenance position to the work position, the Glen tank 5 is once lifted, and then the upper portion of the load cell 47 is leveled. Can be moved in any direction.

  Therefore, the Glen tank 5 can be securely disposed on the load cell 47 at the work position.

  Since the fuselage-side guide member 56 has the concave portion 61 into which the front end of the Glen tank 5 at the working position enters, the Glen tank 5 can be disposed on the load cell 47 without causing interference with the body frame 1 at the working position. Can be.

  Since the body-side guide member 56 has the inclined portion 64 between the concave portion 61 and the horizontal portion 60, the Glen tank 5 can be easily rotated from the work position to the maintenance position.

  Since the fuselage-side guide member 56 integrally forms the horizontal portion 60 and the concave portion 61 and fixes the concave portion 61 to the body frame 1 with bolts or the like, the interference between the Glen tank 5 and the bolts or the like at the working position is suppressed. can do.

  Since a part of the load cell 47 is disposed on the frame member 49 of the body frame 1, deformation of the portion supporting the reload cell 47 due to the weight of the Glen tank 5 can be suppressed, and the weight of the Glen tank 5 can be reduced. It can be measured accurately.

  Since the frame member 49 in which a part of the load cell 47 is provided is provided on the outer edge of the body frame 1 on the outer side in the left-right direction, the length of the path through which the body-side guide member 56 guides the Glen tank 5 is suppressed. Therefore, the size of the body-side guide member 56 can be reduced.

  Since the load cell 47 is also provided on the reinforcing plate 51 bridged between the frame member 49 and the second frame member 50, the deformation of the body frame 1 due to the weight of the Glen tank 5 can be suppressed, The weight of the Glen tank 5 can be accurately measured.

  Since the tank-side reinforcing member 52 is provided at the bottom of the width reduction portion 69 of the Glen tank 5, the mechanical strength of the Glen tank 5 can be improved, and the weight of the Glen tank 5 can be reliably applied to the load cell 47. be able to.

  Since the tank-side guide member 57 is provided on the Glen tank 5, the Glen tank 5 can be reliably rotated between the maintenance position and the work position.

  Since the vibrating device is provided at the rear lower position of the inner side plate 22 of the Glen tank 5, the vibrating device applies vibration to the inner side plate 22 of the Glen tank 5 to smoothly discharge the grains in the Glen tank 5. In addition, the influence of vibration (noise) of the vibration device provided on the opposite side of the load cell 47 on the measurement of the load cell 47 can be suppressed.

  Further, since the vibration device applies vibration to the rear part of the Glen tank 5 close to the moisture meter 17, the moisture meter 17 also vibrates and shakes out the grains that have entered the guide member 28 of the moisture meter 17 unnecessarily. The effect of not lowering the measurement accuracy of the total 17 is also expected.

  Since the vibrator (vibrator) 74 of the vibrator is in contact with the spring material provided on the Glen tank 5 side, the vibration of the vibrator is transmitted to the inner side plate 22 of the Glen tank 5 via the spring material. In addition, wear of the inner side plate 22 is suppressed.

  The installation position of the vibrating device is arbitrary, but it is preferable to arrange the moisture meter 17 and the vibrating device on adjacent surfaces, because the moisture meter 17 can use the vibration of the vibrating device.

  Thus, the Glen tank 5 engages an engaging hook 77 provided on the Glen tank 5 with an engaging pin 78 provided on the threshing device 3 side, in addition to the positioning pin 54, to open the Glen tank 5. The movement is locked, and the height of the engagement between the engagement hook 77 and the engagement pin 78 is adjustable. Therefore, the engagement hook 77 prevents the open rotation of the Glen tank 5. Do not support the weight of.

  Therefore, when the engagement hook 78 is engaged with the engagement pin 78, the engagement pin 78 does not support the load in the vertical direction. This prevents the occurrence of an error when the load cell 47 measures the yield in the Glen tank 5.

  The adjusting plate 81 is slidably contacted vertically with a base plate 80 fixed to the Glen tank 5 side, and the adjusting plate 81 is attached by inserting a screw 82 into a vertically long hole 83 of the base plate 80. When the screw 82 is loosened, it becomes vertically movable with respect to the base plate 80.

  Since the upper end of the adjusting shaft 84 screwed to the lower portion of the base plate 80 is in contact with the lower portion of the adjusting plate 81, when the adjusting shaft 84 is rotated forward and reverse, the adjusting plate 81 provided with the engaging hook 77 The height of the engaging hook 77 with respect to the engaging pin 78 is changed by moving the adjusting plate 81 up and down with respect to the base plate 80. ".

5 Glen tank 11 Spiral discharge device 16 Supply device 17 Moisture meter 18 Rear surface 20 Top plate 21 Supply port 23 Inclined portion 27 Intake portion 28 Guide member

Claims (2)

  A supply device (16) for supplying the grains into the Glen tank (5), a moisture meter (17) for measuring the moisture of the grains supplied to the Glen tank (5), and a moisture meter (17) in the Glen tank (5) In a combine provided with a spiral discharge device (11) for discharging kernels provided at the bottom, the supply device (16) is connected to a supply port (21) formed at a front upper portion of the Glen tank (5). The grain is discharged toward the moisture meter (17) disposed at the rear of the Glen tank (5), and the top plate (20) of the Glen tank (5) is arranged from the upper end of the rear surface (18). The supply port (21) is provided at a position higher than the upper end of the rear surface (18), and the moisture meter (17) is positioned at the upper end of the rear surface (18). Part, and the inner side plate of the Glen tank (5) ( 2) A vibrating device for applying vibration to the inner side plate (22) and smoothing the discharge of the grains in the Glen tank (5) by the spiral discharge device (11) is provided in a lower rear portion. A combine characterized in that: The combine according to claim 1, wherein the moisture meter ( 17 ) is provided with a take-in portion (27) for taking in grains, and a guide member (28) for guiding the grains to the take-in portion (27) is provided.

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