JP6958604B2 - combine - Google Patents

Description

The present invention relates to a combine.

Conventionally, a configuration in which a transport drum of a transport elevator that transports culms cut by a reaping device to a threshing device can be moved up and down is known (see Patent Document 1).
This transfer elevator has a configuration in which a transfer drum is rotated up and down by a pair of left and right inner arms provided in the elevator case.

Japanese Unexamined Patent Publication No. 2012-210164

In the known example, since the pair of left and right inner arms are connected by a rotation shaft in the left-right direction, there is a problem that the conveyed object is entangled with the connecting shaft.
Further, in a known example, a spring mounting shaft protruding laterally from the side plate of the elevator is provided at a position near the transport drum of the inner arm, and a spring for lowering the transport drum is provided on the spring mounting shaft, so that the spring is mounted. It is necessary to provide a large opening in the side plate of the elevator so as not to interfere with the vertical and forward / backward movement of the shaft, and there is a problem that the transported object and dust leak from this opening.
In the present application, the vertical mechanism of the transport drum in the elevator case is devised to prevent clogging of the transported object and to prevent leakage of the transported object.

In the invention according to claim 1, in a combine in which the table 14 of the cutting device 4 provided in front of the traveling device 2 is connected to the grain removal device 3 via the transfer elevator 15, the elevator drive shaft 16 at the base of the transfer elevator 15 is used. Is configured to input the drive rotation of the engine, and a predetermined interval is provided between the pair of left and right drive gears 19 fixed to the elevator drive shaft 16 in the elevator case 17 of the transfer elevator 15 and the passively rotating transfer drum 20. The endless transport chain 23 provided with a plurality of transport bodies 24 is hung around, and the transport drum 20 is configured to be rotatable up and down in the elevator case 17, and the inner drum support arm 26 and the elevator in the elevator case 17. outside the elevator plate 18 and the outer arm 27 connected by inner drum support arm 26 and the bolt 28 in a state of being positioned intermediate the outer arm 27 of the side plate 18, the outer arm 27, and the inner drum support arm 26 It is a combine having a structure in which a bearing 29 of a rotation fulcrum shaft 25 that rotatably supports the outer arm 27 is provided.
In the invention according to claim 2, the pair of left and right outer arms 27 for rotating the transport drum 20 up and down are provided with springs 35 for urging the transport drum 20 so as to be pressed downward, and the springs 35 are the outer arms. One end of the spring 35 is locked to the hook 36 provided at a predetermined position of 27, and the adjustment rod 37 provided so as to be movable back and forth on the outer surface side of the elevator side plate 18 is locked to the other end of the spring 35 as a combine. Is.
In the invention according to claim 3, the spring 35 and the adjusting rod 37 are formed long toward the rear, and the left spring 35 and the adjusting rod 37 rotate around the cutting blade drive chain 40 arranged on the outer side of the left elevator side plate 18. It is a combine that is arranged inside the area.
In the invention according to claim 4, a rotating fulcrum plate 43 is provided between the outer arm 27 and the elevator side plate 18 so as to be movable back and forth with respect to the elevator side plate 18, and the end of the rotating fulcrum plate 43 is formed. It is a combine to which a push adjuster 44 for moving the rotation fulcrum plate 43 back and forth is attached.
In the invention according to claim 5, the combine is provided with a stopper 45 for positioning the transport drum 20 at a predetermined height position with respect to the bottom plate of the elevator case 17 in the moving path of the inner drum support arm 26 or the outer arm 27. It is a thing.

In the invention according to claim 1, the inner drum support arm 26 in the elevator case 17 and the outer outer arm 27 outside the elevator side plate 18 are connected by bolts 28 with the elevator side plate 18 sandwiched between them, and the rotation fulcrum shaft is connected to the outer arm 27. Since the 25 bearings 29 are provided, it is not necessary to connect the left and right inner arms with a rotation shaft in the left-right direction, and it is possible to prevent clogging in the elevator.
In the invention according to claim 2, the outer arm 27 for rotating the transport drum 20 up and down is provided with a spring 35 for urging the transport drum 20 so as to push it downward, and the spring 35 is positioned at a predetermined position on the outer arm 27. One end of the spring 35 is locked to the provided hook 36, and the adjustment rod 37 provided so as to be movable back and forth on the outer surface side of the elevator side plate 18 is locked to the other end of the spring 35, so that the elevator side plate 18 is unnecessary. A spring 35 for lowering the transport drum 20 can be provided without providing a large opening, and as a result, leakage of the transported object due to the provision of the spring 35 can be prevented.
In the invention according to claim 3, the spring 35 and the adjusting rod 37 are formed long toward the rear, and the left spring 35 and the adjusting rod 37 rotate around the cutting blade drive chain 40 arranged on the outer side of the left elevator side plate 18. Since the configuration is arranged inside the region, the spring 35 on the left side and the adjusting rod 37 can be arranged by utilizing the space between the cutting blade drive chain 40 and the elevator side plate 18.
In the invention according to claim 4, a rotating fulcrum plate 43 is provided between the outer arm 27 and the elevator side plate 18 so as to be movable back and forth with respect to the elevator side plate 18, and the end of the rotating fulcrum plate 43 is formed. Since the push adjuster 44 for moving the rotary fulcrum plate 43 back and forth is attached, the transport drum 20 can be moved back and forth simply by moving the rotary fulcrum plate 43 back and forth, and the tension of the transport chain 23 can be adjusted (tension). Adjustment) can be done easily.
In the invention according to claim 5, since the stopper 45 for positioning the transport drum 20 at a predetermined height position with respect to the bottom plate of the elevator case 17 is provided in the moving path of the inner drum support arm 26 or the outer arm 27. Since the lower limit position of the transport drum 20 can be determined, the minimum transport passage can be secured, and the stopper 45 is provided in front of the rotation fulcrum shaft 25, the load received by the stopper 45 can be reduced, and the stopper 45 can be used. Can be made compact.

Side view of the combine. Top view of the support mechanism of the transfer drum of the transfer elevator. Side view of the transport elevator. Top view of the transport elevator. Longitudinal front view of the support mechanism of the transport drum. (A) The plan view of another embodiment of the support mechanism of a transport drum. (B) Side view of the transport elevator. (A) The plan view of another embodiment of the support mechanism of a transport drum. (B) Side view of the transport elevator. (C) Partial plan view of the support mechanism of the transport drum. (D) Partial side view of the support mechanism of the transport drum. (A) The plan view of another embodiment of the support mechanism of a transport drum. (B) Side view of the transport elevator. (C) Partial front view of the support mechanism of the transport drum. (D) Partial side view of the support mechanism of the transport drum. (A) The plan view of another embodiment of the support mechanism of a transport drum. (B) Side view of the transport elevator. (C) Partial front view of the support mechanism of the transport drum. (D) Partial side view of the support mechanism of the transport drum.

Explaining one embodiment of the present invention with reference to the drawings, 1 is a traveling device provided at a position below the machine frame 1, 2 is a traveling device provided at a position below the machine frame 1, and 3 is a threshing device provided at a position above the machine frame 1. 4 is a cutting device provided in front of the machine frame 1, 5 is a grain tank for temporarily storing grains taken out from the threshing device 3 provided on the side of the threshing device 3, and 6 is a control unit. (Fig. 1).
The cutting device 4 includes left and right weeding devices 10 provided in front, a scraping reel 11 for scraping the culm, a cutting blade 12 for reaping the scraped culm, and an auger for collecting the culm (not shown). ) Is attached to the table 14. The cutting device 4 attaches the tip of the transfer elevator (transport device) 15 to the table 14, and the base of the transfer elevator 15 is connected to the threshing chamber (not shown) of the threshing device 3 (FIG. 1).

The elevator drive shaft 16 at the base of the transport elevator 15 is configured to input the rotation of the engine (not shown), and the elevator drive shaft 16 is also configured to be used as the cutting input shaft for transmitting the rotation to the cutting device 4 ((not shown). Figure 3).
Further, the transport elevator 15 and the cutting device 4 rotate up and down with the elevator drive shaft 16 as a rotation fulcrum.
The elevator drive shaft 16 is rotatably mounted on the left and right side plates 18 of the elevator case 17 of the transport elevator 15, and a pair of left and right drive gears 19 are fixed to the elevator drive shaft 16 in the elevator case 17. An endless transport chain 23 is hung between the drive gear 19 and the pair of left and right tooth portions 21 of the passively rotating transport drum 20. A plurality of transport bodies 24 are provided in the transport chain 23 at predetermined intervals.

The transport drum 20 is configured to be vertically rotatable in the elevator case 17 with a rotation fulcrum shaft 25 provided behind the transport drum 20 as a fulcrum.
Therefore, it is possible to prevent the occurrence of clogging when the amount of transported grain culm increases.
The inner drum support arm 26 in the elevator case 17 and the outer outer arm 27 outside the elevator side plate 18 are connected by bolts 28 with the elevator side plate 18 sandwiched between them, and the outer arm 27 is provided with a bearing 29 for a rotating fulcrum shaft 25. do.
Therefore, since the inner inner drum support arm 26 and the outer arm 27 are connected with the elevator side plate 18 sandwiched between them, the arm becomes strong and the operation becomes stable.
The outer arm 27 is provided with a stepped plate portion 31 located outside the main body 30 at the rear portion of the main body 30 of the outer arm 27, and the portion of the stepped plate portion 31 is rotated to the bearing 29 via the rotation fulcrum shaft 25. It can be installed freely.
Therefore, since the outer arm 27 itself is a stepped plate, the outer arm 27 is further strengthened and the durability can be improved.

The outer arm 27 for rotating the passively rotating transport drum 20 up and down is provided with a spring 35 for urging the transport drum 20 so as to push it downward.
Therefore, the transport drum 20 is always positioned downward to prevent vertical vibration of the transport drum 20 and suppress the generation of vibration of the entire transport elevator 15.
Specifically, a hook 36 that protrudes in the intersecting direction with respect to the length direction of the outer arm 27 is provided, one end (front end) of the spring 35 is locked to the hook 36, and the adjustment rod 37 is attached to the other end of the spring 35. The front end of the adjusting rod 37 is locked, and the screw shaft portion at the rear portion of the adjusting rod 37 is screwed into the stay 38 provided on the elevator side plate (fixed side) 18.
Therefore, when the adjusting rod 37 is moved backward, the elasticity of the spring 35 is strengthened, the downward pressing force of the transport drum 20 is strengthened, and when the adjusting rod 37 is moved forward, the elasticity of the spring 35 is weakened. The downward pressing force of the transport drum 20 can be adjusted weakly.

Further, with the elasticity of the spring 35, the passage gap of the transport drum 20 can be automatically adjusted to be wide and narrow according to the amount of passage of the transported object in the elevator case 17, and the culm can be taken in well regardless of the small amount and large amount of the transported object.
Further, since the spring 35 can be installed near the bearing 29 of the rotation fulcrum shaft 25 of the outer arm 27, the tension mechanism for vertical rotation of the transport drum 20 can be arranged outside the elevator side plate 18, and the adjustment can be facilitated. , Easy to assemble.
Further, in providing the tension mechanism for vertical rotation of the transport drum 20, it is not necessary to provide an unnecessary opening in the elevator side plate 18, and it is possible to prevent grain leakage from the elevator case 17.

Further, the spring 35 and the adjusting rod 37 are formed long toward the rear, and the spring 35 and the adjusting rod 37 on the left side are arranged inside the circumferential region of the cutting blade drive chain 40 arranged on the outside of the elevator side plate 18 on the left side. It is configured.
Therefore, the spring 35 and the adjusting rod 37 on the left side can be arranged by utilizing the space between the cutting blade drive chain 40 and the elevator side plate 18, and are protected and safe in the chain cover.
Further, a rotation fulcrum plate 43 is provided between the outer arm 27 and the elevator side plate 18.
Therefore, the arm rotation fulcrum plate 43 can be directly fixed to the elevator side plate 18, which provides strong support and improves durability.
The base portion of the rotating fulcrum shaft 25 is fixed to the rotating fulcrum plate 43, and the outer end of the rotating fulcrum shaft 25 is pivotally mounted on a bearing 29 provided on the stepped plate portion 31.

Further, an inner rotating fulcrum plate 42 is provided inside the elevator side plate 18 in a portion corresponding to the rotating fulcrum plate 43, and the elevator side plate 18 is mounted from the left and right sides by the rotating fulcrum plate 43 and the inner rotating fulcrum plate 42. It is sandwiched and fixed by screwing the nut 41A from the outside of the rotating fulcrum plate 43 to the bolt 41 provided on the inner rotating fulcrum plate 42 (FIG. 3).
Further, the rotation fulcrum plate 43 fixed to the elevator side plate 18 is attached so as to be movable back and forth.
Therefore, the transport drum 20 can be moved back and forth only by moving the rotation fulcrum plate 43 back and forth, and the tension adjustment (tension adjustment) of the transport chain 23 can be easily performed.
The rotation fulcrum plate 43 is adjusted to move back and forth by attaching a push adjuster 44 to the rear end portion of the stepped plate portion 31 of the outer arm 27.

Therefore, the tension adjustment (tension adjustment) of the transport chain 23 can be facilitated, the left and right tension amount can be confirmed (visually) at the position of the push adjuster 44, and the position of the left and right push adjuster 44 becomes constant.
Although not shown, the side plate 18 of the elevator case 17 is provided with a scale or the like indicating the positions of the left and right push adjusters 44 to further facilitate tension adjustment (tension adjustment) and improve the accuracy of left-right balance. Can be improved.
Further, since the inner drum support arm 26 in the elevator case 17 serving as the drum arm and the outer outer arm 27 outside the elevator side plate 18 are directly moved back and forth via the rotation fulcrum plate 43, it is impossible for the rotation fulcrum shaft 25 or the like. No load is applied and durability can be improved.
When the rotation fulcrum plate 43 is moved back and forth to adjust the tension force of the transport chain 23, the tension of the spring 35 changes as the rotation fulcrum plate 43 moves back and forth, but the screw shaft at the rear of the adjustment rod 37 The tension of the spring 35 can be appropriately set by adjusting the portion.

Further, a stopper 45 for positioning the transport drum 20 at a predetermined height position with respect to the bottom plate of the elevator case 17 is provided at a predetermined position of the vertical rotation movement path of the inner drum support arm 26 in the elevator case 17.
Therefore, the lower limit position of the transport drum 20 can be determined, the minimum transport passage can be secured, and the stopper 45 is provided in front of the rotation fulcrum shaft 25 and below the inner drum support arm 26. The load received by the stopper 45 can be reduced, and the stopper 45 can be made compact.
Further, a stopper 45 may be provided at the lower front portion of the outer arm 27.
Therefore, since the stopper 45 is provided on the outside of the elevator case 17, it is easy to inspect, and it is easy to adjust and maintain.

In the configuration in which the stopper 45 is provided at the lower front portion of the inner drum support arm 26 or the outer arm 27 in the elevator case 17, the stopper 45 is composed of a cushioning rubber member.
Therefore, the impact load when the inner drum support arm 26 or the outer arm 27 when the transport drum 20 comes up and down comes into contact with the stopper 45 is alleviated, and the impact noise (abnormal noise) can be alleviated.
The left and right inner drum support arms 26 are rotatably attached to the side plate 18 of the elevator case 17 by the rotation fulcrum shaft 25 and the bearing 29. The rotating fulcrum shaft 25 and the bearing 29 are attached to the elevator case 17 by the rotating fulcrum plate 43 so as to be movable back and forth.
The push adjuster 44 is attached to the end (rear portion) of the rotary fulcrum plate 43, and the push adjuster 44 is attached to the elevator case 17 side so as to be movable back and forth.

Therefore, since it is located outside the elevator side plate 18, the bearing 29 and the like of the rotating fulcrum shaft 25 can be easily assembled and maintainability can be improved.
Further, the rotating fulcrum shaft 25 and the inner drum support arm 26 can be easily connected and simple, and only the rotating fulcrum shaft 25 can be replaced, so that durability can be maintained.
FIG. 6 shows another embodiment of the vertical swing configuration of the transport drum 20, and has a configuration in which a pair of left and right inner drum support arms 26 that can swing only inside the elevator case 17 are provided.
Therefore, the transport drum 20 can be swung up and down only by the inner inner drum support arm 26, which has a simple structure and facilitates assembly and maintenance.

In this case, the pair of left and right inner drum support arms 26 are connected to the rear protruding portion 26A behind the rotation fulcrum shaft 25 by a connecting rod 46 formed by a longitudinal member in the left-right direction.
Therefore, although it is only the inner drum support arm 26, it has a quadrangular frame shape due to the transport drum 20 and the connecting rod 46, and has a strong configuration.
In this case, the connecting rod 46 is divided at the left and right intermediate portions, flange portions 47 are provided at each divided end portion, and the flange portions 47 are brought into contact with each other and fixed by bolts 48.
If a gap is generated between the left and right flange portions 47, measures such as inserting a shim plate (spacer) into the gap are taken.

Further, one end (front end) of the spring 35 is locked to either one of the left and right connecting rods 46 that connect the rear protruding portion 26A behind the rotation fulcrum shaft 25 of the pair of left and right inner drum support arms 26. The lower end of the adjusting rod 37 is locked to the other end of the spring 35, and the screw shaft portion at the upper part of the adjusting rod 37 is screwed to the ceiling plate 17A side of the elevator case 17.
Therefore, when the adjusting rod 37 is moved upward, the elasticity of the spring 35 is strengthened, the downward pressing force of the transport drum 20 is strengthened, and when the adjusting rod 37 is moved downward, the elasticity of the spring 35 is weakened. The downward pressing force of the transport drum 20 can be adjusted weakly.
Therefore, the spring elasticity of the spring 35 changes the passage gap under the transport drum 20 to a wide range, and the culm can be taken in well regardless of the small amount or large amount.
Further, since the connecting rod 46 is directly pulled, and the spring 35 can be used as a single unit, it is simple.

Further, the tension spring 35 is turned upward, and the adjusting rod 37 is passed through the ceiling portion 17A of the elevator case 17.
Therefore, since the adjusting rod 37 comes out on the upper side of the elevator case 17, inspection adjustment maintainability is improved.
Further, the rotation fulcrum plate 43 and the push adjuster 44 are located on the outside of the elevator case 17, and the transfer drum 20 and the transfer chain 23 can be easily tensioned simply by pushing the rotation fulcrum plate 43.
That is, the transport chain 23 moves the transport drum 20 backward due to a transport load or the like and loosens, but the push adjuster 44 rotates by contacting the contact portion 43A of the rotation fulcrum plate 43. The inner drum support arm 26 is moved forward via the moving fulcrum shaft 25 and the bearing 29, whereby the transport drum 20 is moved forward and the transport chain 23 is strained.

FIG. 7 shows another embodiment of the vertical swing configuration of the transport drum 20, and has a configuration in which the rotating shaft cores of the left and right inner drum support arms 26 inside the elevator case 17 are connected by a hollow pipe 50.
Therefore, the transport drum 20 and the hollow pipe 50 form a square frame, the swinging component becomes strong, and the operation becomes stable.
In this case, bearings 29 are installed at both left and right ends of the hollow pipe 50.
Therefore, the vertical swing configuration of the inner drum support arm 26 of the transport drum 20 can be configured simply and inexpensively.
Bearings 29 are installed at both ends of the hollow pipe 50, and one side or both sides of the hollow pipe 50 are detachably and rotatably attached to the inner drum support arm 26.

That is, in FIG. 7, an inner rotation fulcrum plate 42 is provided on one side (left side) of the hollow pipe 50, and the elevator side plates 18 are sandwiched from the left and right sides by the rotation fulcrum plate 43 and the inner rotation fulcrum plate 42.
Therefore, by dividing the inner drum support arm 26, the assembleability in the elevator case 17 is good, the parts such as the bearing 29 can be easily replaced, and the durability can be improved.
In this case, bearings 29 are installed at both ends of the hollow pipe 50, and a rotating fulcrum plate (fulcrum plate with a shaft) 43 is attached to the outside of the elevator case 17 so as to be movable back and forth.
Therefore, by inserting the rotation fulcrum shaft 25 of the rotation fulcrum plate 43 into the bearings 29 at both the left and right ends of the hollow pipe 50, the rotation fulcrum shaft 25 of the inner drum support arm 26 can be simply supported.

Further, since the rotating fulcrum plate (fulcrum plate with shaft) 43 is attached to the outside of the elevator case 17, maintainability is good.
The rotating fulcrum plate (fulcrum plate with shaft) 43 is attached to the outside of the side plate 18 of the elevator case 17 so as to be movable back and forth, and the rotating fulcrum plate (fulcrum plate with shaft) 43 has a push adjuster (push bolt) 44. The front ends are brought into contact with each other.
Therefore, when the push adjuster 44 on the outside of the elevator case 17 is moved back and forth, the rotating fulcrum plate (fulcrum plate with shaft) 43 is moved back and forth (mainly forward movement), whereby the transport drum 20 and the transport drum 20 can be easily transported. The tension of the chain 23 can be adjusted.

Further, at a predetermined position in the left-right direction of the hollow hollow pipe 50, a hook 36 protruding in the intersecting direction with respect to the length direction of the hollow pipe 50 is provided, and one end (front end) of the spring 35 is locked to the hook 36. The front end of the adjusting rod 37 is locked to the other end of the spring 35, and the screw shaft portion at the rear portion of the adjusting rod 37 is screwed into the stay 38.
That is, a stay 38, an adjusting rod 37, and a compression spring 35 are provided on the opposite side of the transport drum 20 of the hollow pipe 50.
Therefore, when the adjusting rod 37 is moved backward, the elasticity of the spring 35 is strengthened, the downward pressing force of the transport drum 20 is strengthened, and when the adjusting rod 37 is moved forward, the elasticity of the spring 35 is weakened. The downward pressing force of the transport drum 20 can be adjusted weakly.

Further, the elasticity of the spring 35 opens and closes the passage gap under the transport drum 20, so that the culm can be taken in well regardless of the small amount or large amount.
Further, the spring 35 is simple because it can be used as a single spring. Also, because it is a compression spring, it has good durability. (Allowable stress is higher than tensile spring)
A regulation collar 53 is provided between the hollow pipe 50 for connection and the stay 38 of the compression spring 35.
Therefore, a simple stopper configuration can be obtained in which the lowest position of the transport drum 20 can be easily regulated by simply inserting the regulation collar 53 into the adjustment rod 37.
In this case, the cushioning material 54 is provided at the end of the regulation collar 53.
Therefore, by simply sandwiching the cushioning material 54 in the regulation collar 53, the collision force when the transport drum 20 descends can be alleviated, and the generation of abnormal noise can be prevented.

Further, the tension spring 35 is arranged between the transport chain 23 and the inner surface of the side plate 18 of the elevator case 17.
Therefore, since the spring 35 is provided near the elevator side plate 18, it is unlikely to interfere with the transported object.
Further, the spring 35 and its stay 38 can be firmly held close to the side plate 18, and the durability is good.
FIG. 8 shows another embodiment of the vertical swing configuration of the transport drum 20, and the rotation axis of the left and right inner drum support arms 26 inside the elevator case 17 is a bearing 29 having an internal hub (not shown). It is composed of a rotating fulcrum shaft 25 attached via the shaft.
Therefore, since the bearing 29 is directly attached to the inner drum support arm 26, the parts are integrated and can be configured at low cost.

Further, since the bearing 29 is provided with the internal hub, the support rigidity of the rotating fulcrum shaft 25 can be improved.
The pair of left and right inner drum support arms 26 are connected to the rear protruding portion 26A behind the bearing 29, which is a rotation fulcrum, by a connecting rod 46 formed of longitudinal members in the left-right direction.
Therefore, although it is only the inner drum support arm 26, it has a quadrangular frame shape due to the transport drum 20 and the connecting rod 46, and has a strong configuration.
In this case, the connecting rod 46 is divided at the left and right central portions of the elevator 15, flange portions 47 are provided at each divided end portion, and the flange portions 47 are brought into contact with each other and fastened and fixed by bolts 48.
Since the left and right inner drum support arms 26 and the connecting rod 46 are split type, the assembling property is good.
The arm COMP is the same on the left and right, or symmetrical, so productivity is good.

The left and right inner drum support arms 26 are connected by a connecting rod 46 divided into left and right, and a tension spring 35 is attached to the connecting rod 46 on either the left or right side.
Therefore, the spring 35 opens and closes the passage gap under the transport drum 20, and the culm can be taken in well regardless of the small amount or large amount.
The spring 35 is simple because it is provided on either the left or right side.
Further, the spring 35 is provided outside the transport chain 23 on either the left or right side and between the chain lines of the upper and lower transport chains 23.
Therefore, since the spring 35 is arranged between the upper and lower transport chains 23 near the inner surface of the side plate 18 of the elevator case 17, it does not interfere with the transport passage and the presence of the spring 35 does not cause culm stagnation.

The front end of the adjusting rod 37 is attached to the rear end of the tension spring 35, and the rear end of the adjusting rod 37 is screwed into a stay 38 provided inside the side plate 18 of the elevator case 17 so as to be movable back and forth.
Therefore, the stay 38 of the adjusting rod 37 may be short and can be firmly fixed.
A transport drum 20 is specified with respect to the bottom plate of the elevator case 17 in the rotation movement path of the rear side protrusion (rear extension portion) 25A extending rearward from the rotation fulcrum of the pair of left and right inner drum support arms 26. A stopper 45 for positioning at a height position is provided.
Since the lower limit position of the transport drum 20 can be easily determined, a transport passage can be secured.
Maintenance can be easily replaced from the hole (not shown) above the elevator case 17.

FIG. 9 shows another embodiment of the vertical swing configuration of the transport drum 20, and the rotation fulcrum shaft 25, which is the rotation axis of the left and right inner drum support arms 26 inside the elevator case 17, is supported by the bearing 29. The bearings 29 are fixed to the left and right inner drum support arms 26, and the left and right bearings 29 are penetrated and supported in the left-right direction by the longitudinal axis 60 in the left-right direction.
Therefore, the left and right arms can be easily rotated by one longitudinal shaft 60. The "centering" of the axial centers of the left and right inner drum support arms 26 becomes easy, and the operation becomes smooth.
A rotating fulcrum plate 43 that can be moved back and forth is attached to both left and right ends of a longitudinal shaft 60 that penetrates the elevator case 17, and a push adjuster 44 is attached to the end of the rotating fulcrum plate 43.

Therefore, by moving the push adjuster 44 back and forth (mainly forward movement), the longitudinal shaft 60 is moved back and forth via the rotation fulcrum plate 43, which facilitates tension adjustment (tension adjustment) of the transport chain 23. As a result, the amount of tension on the left and right can be confirmed (visually) at the position of the push adjuster 44, and the position of the left and right push adjuster 44 becomes constant.
In addition, the longitudinal shaft 60 is prevented from rotating, and positioning is possible, rattling is eliminated, and durability is improved.
Further, the rotation fulcrum plate 43 is welded and fixed to either the left or right end of the longitudinal shaft 60, and the longitudinal shaft 60 is inserted and fitted into the hole of the rotation fulcrum plate 43 on the other end side.
Therefore, the longitudinal shaft 60, which serves as a rotation fulcrum, can be easily fixed only by the insertion work, so that the assemblability and maintainability are improved.

A regulation collar 53 is provided on the longitudinal axis 60 between the left and right rotation fulcrum plates 43.
Therefore, the inner drum support arm 26 can be positioned left and right reliably while being inexpensive because it can be configured with a pullable longitudinal shaft 60.
The hook 36 is fixed to the bearing 29, and the tension spring 35 is provided near the side plate 18 of the elevator case 17.
Therefore, the bearing 29 can be used, and a smooth downward urging force (returning force) can be applied to the inner drum support arm 26.
When the transport drum 20 swings up and down, a left and right inner drum support arm 26 that can swing inside the elevator case 17 is provided, and the inner drum support arm 26 is inserted from the outside of the elevator case 17 to form the inner drum support arm 26. The rotation fulcrum shaft 25 is rotatably supported by each rotation fulcrum plate 43.

Therefore, the configuration is simple with only the left and right inner drum support arms 26 and the fulcrum shaft. The arm can be securely fixed inside the side plate and the operation is stable.
Further, inner drum support arms 26 having bearings 29 inside the elevator case 17 are provided on the left and right respectively, and the inner drum support arm 26 is inserted from the outside of the elevator case 17, and the rotation fulcrum shaft 25 of the inner drum support arm 26 is inserted. Is rotatably supported by each rotation fulcrum plate 43, and a hook fixed to the left and right bearings 29 and a stay connecting the left and right side plates 18 of the elevator 15 are connected by a spring 35.
Therefore, since the springs 35 are provided on the left and right, the returning force of the transport drum 20 is stable. Since the side plates 18 are connected, the rigidity of the elevator case 17 is also improved, and the spring stay can be simple as a single item.

1 ... Aircraft frame, 2 ... Traveling device, 3 ... Grain removal device, 4 ... Cutting device, 5 ... Glen tank, 6 ... Control unit, 10 ... Weeding device, 11 ... Scraping reel, 12 ... Cutting blade, 13 ... Auger, 14 ... table, 15 ... transport elevator, 16 ... elevator drive shaft, 17 ... elevator case, 17A ... ceiling, 18 ... fulcrum, 20 ... transport drum, 21 ... teeth, 23 ... transport chain, 24 ... Carrier, 25 ... Rotating fulcrum shaft, 26 ... Inner drum support arm, 27 ... Outer arm, 28 ... Bolt, 29 ... Bearing, 30 ... Main body, 31 ... Stepped plate, 35 ... Spring, 36 ... Hook, 37 ... Adjusting rod, 38 ... Stay, 40 ... Cutting blade drive chain, 43 ... Rotating fulcrum plate, 44 ... Pushing adjuster, 45 ... Stopper, 46 ... Connecting rod, 47 ... Flange, 48 ... Bolt, 50 ... Hollow pipe , 51 ... fulcrum plate with shaft, 53 ... regulation collar, 54 ... cushioning material, 60 ... longitudinal shaft.

Claims (5)

In a combine in which the table (14) of the cutting device (4) provided in front of the traveling device (2) is connected to the grain removal device (3) via the transfer elevator (15), the elevator at the base of the transfer elevator (15). The drive rotation of the engine is input to the drive shaft (16), and a pair of left and right drive gears (19) fixed to the elevator drive shaft (16) in the elevator case (17) of the transport elevator (15) and passive. An endless transport chain (23) provided with a plurality of transport bodies (24) is hung with a rotating transport drum (20) at a predetermined interval, and the transport drum (20) is an elevator case (17). The inner drum support arm (26) in the elevator case (17) and the outer arm (27) on the outer side of the elevator side plate (18) are configured so that the elevator side plate (18) is an inner drum. The inner drum support arm (26) and the outer arm (27) are connected to the outer arm (27) by connecting them with bolts (28) while being positioned between the support arm (26) and the outer arm (27). A combine having a structure in which a bearing (29) of a rotation fulcrum shaft (25) that rotatably supports is provided. In the invention according to claim 1, the pair of left and right outer arms (27) that rotate the transport drum (20) up and down are provided with springs (35) that urge the transport drum (20) to be pressed downward, respectively. The spring (35) is provided so that one end of the spring (35) is locked to a hook (36) provided at a predetermined position of each outer arm (27), and the other end of the spring (35) is of an elevator side plate (18). A combine that locks an adjustment rod (37) provided on the outer surface side so that it can be moved back and forth. In the invention according to claim 2, the spring (35) and the adjusting rod (37) are formed long toward the rear, and the left spring (35) and the adjusting rod (37) are outward of the left elevator side plate (18). A combine that is arranged inside the orbital area of the cutting blade drive chain (40) arranged in. In the invention according to claim 2 or 3, a rotating fulcrum plate (43) is mounted between the outer arm (27) and the elevator side plate (18) so as to be movable back and forth with respect to the elevator side plate (18). A combine harvester to which a push adjuster 44 for moving the rotary fulcrum plate (43) back and forth is attached to the end of the rotary fulcrum plate (43). In the invention according to claim 2 or 3, or 4, the transport drum (20) is attached to the bottom plate of the elevator case (17) in the moving path of the inner drum support arm (26) or the outer arm (27). A combine provided with a stopper (45) that is positioned at a predetermined height position.

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