JP4157779B2 - Combine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a combine that performs oscillating selection after threshing cereals harvested by a reaping device.
[0002]
[Prior art]
Conventionally, for example, after threshing cereals harvested by a reaping device provided at the front part of an ordinary combine (also referred to as “general purpose combine”), the mixture of threshing cocoons, straws, etc. Some sort by a sorting device. Such a sorting apparatus applies the sorting air blown by the two fans, the red pepper and the second fan, to the mixture to be leaked while letting the mixture supplied by the oscillating feed pan leak to the chaff sheave. Thus, the rocking sorting is performed using the weight difference between the ridges and the ridges and the resistance against the sorting wind. An example of such a combine is described in Patent Document 1 below.
[0003]
[Patent Document 1]
JP 2002-238336 A
[0004]
[Problems to be solved by the invention]
However, in the above-described conventional combine, when the mixture supplied by the feed pan is large, even if the selection air is blown only with the two fans, Karatsu and the second fan, for the mixture leaking into the chaff sheave, There was a problem that it was not possible to select sufficiently because the air flow rate sufficient to separate the soot and soot in the mixture could not be obtained.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is configured as follows.
[0006]
In the sorting device (19), a pre-fan (86) is provided in front of the tang (27) for blowing the sorting wind, and the first conveyor (28) and the second conveyor ( 31) In a position between In the combine provided with the second fan (85), a feed pan (90) is formed in the front portion of the sorting device (19), and the rear portion of the feed pan (90) is arranged in order from the front side. The three-stage chaff sheave of the first chaff sheave (91), the second chaff sheave (92), and the third chaff sheave (93) is formed with a step so as to be positioned lower toward the rear chaff sheave. ) In the upper and lower two stages for supplying the coarsely-sorted mixture by the first chaff sheave (91), the second chaff sheave (92), and the third chaff sheave (93) to the Glen sheave (94). of A Glen pan (88, 89) is provided, and the two-stage Glen pan (88, 89) is provided below the first chaff sheave (91), and its front end is an opening (86a) of the duct (186) of the prefan (86). Extending to the vicinity, the rear end is located in the vicinity of the rear end of the first chaff sheave (91), and the tang (27) is arranged below the two-stage gren pan (88, 89), and the second chaff sheave Glen sieve (94) is arranged below (92), and the second fan (85) is placed at a position between the first conveyor (28) and the second conveyor (31) below the grain sieve (94). The sorting air that is arranged and blown by the pre-fan (86) is sent into the sorting device (19) from the opening (86a) of the duct (186) provided almost directly above the tang (27). And the Kara (27) A flap that complements the air flow rate of the fan (85) and forms a wind direction piece that can be turned up and down in the ventilation path of the selected air between the prefan (86) and the opening (86a) of the duct (186). 87), and the route (200) of the selected air blown by the prefan (86) is passed between the upper side of the flap (87) and the upper duct plate (186a) constituting the duct (186). Divide into two layers, a path (201) to be blown, and a path (202) to ventilate between the lower side of the flap (87) and the lower duct plate (186b) of the duct (186), and the inclination of the flap (87) By changing and adjusting the corners, the opening area is changed up and down, and the amount of air blown and the direction of air blowing from the prefan (86) are changed.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings for understanding of the present invention. In addition, the following embodiment is an example which actualized this invention, Comprising: It is not the thing of the character which limits the technical scope of this invention.
[0008]
1 is a side view of an ordinary combine that is an example of a combine according to an embodiment of the present invention, FIG. 2 is a plan view of the ordinary combine of FIG. 1, and FIG. 3 is a side view of a threshing device 18 and a sorting device 19. FIG. 4 is an enlarged side view of the sorting device 19.
[0009]
5 is a perspective view showing a state where the sieve line 94a is attached, FIG. 6 is a view showing a state where the sieve line 94a is expanded and contracted, and FIG. 7 is a perspective view showing a state where two types of sieve lines are attached. FIG. 8 is a perspective view of an attachment portion for two types of sieve lines, FIG. 9 is a side view of the attachment portion for two types of sieve lines, and FIG. 10 is a side view showing the front portion of the chaff sheave.
[0010]
FIG. 11 is an enlarged side view when the sorting device 19 is provided with three fans, FIG. 12 is an enlarged side view when a support rod 300 is provided on the lower surface of the swinging body 50 of the sorting device 19, and FIG. FIG. 14 is an enlarged side view of the sorting device 19, and FIG. 15 is a perspective view of the swinging main body 50.
[0011]
Here, first, an ordinary combine (also referred to as “general combine”) as an example of a combine according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. Of course, another example of the combine according to the embodiment of the present invention may be a self-removing combine.
[0012]
In the combine, the body frame 13 is disposed on the crawler type traveling device 1, and the housing 33 that houses the threshing / sorting unit including the threshing device 18 and the sorting device 19 is disposed on the body frame 13. An engine room 49 and the like for housing the engine 48 and the like are disposed at the rear portion of 33. A glen tank 30 is disposed on the casing 33, and a discharge auger 40 for discharging grains stored in the glen tank 30 is provided from the rear of the machine body to the front.
[0013]
The harvesting device 8 is disposed in front of the housing 33, and the rear end of the harvesting device 8 and the front entrance of the threshing device 18 provided at the front upper portion of the housing 33 are communicated by the transport device 9. The conveyance device 9 is disposed at the center of the left and right sides of the machine body. Further, a cabin 17 containing a driver's seat 15 and a steering handle 16 and the like is disposed above the transport device 9, and the cabin 17 is disposed at an upper position in front of the center of the left and right sides of the fuselage (commonly referred to as a center cabin). (See Fig. 2.) The field of view is good and the operator sitting in the driver's seat 15 can easily confirm the cutting work and can get on and off from both the left and right sides.
[0014]
The reaping device 8 includes a transverse auger 3 that is horizontally supported and supported in the platform 2 connected to a front portion of a feeder housing 10 that is a component of the conveying device 9, and a front lower portion of the lateral auger 3. The cutting blade 4 and the scraping reel 5 provided above the platform 2 are configured. The lateral feed auger 3 has a rotation axis in a direction orthogonal to the traveling direction, and a spiral (screw) is fed so that the harvested cereal is fed to the feeder housing 10 connected to the substantially rear left and right of the platform 2 by the rotation. ) Is formed. Further, weed boards 7 and 7 are provided at the front ends of the left and right sides of the platform 2, and the rear portion of the support arm 6 that supports the reel 5 is pivotally supported at the left and right ends of the rear portion of the platform 2. 6 is provided with a power transmission mechanism including a belt 5 and a pulley for driving the reel 5 to rotate. The reel 5 is moved up and down by a hydraulic cylinder 29 as an actuator interposed between the support arm 6 and the platform 2.
[0015]
The conveying device 9 includes a feeder housing 10 and an endless conveyor 11 disposed in the feeder housing 10. The front end of the feeder housing 10 communicates with the rear portion of the platform 2 in accordance with the feed end position of the screw of the lateral feed auger 3. In addition, the rear end of the feeder housing 10 is communicated with an input port 12 to the threshing device 18, and a first rotor 21 having a rotation axis substantially perpendicular to the traveling direction is provided behind the input port 12. The cereals are forcibly conveyed to the first rotor 21 of the threshing device 18 by the conveyor 11.
[0016]
The rear portion of the feeder housing 10 is inserted into the front portion of the housing 33 that houses the threshing / sorting portion, and is supported by the housing 33 so as to be rotatable up and down. The cutting device 8 can be moved up and down with a hydraulic cylinder 32 interposed therebetween.
[0017]
The threshing / sorting unit is disposed inside the housing 33, reaped by the reaping device 8, and threshed by the threshing machine 18 that has been transported by the transport device 9, and the threshed grains by the threshing device 18 And a sorting device 19 that sorts out the.
[0018]
<Detailed explanation of threshing device 18>
Next, the threshing apparatus 18 will be described with reference to FIG. The threshing device 18 includes a first rotor 21, a second rotor 22, receiving nets 23 and 24, and the like, and is housed in the upper portion of the housing 33. The first rotor 21 and the second rotor 22 are configured in substantially the same shape, and screws 21a and 22a having a plurality of teeth not shown are provided on the outer periphery of the cylinder, and the axis is horizontally horizontal. It is directed in the direction and arranged in parallel in the front-rear direction. Receiving nets 23 and 24 are arranged below the first rotor 21 and the second rotor 22, respectively, and upper covers 35 and 36 are arranged above the first rotor 21 and the second rotor 22, respectively. A rotor chamber and a rear rotor chamber are configured. In addition, the rear portion of the right side of the receiving net 23 below the first rotor 21 is formed with a gentle arc-shaped slope in front and rear and rear height, and extends toward the tangential direction of the upper and outer circumferences of the second rotor 22 to communicate with each other. 23 a is formed, and the rear end of the communication portion 23 a extends to the vicinity of the front end portion of the rotation locus of the second rotor 22. Further, a discharge port 24 a is opened at the left rear portion of the receiving net 24.
[0019]
Further, dust feeding valves 59, 59,... Are provided on the inner peripheral surface of the upper part of the upper cover 35, 36, which is formed horizontally, at appropriate intervals in the left-right width direction. It is pivotally supported about a pivot point in the vertical direction, and the culm is moved into the first rotor 21 and the second rotor 22 by rotating the dust feed valves 59, 59. The time for moving can be adjusted according to the varieties of cereals and the state of cereals, and the versatility of the threshing device 18 is enhanced.
[0020]
The screw 21a of the first rotor 21 is formed between the left end of the first rotor 21 and the left side of the communication portion 23a. The radius of the first rotor 21 is formed on the outer peripheral surface of the first rotor 21 in front of the communication portion 23a. Plate-shaped feed blades 21b, 21b,... Projecting in the direction are formed. Similarly, the screw 22a of the second rotor 22 is formed between the right end of the second rotor 22 and the right side of the discharge port 24a, and the outer periphery of the second rotor 22 in front of the discharge port 24a on the left side of the screw 22a terminal portion. Feed blades 22b, 22b,... Are formed on the surface, and the scouring (removal) after threshing is fed by the feed blades 22b, 22b, and discharged from the discharge port 24a.
[0021]
In such a configuration, when the culm is conveyed from the feeder housing 10 to the insertion port 12, the cereal is shed while being conveyed rightward by the rotation of the first rotor 21. And when it reaches the right end of the first rotor 21, it is sent to the threshing space of the second rotor 22 from the communicating portion 23 a formed in a gently inclined shape, and threshed while being conveyed to the left by the rotation of the second rotor 22, When sent to the left end of the rotor 22, it falls from the discharge port 24a.
[0022]
A guide plate 60 extends from the lower portion of the discharge port 24a to the rear and lower side, and a discharge beater 61 that forcibly discharges waste to the rear is positioned between the upper rear portion of the guide plate 60 and the bottom of the engine room 49. Is provided. The left end of the waste beater 61 coincides with the left end of the discharge port 24a, the right end of the waste beater 61 extends further to the right from the right end of the discharge port 24a, and the waste discharged from the discharge port 24a. Is conveyed to the left and right widely. Behind the waste beater 61, a chopper-type spreader 62 is laid across the entire width of the rear end of the machine body, and the waste discharged from the discharge port 24a to the spreader 61 is transferred to the spreader 62. It is cut by a plurality of hook-shaped blades of the spreader 62 and discharged from the rear end of the machine body to the field.
[0023]
That is, as indicated by a thick arrow in FIG. 2, the cereals harvested by the reaping device 8 are fed from the feeder housing 10 to the first rotor 21 (moved from the right to the left toward the paper surface of FIG. 2). It moves in the order of the rotor 22 (moved from the left to the right as viewed in FIG. 2), and is finally discharged from the spreader 62.
[0024]
<Detailed Description of Sorting Device 19>
On the other hand, in the threshing / sorting section, a sorting device 19 is disposed below the threshing device 18 (see FIG. 4). The sorting device 19 includes a swing body 50, a tang 27 that generates sorting air, a first conveyor 28 that conveys the sorted first object in the left-right direction, a second conveyor 31 that conveys the second thing, and the like. The threshing dropped from the threshing device 18 can be selected. A pivot member 74 is provided at the front lower portion of the swing body 50, and one end of a swing link 71 is swingably connected to the pivot member 74, and the other end of the swing body 71 is swingable. It is supported by. On the other hand, one end of a swing drive link 81 is pivotally supported at the rear lower part of the swing body 50 and the other end is pivotally supported by an eccentric shaft 185. Since the swing body 50 is configured in this way, the entire swing body 50 is configured to swing by transmitting power from the engine to the eccentric shaft 185.
[0025]
Further, a feed pan 90 is formed at the front portion of the sorting device 19, and a three-stage chaff sheave of a first chaff sheave 91, a second chaff sheave 92, and a third chaff sheave 93 in order from the front side below the rear portion of the feed pan 90. And a step is provided so that the rear chaff sheave is positioned below the first sheave. The feed pan 90 conveys a mixture of grains, dust, and the like after threshing (specifically, straw and straw) by swinging the swinging main body 50 by forming the plate body into a wave shape. It is easy. In addition, the first chaff sheave 91 to the third chaff sheave 93 are coarsely sorted by letting the soot leak out of the mixture supplied by the feed pan, and constitute a first sorting unit. Further, below the second chaff sheave 92, there is a reticulated grain sieve 94 which is a second sorting section for finely sorting the mixture after the rough sorting by the first and second chaff sheaves. Is provided. Sieve lines 91 a, 92 a, 93 a are respectively provided on the rear end side of the first chaff sheave 91 to the third chaff sheave 93, and the sieve line 94 a may also be provided on the rear end side of the grain sheave 94. These sieving lines are used to vigorously release the mixture on the chaff sheave (gren sieve) moving backward while being swung. In this way, it is easy to apply the mixture to the sorting air by discharging the mixture backward through the sieve line.
[0026]
In addition, a front conveyor 28 and a second conveyor 31 formed in a screw shape in the left-right direction are laterally arranged at the front and rear intermediate positions below the sorting device 19, and the first conveyor 28 leaks from the grain sieve 94. The first thing collected is finally transported to the grain tank 30 through the cereal conveyor 41 (see FIG. 1) connected to the right side of the first conveyor 28. On the other hand, a reduction conveyor (not shown) is connected to the right end of the second conveyor 31, and the second product accumulated by the second conveyor 31 is sorted in front of the threshing device 18 or sorted through the reduction conveyor (not shown). The threshing process or the sorting process is performed again by re-introducing to the front part of the apparatus 19.
[0027]
Further, a red pepper 27 is disposed below the rear end of the feed pan 90, and between the first conveyor 28 and the second conveyor 31 below the second chaff sheave 92 (below the rear end of the Glen sheave 94). A second fan 85 which is a pressure feeding fan is provided. The above-mentioned Karatsumi 27 mainly applies a sorting wind to a mixture of straws and straws falling from the feed pan 90 to the first chaff sheave 91 and a mixture of straws and straws falling from the second chaff sheave 92 to the Glen Sheave 94. It is. The second fan 85 increases the sorting wind at the rear of the sorting device 19 where the wind of the sorting wind by the tang 27 is weakened, and falls from the second chaff sheave 92 to the third chaff sheave 93, or moves from the grain sheave 94 to the third chaff sheave 93. A sort of wind is applied to a mixture of candy, candy and the like.
[0028]
The sorting wind by the Kara 27 and the second fan 85 flows through a path as shown in FIG. First, the sorting air from the tang 27 is sent into the swinging main body 50 by the opening 27a provided in the upper part of the housing of the tang 27 and the opening 27b on the rear end side of the second chaff sheave 92 substantially parallel to the grain sheave 94. . Therefore, the sorting wind that has exited from the opening 27a is a path 75 that is between the feed pan 90 and the first chaff sheave 91, a path 76 that is between the first chaff sheave 91 and the second chaff sheave 92, and a second chaff sheave 92. And a passage 77 that is between Glensieve 94. On the other hand, the sorting air that has exited from the opening 27 b flows in a path 78 that flows substantially parallel to the upper surface of the grain sheave 94 and reaches the rear end portion of the second chaff sheave 92. Further, the sorting air by the second fan 85 is sent into the swinging main body 50 through an opening 85 a provided in the upper part of the housing of the second fan 85. Therefore, the sorting air coming out of the opening 85a flows substantially parallel to the upper surface of the third chaff sheave 93. By providing a three-stage chaff sheave in the sorting device 19 in this way, the number of times the mixture is sorted by the sorting wind increases even in a normal combine, so the sorting performance is further improved compared to the case of a two-stage chaff sheave. To do. Furthermore, in this three-stage chaff sheave configuration, steps are provided between the chaff sheaves and the sorting air is blown to each step portion, so that the soot and soot in the mixture floating near the step can be easily separated. It becomes possible to do.
[0029]
Next, a plurality of sieve lines 94a for releasing the mixture on the grain sieve into the air on the rear side are provided in parallel to the outer peripheral surface of the cylindrical tube 95 fixed at the rear end as shown in FIG. The sieving line 94a is attached to the upper surface of the grain sieve 94 at a predetermined angle with respect to the upper side. (An angle α in the case of the sieve line 94a shown in FIG. 5) Of course, the attachment angle of the sieve line 94a may be derived from an experiment or the like during the development of a combine, and for each chaff sheave. It may be determined. Further, the sieving line 94a may be configured to be expandable and contractable stepwise or arbitrarily steplessly as shown in FIG. The sieve line 94a has, for example, a four-stage configuration as shown in FIG. 6, and includes four stages of a first stage 65, a second stage 66, a third stage 67, and a fourth stage part 68 from the tip side. The expansion and contraction of the sieving wire 94a is performed by connecting one end of an elastic wire member such as a wire 97 to the inside of the tip of the first stage 65, and providing the other end of the wire 97 on the winding shaft 96 provided in the cylindrical tube 95. By rotating the winding shaft 96 and feeding or winding the wire 97, the sieve wire 94a can be expanded and contracted. However, the structure for guiding the wire 97 between the winding shaft 96 and the fourth step portion 68 is not shown. For example, FIG. 6A shows a state in which the winding shaft 96 feeds the wire 97 to extend the sieve wire 94a, while FIG. 6B shows the winding shaft 96 winding the wire 97. This shows a state in which the sieve line 94a is contracted. Furthermore, a sphere 64 may be provided at the tip of the first stage 65. Of course, the tip of the first stage is not limited to the sphere 64, and may be replaceable. By configuring the sieve line 94a in this way, when the combine is oscillated and sorted, the sieve line is adjusted to an appropriate length and the shape of the tip portion is determined according to the type of grain and the amount of cutting. Is possible. Of course, the sieving lines 91a to 93a provided on the rear end side of the first chaff sheave 91 to the third chaff sheave 93 can be easily expanded and contracted by adopting the same configuration as described above, and the same effect. Play.
[0030]
In addition, as shown in FIG. Constitution In the example, two rows) may be provided, and sieve lines 194a rows having different attachment angles may be provided. In this case, a detailed perspective view seen from the direction of arrow A in FIG. 7 is as shown in FIG. For example, the bases of the sieve lines 94a, 94a,... In one row are erected on the outer peripheral surface of the cylindrical tube 95, and the sieve lines 194a, 194a, etc. in the other row are concentric inside the cylindrical tube 95. Is erected on a concentric cylindrical tube 195. In this case, in a place where the sieve line 194a is provided, a circumferential cut is made in the outer peripheral surface of the cylindrical tube 95 so that the sieve line 194a can swing within the cut. Further, one end of each of the arms 55 and 56 is fixed on the end side of the cylindrical tube 95 and the concentric cylindrical tube 195, and one end of the link 53 and 54 is pivotally supported on the other end of the arms 55 and 56. . Further, the other ends of the links 53 and 54 are pivotally supported on the side surfaces of the gears 51 and 52. The gears 51 and 52 are engaged with each other, and one of them is driven to rotate in opposite directions. . In such a configuration, either one of the gears 51 and 52 transmits power from the engine and rotates the gear in the direction of the arrow, so that the arms 55 and 56 swing up and down. The sieve line 94a and the sieve line 194a connected to 56 also swing back and forth. Of course, in this case, the cylindrical tube 95 and the concentric cylindrical tube 195 may be pivotally supported with respect to the grain sieve 94 or may be pivotally supported with the swinging main body 50. By alternately swinging the two types of sieve lines 94a and 194a in this way, the mixture on the grain sieve can be vigorously sprinkled and discharged to the step portion on the rear side. The sorting performance of sorting the mixture by the sorting wind at the section is improved, and the mixture entangled with the sieve lines 94a and 194a can be shaken off. The first chaff sheave 91 to the third chaff sheave 93 can have the same effects by providing the same configuration as the sieve lines 94a and 194a.
[0031]
Further, as already described above, the sieve lines 91a to 94a and 191a to 194a may be configured to be extendable and retractable, for example, in a four-stage configuration. In this case, a winding shaft 96 may be provided inside the concentric cylindrical tube 195, and the sieve wire 94a and the sieve wire 194a may be expanded and contracted using the winding shaft 96 as a common winding shaft. For example, in the case of the sieve line 94 a, one end of the wire is connected to the first stage 65 and the other end side is connected to the winding shaft 96. Further, in the concentric cylindrical tube 195, an opening that can penetrate the wire 97 is opened on the line between the notches 152 and 154 (arrow direction side). Further, in the case of the sieve line 194 a, one end of the wire is connected to the first stage 165 and the other end side is connected to the winding shaft 96. Further, the sieve line 194a is exposed to the outside through an opening between the notch 151 and the notch 153 (in the direction of the arrow) cut into the outer peripheral surface of the cylindrical tube 95 according to the swing range, Since it is provided directly on the outer peripheral surface of the concentric cylindrical tube 195, it is possible to provide an opening for allowing the wire 197 to pass only by passing through the outer peripheral surface of the concentric cylindrical tube 195 at the bottom of the fourth stage 168 of the sieving line 194a. It becomes possible. Therefore, by rotating the winding shaft 96, the sieve lines 92a and 192a can be expanded and contracted.
[0032]
Next, in the first chaff sheave 91 to the third chaff sheave 93, at least one of the chaff fins (plate bodies) constituting the chaff sheave may be shifted downward or longer than the other plate bodies. . For example, when the above-described configuration is adopted for the first chaff sheave 91, it is as shown in FIG. In the example of FIG. 10, by making the second chaff fin 291 longer than the other chaff fins in the depth direction from the front side of the first chaff sheave 91, the second chaff fin is the lower end of the other chaff fin. The state protrudes downward from the position. Therefore, a part of the selected wind passing through the path 76 is changed in the wind direction by the second chaff fin 291 and directly flows into the gap (path 176) between the first chaff fin and the second chaff fin 291. It becomes a state. Therefore, a specific part (the book in the first chaff sheave 91) Constitution In the example, the air volume of the second chaff fin) can be increased to improve the sorting performance of the mixture. In other words, by extending the chaff fin at a position where it is likely to be clogged or where it is likely to stay to the fan side (wind inflow side), the air volume at that chaff fin position is increased, so that grains, dust, etc. are dispersed by the wind. Can be improved.
[0033]
In the above description, the case where two fans (Tang Dynasty 27 and Second Fan 85) are provided in the normal combine combiner 19 has been described. Below, the case where the pre-fan 86 is further provided in the said normal combine and the fan which ventilates a selection wind is comprised in 3 steps | paragraphs is demonstrated using FIG. As shown in FIG. 11, the pre-fan 86 is provided below the feed pan 90 on the front side of the carp 27, and is disposed in a vacant space in front of the carp 27 to effectively use the space. The large diameter is approximately the same as that of the tang 27. (Of course, the diameters may be different.) Accordingly, the prefan 86 is arranged on the foremost side of the swinging main body 50, and the sorting wind sent out by the prefan 86 is the Kara 27 Since it is sent into the sorting device 19 through an opening 86a provided almost immediately above, it is possible to compensate for the amount of air that cannot be obtained with the Kara 27 and the second fan 85 alone, and a large amount of the mixture flows into the sorting device 19. Even so, it is possible to respond without impairing the sorting performance.
[0034]
Further, a flap 87 serving as a wind direction piece capable of rotating up and down can be provided in the ventilation path of the selected wind between the pre-fan 86 and the opening 86a. In this way, it becomes possible to divide the sorting air (path 200) blown by the pre-fan 86 into two layers of the path 201 that passes the upper side of the flap 87 and the path 202 that passes the lower side of the flap 87. By changing the opening area and changing the inclination angle, it is possible to easily change the amount of air blown from the pre-fan 86 and the air blowing direction. The front and rear ends (the rear end in the present embodiment) of the flap 87 are pivotally supported by a duct 186 constituting an air passage, and a plurality of fixing holes are formed in a circular arc shape at predetermined intervals on the other end with the pivotal support as a center. The other end of the flap 87 can be fixed to the fixing hole with a pin or the like at an arbitrary angular position. However, it can be fixed with a long hole or the like, or can be configured to be connected to a wire or the like for remote operation, and is not limited.
[0035]
As shown in FIG. 11, the outlet of the duct 186 constituting the air path of the prefan 86 is located below the first rotor 21 and the second rotor 22 and below the rear end of the feed pan 90. It is located. More specifically, the rear end of the upper duct plate 186a is positioned forward of the rear end of the feed pan 90, and the rear end of the lower duct plate 186b is positioned rearward of the rear end of the feed pan 90. And it arrange | positions so that the front end of the 1st chaff sheave 91 may be located on the back extension of the duct 186. That is, the front end of the first chaff sheave 91 is positioned below the first rotor 21 and the second rotor 22. The rear portion of the second rotor 22 and the front portion of the second chaff sheave 92 are disposed above the rear end of the upper duct 127a of the duct 127 of the tang 27.
[0036]
By comprising in this way, the grain etc. after threshing by the 1st rotor 21 and falling from the receiving net 23 are sorted by the sorting wind from the pre-fan 86, and this pre-fan 86 is substantially the same as the Kara 27. When configured in the diameter, the air volume is large and sufficient sorting can be obtained. And since the selection wind from the prefan 86 can be applied to the lowermost part between the first rotor 21 and the second rotor 22, the occurrence of clogging and the like can be prevented and diffused. The first chaff sheave 91, the second chaff sheave 92, and the third chaff sheave 93 located at the rear can be reliably sent and sorted, and the falling grains can be dispersed in the paths 203 and 204 described later. Sorting performance can be improved.
[0037]
Further, inside the sorting device 19 behind the flap 87, Glen pans 88 and 89 are arranged in two upper and lower stages for the Glen pan for supplying the Glen sieve 94 with the mixture roughly sorted by the first chaff sheave 91 and the second chaff sheave. Two are provided. First, the Glen pan 88 (upper side) is provided below the first chaff sheave 91 and is disposed between the first chaff sheave 91 and the Glen pan 89, and the front end thereof extends to the vicinity of the opening 86a. The rear end of the first chaff sheave 91 is located near the rear end of the first chaff sheave 91. The grain pan 89 (lower stage side) is provided below the grain pan 88, and its front end is located in the vicinity of the opening 86a and substantially coincides with the rear end of the lower duct plate 186b. The rear end is provided so as to be positioned in the vicinity of the front end portion of the second chaff sheave 92. With this configuration, the sorting wind that passes through the path 201 passes between the first chaff sheave 91 and the Glen pan 88 (path 203), while the sorting wind that passes through the path 202 passes through the Glen pan 88. It is configured to ventilate between the Glenpan 89 (path 204), and the ventilation path has a two-layer structure. Then, by changing the angle of the flap 87, it becomes possible to change the amount of air sent to the route 203 and the route 204, and to adjust according to the type and amount of the crop. Therefore, the sorting wind passing through the path 201 → the path 203 can be used to sort the mixture descending from the feed pan 90 to the first chaff sheave 91, while the sorting wind passing through the path 202 → the path 204 is the first. It can be used to screen the mixture descending from the two chaff sieve 92 to the grain sieve 94.
[0038]
Next, as shown in FIG. 12, in the sorting device 19, a support rod 300 such as a square pipe is provided on the lower surface of the swinging main body 50 on which the feed pan 90, the first chaff sheave 91 to the third chaff sheave 93, the grain sheave 94 and the like are provided. May be provided. By providing the support rod 300 in this manner, the rigidity of the swing body 50 can be increased. Further, in this configuration, the support member 300 is provided with the above-described pivot support member 74, one end of the swing link 71 is swingably connected to the pivot support member 74, and the other end is pivoted to the housing 33. Further, one end of the swing drive link 81 is swingably connected to the support rod 300, and the other end is swingably connected eccentrically from the center of the eccentric shaft 185 pivotally supported by the housing 33. You may comprise as follows. As a result, the swinging main body 50 with increased rigidity can be swung efficiently, so that the sorting performance of the mixture can be improved.
[0039]
It has been conventionally known that a vortex is generated by the tongue of the casing of the pre-fan 86 and the tang 27, and this vortex narrows the ventilation path of the conditioned air generated in the pre-fan 86 and the tang 27 and There is a problem of weakening wind power. For example, as shown in FIG. 13A exemplifying the case of the pre-fan 86, the selected air generated by the pre-fan 86 flows through the path 200 between the upper duct plate 186a and the lower duct plate 186b. However, since the vortex generated in the tongue 189 that is the connecting portion between the fan case 187 and the upper duct plate 186a is concentrated on the upper duct plate 186a side, the ventilation path of the selected air that passes through the path 200 is narrowed. Therefore, as shown in FIG. 13B, by providing the tongue 189 with the eddy current spot (188) curved outward with respect to the fan case 187, the generated eddy current can be consumed by the eddy current spot 188. Thus, the vortex is prevented from flowing out to the path 200 side sandwiched by the duct 186. Therefore, by providing a vortex spot that forcibly generates a vortex on the tongue located at the outlet of the fan case, such as the pre-fan 86 and the tang 27, the vortex is prevented from flowing out to the side of the ventilation path, and the fan blows air. The selected wind is made uniform and the blown wind is not weakened.
[0040]
Further, the feed pan 90 provided in the swinging main body 50 in the sorting device 19 described above may be divided into two feed pans 90a and 90b as shown in FIG. Further, as shown in FIG. 14, the first chaff sheave 91, the second chaff sheave 92, and the Glen pans 88 and 89 described above are provided integrally with a frame 80 that is provided separately from the swinging main body 50. Also good. Of course, the Glen sheave 94 and the third chaff sheave 93 may be provided integrally with a frame provided separately from the swinging main body 50. Further, the feed pans 90a and 90b, the frame body 80, and the grain sieve 94 (both ends of the swing body 50 are attached to the swing body side surfaces 50a and 50b (see FIG. 15) of the swing body 50 so as to be installed horizontally. Alternatively, the frame body including the Glen sheave 94) and the third chaff sheave 93 (or the frame body including the third chaff sheave 93) may be detachable from the swing body 50 (the swing body side surfaces 50a and 50b). good. For example, each part is configured to be attachable to and detachable from the swinging main body side surfaces 50a and 50b by fixing the respective parts to the swinging main body side surfaces 50a and 50b with bolts or the like. With this configuration, it is desirable that the feed pans 90a and 90b, the frame body 80, the third chaff sheave 93, the grain sheave 94, and the like be detachable from the swinging main body 50 with bolts or the like. And easy maintenance. Further, as shown in FIG. 15, the swinging main body side surfaces 50a and 50b constituting the side surface of the swinging main body 50 are coupled to each other by frames 251 and 250, etc., and already on the lower portions of the swinging main body side surfaces 50a and 50b. By reinforcing the support rod 300 as described above, the rigidity of the swinging main body 50 can be increased. Further, as shown in FIG. 15, by providing a through hole (opening) on the swing body side surfaces 50a and 50b, it is possible to reduce the weight of the swing body 50 whose rigidity has been increased by the above, and the swing body. It becomes possible to improve the work efficiency of the maintenance work inside 50.
[0041]
Moreover, it comprises as a combine which provides a whirlpool spot in the tongue part of the casing of the fan which ventilates a selection wind in the said sorter. Therefore, by providing the vortex spot on the tongue of the fan casing such as a pre-fan and tang fan, the vortex flow is prevented from flowing out to the side of the ventilation path, and the selected wind blown by the fan is made uniform and the blown wind is weakened. Nothing will happen.
[0042]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.
[0043]
In the sorting device (19), a pre-fan (86) is provided in front of the tang (27) for blowing the sorting wind, and the first conveyor (28) and the second conveyor ( 31) In a position between In the combine provided with the second fan (85), a feed pan (90) is formed in the front portion of the sorting device (19), and the rear portion of the feed pan (90) is arranged in order from the front side. The three-stage chaff sheave of the first chaff sheave (91), the second chaff sheave (92), and the third chaff sheave (93) is formed with a step so as to be positioned lower toward the rear chaff sheave. ) In the upper and lower two stages for supplying the coarsely-sorted mixture by the first chaff sheave (91), the second chaff sheave (92), and the third chaff sheave (93) to the Glen sheave (94). of A Glen pan (88, 89) is provided, and the two-stage Glen pan (88, 89) is provided below the first chaff sheave (91), and its front end is an opening (86a) of the duct (186) of the prefan (86). Extending to the vicinity, the rear end is located in the vicinity of the rear end of the first chaff sheave (91), and the tang (27) is arranged below the two-stage gren pan (88, 89), and the second chaff sheave Glen sieve (94) is arranged below (92), and the second fan (85) is placed at a position between the first conveyor (28) and the second conveyor (31) below the grain sieve (94). The sorting air that is arranged and blown by the pre-fan (86) is sent into the sorting device (19) from the opening (86a) of the duct (186) provided almost directly above the tang (27). And the Kara (27) A flap that complements the air flow rate of the fan (85) and forms a wind direction piece that can be turned up and down in the ventilation path of the selected air between the prefan (86) and the opening (86a) of the duct (186). 87), and the route (200) of the selected air blown by the prefan (86) is passed between the upper side of the flap (87) and the upper duct plate (186a) constituting the duct (186). Divide into two layers, a path (201) to be blown, and a path (202) to ventilate between the lower side of the flap (87) and the lower duct plate (186b) of the duct (186), and the inclination of the flap (87) By changing and adjusting the corners, the opening area is changed up and down, and the amount and direction of air blowing from the pre-fan (86) are changed.
Since it is configured in this way, the second fan (85) can compensate for the blast volume that cannot be obtained only by the red pepper and prefan (86), and even if a large amount of the mixture flows into the sorting device. It becomes possible to cope without impairing the performance.
[0044]
Moreover, it is comprised as a combine which provides the flap (87) which is a wind direction piece in the ventilation path of the selection wind ventilated by the said prefan.
This makes it possible to divide the sorted air blown by the prefan into two layers, a path for passing the upper side of the wind direction piece and a path for passing the lower side of the wind direction piece.
Then, by changing the angle of the flap (87), it becomes possible to change the amount of air sent to the route (203) and the route (204), and to adjust according to the type and amount of the crop. It can be done.
Therefore, the sorting wind passing through path (201) → path (203) can be used to sort the mixture descending from the feed pan (90) to the first chaff sheave (91), while the path (202). → The sorting wind passing through the path (204) can be used to sort the mixture descending from the second chaff sheave (92) to the Glen sheave (94).
[0045]
The sorting air blown from the prefan is configured as a combine that blows between two stages of the Glen pans (88, 89).
In this case, since the upper surface of the two-stage Glen pan (88/89) serves as a passage for the above-described sorting air, for example, the sorting air passing through the upper surface of the upper-side Glen pan (88) falls from the feed pan to the first chaff sheave. On the other hand, the sorting air flowing through the upper surface of the lower grain pan (89) can be used to sort the mixture descending from the second chaff sheave to the Glen sheave.
[Brief description of the drawings]
FIG. 1 is a side view of an ordinary combine that is an example of a combine according to an embodiment of the present invention.
FIG. 2 is a plan view of the ordinary combine shown in FIG. 1;
3 is a side view of the threshing device 18 and the sorting device 19. FIG.
FIG. 4 is an enlarged side view of a sorting device 19;
FIG. 5 is a perspective view showing a state in which a sieve line 94a is attached.
FIGS. 6A and 6B are diagrams showing a state in which a sieve line 94a is expanded and contracted.
FIG. 7 is a perspective view showing a state where two types of sieve lines are attached.
FIG. 8 is a perspective view of an attachment portion for two types of sieve lines.
FIG. 9 is a side view of an attachment portion for two types of sieve lines.
FIG. 10 is a side view showing a front portion of a chaff sheave.
FIG. 11 is an enlarged side view when the sorting device 19 is provided with three fans.
FIG. 12 is an enlarged side view when a support rod 300 is provided on the lower surface of the swinging main body 50 of the sorting device 19;
13 is a side view of the prefan 86. FIG.
FIG. 14 is an enlarged side view of the sorting device 19;
FIG. 15 is a perspective view of the swing body 50. FIG.
[Explanation of symbols]
8 Cutting device
9 Transport device
15 Driver's seat
18 Threshing device
19 Sorting device
27 Karatsu
30 Glentank
33 housing
48 engine
51, 52 Gear
85 Second Fan
86 Prefan
88, 89 Glenpan
90 feed pan
91 First Chaff Sheave
92 2nd Chaff Sheave
93 3rd Chaff Sheave
91a, 92a, 93a Sieve line
94 Glen Sieve
94a Sieve line
95 Cylindrical tube
97, 197 wire
195 Concentric cylindrical tube
300 support rod

Claims (1)

In the sorting device (19), a pre-fan (86) is provided in front of the tang (27) for blowing the sorting wind, and the first conveyor (28) and the second conveyor ( 31) , in a combine provided with a second fan (85), a feed pan (90) is formed at the front part of the sorting device (19), and the rear part of the feed pan (90) is below the rear part. In order from the front side, the first chaff sheave (91), the second chaff sheave (92), and the third chaff sheave (93) are provided with a step so that the rear chaff sheave is positioned downward. In the inside of the sorting device (19), the mixture roughly filtered by the first chaff sheave (91), the second chaff sheave (92), and the third chaff sheave (93) is supplied to the glensheve (94). two-stage Gurenpan provided (88-89), the two-stage Gurenpan (88-89) are provided below the first chaff sieve (91), opening of the duct (186) of its front end pre-fan (86) (86a) Extending to the vicinity, the rear end is located in the vicinity of the rear end of the first chaff sheave (91), and the tang (27) is arranged below the two-stage gren pan (88, 89), and the second chaff sheave Glen sieve (94) is arranged below (92), and the second fan (85) is placed at a position between the first conveyor (28) and the second conveyor (31) below the grain sieve (94). The sorting air that is arranged and blown by the pre-fan (86) is sent into the sorting device (19) from the opening (86a) of the duct (186) provided almost directly above the tang (27). The Chinese tang (27) A flap that complements the air flow rate of the second fan (85) and serves as a wind direction piece that can be turned up and down in the ventilation path of the selected wind between the prefan (86) and the opening (86a) of the duct (186). 87), and the route (200) of the selected air blown by the prefan (86) is passed between the upper side of the flap (87) and the upper duct plate (186a) constituting the duct (186). Divide into two layers, a path (201) to be blown, and a path (202) to ventilate between the lower side of the flap (87) and the lower duct plate (186b) of the duct (186), and the inclination of the flap (87) The combine characterized in that the opening area is changed up and down by changing and adjusting the angle, and the amount and direction of air blowing from the prefan (86) are changed.

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