JP6016679B2 - Combine harvester - Google Patents

Description

  The present invention relates to a self-propelled combine baler including a harvesting device, a roll baler device, and a transport duct that defines a crop transport path from the harvesting device to the roll baler device.

  A self-propelled combine baler in which a self-propelled traveling machine main body having a traveling device, a vehicle body frame mounted on the traveling device and a driver seat supported by the vehicle body frame is provided with a mowing device and a roll baler device Has been proposed and used.

  In the following Patent Document 1, the traveling device, the body frame, the driver's seat, the reaping device, the reaping device disposed in front of the body frame, and a rear space on the body frame. There is disclosed a self-propelled combine baler that includes the roll baler device arranged, and in which the reaping device and the roll baler device are connected by a transport duct.

  Specifically, the reaping device includes a reaping case disposed along the body width direction in front of the body frame, and a reaping drive shaft supported in the reaping case in a state along the body width direction. A plurality of flare blades supported by the cutting drive shaft, wherein the plurality of flare blades generate a conveying wind for cutting the crop and conveying the harvested crop as the cutting drive shaft rotates. .

  The combine baler described in Patent Document 1 includes the conveyance duct, whereby crops that are cut by the flail blade and conveyed toward the bale chamber by the conveyance air by the flail blade are scattered around. This is useful in that it can be prevented.

  However, the combine balun described in Patent Document 1 has a problem that it is difficult to maneuver because the driver's seat is supported by the vehicle body frame while being offset from the vehicle body frame to one side in the vehicle width direction. It was.

Japanese Patent No. 4061209

  The present invention has been made in view of such prior art, and includes a traveling device, a vehicle body frame placed on the traveling device, a driver's seat supported by the vehicle body frame, a reaping device, and a roll baler device. An object of the present invention is to provide a combine combiner that is capable of improving the transport efficiency of harvested crops transported from the harvesting device to the roll baler device without impairing the harvesting efficiency and maneuverability.

In order to achieve the above object, the present invention provides a traveling device, a vehicle body frame mounted on the traveling device, and a space on the first side in the body width direction and on the front side of the installation space on the vehicle body frame. A driver's seat, a roll baler device disposed in a space behind the driver seat in the installation space, a flail type mower disposed in front of the vehicle body frame, and the mower device to the roll baler device. A cutting duct provided across the entire region of the vehicle body width direction of the body frame, and the lower part of the cutting frame is disposed below the entire region of the vehicle body width direction. A cutting case provided with a release opening that opens upward on the second side in the body width direction from the driver's seat, and a cutting case supported along the body width direction. A drive shaft preparative, a plurality of flail blades supported by the reaper drive shaft, said cutting and transverse feed mechanism housed in a case, the cutting crop conveyed by the transverse feed mechanism rearwardly in said conveying duct The transport duct has the front end opening connected to the discharge opening of the cutting case and the rear end opening communicated directly or indirectly to the bale chamber of the roll baler device. Within the installation space, the space on the second side in the body width direction from the driver's seat is along the front-rear direction of the body, and the lateral feed mechanism is cut by a flail blade located on the first side in the body width direction from the transport duct. the cutting concave opening upward in above said flail blades out of the inner case to and receive at least a portion of tossed throwing are reaper crops,且 , Transverse to the conveyance and lateral feed trough that forms the storage space of the second side body width direction is open directly or indirectly the conveying duct, the cutting crop received in said lateral feed trough to the machine body transverse direction second side The transverse feed means has a transverse feed drive shaft along the body width direction in the storage space, and a spiral body provided on the transverse feed drive shaft, A slot accommodating portion that forms a slot space for receiving a harvested crop conveyed to the second side in the machine width direction by the lateral feed means; a slot drive shaft that is arranged along the machine width direction so as to cross the slot space; And a discharge vane supported in a non-rotatable manner relative to the lower drive shaft in the lower space, wherein the transverse feed drive shaft and the lower drive shaft are operatively connected to the cutting drive shaft. provide.

Preferably, end portions on the first side in the body width direction of the cutting drive shaft, the lateral feed driving shaft, and the thrower driving shaft extend outward from the cutting case and can be operatively connected via a pulley transmission mechanism. .

Preferably, an end of the cutting drive shaft on the second side in the body width direction extends outward from the cutting case and may form an input end that is operatively connected to a driving source .

  In the various embodiments, preferably, the inner surface of the cutting case is provided with guide vanes for guiding at least a part of the cutting crop carried around by the plurality of flail blades toward the transport duct.

  In the various embodiments, the combine baler is preferably provided with a transport mechanism that transports the harvested crop discharged from the transport duct toward the baler chamber of the roll baler device.

  In the combine baler according to the present invention, the harvesting device is disposed in front of the vehicle body frame over substantially the entire region of the vehicle body width direction of the vehicle body frame, and the driver seat is the first side in the vehicle body width direction of the installation space on the vehicle body frame. In addition, since it is arranged on the front side, the cutting efficiency can be improved without deteriorating the maneuverability.

Furthermore, in the combined Béla according to the present invention, the fuselage in the operating machine body width direction second side of the space from the seat of the transport duct the installation space demarcating the conveying path from the case cutting in the cutting apparatus to the roll baler device It is along the front-rear direction, and in the cutting case is a storage space that receives at least a part of the cutting crop that is cut and thrown by the flail blade located on the first side in the body width direction from the transport duct, A lateral feed rod that forms a storage space that is directly or indirectly opened in the transport duct on the second side in the machine body width direction, and a lateral feed that transports the harvested crop received in the lateral feed rod to the second side in the body width direction. transverse feed mechanism is provided and means, further receives the cutting crop to be conveyed to the machine body transverse direction second side by said transverse feed means Ro A slot for accommodating a slot, a slot drive shaft arranged in the width direction of the vehicle so as to cross the slot space, and a discharge vane supported in the slot space so as not to rotate relative to the slot drive shaft since is provided with a Surowa mechanism having bets, without impairing the effect of improving and enhancing the maneuverability of the aforementioned cutting efficiency, said reaping crops that have been cut by the cutting device efficiently through the conveying duct It can be fed backward toward the roll baler device.
Further, since the lateral feed drive shaft and the lower drive shaft of the lateral feed means are operatively connected to the harvest drive shaft of the harvesting device, an amount of crop proportional to the amount of crops harvested by the harvesting device is sent to the lateral feed means. It can be transported and thrown by the slot mechanism.

FIG. 1 is a front view of a combine baler according to an embodiment of the present invention. FIG. 2 is a side view of the combine baler. FIG. 3 is a plan view of the combine baler. FIG. 4 is a front view of the harvesting device and the transport duct in the combine baler. FIG. 5 is a perspective view of the reaping device and the transport duct. FIG. 6 is a cross-sectional view taken along the line VI-VI in FIG. 7 is a cross-sectional view taken along line VII-VII in FIG. 8 is a cross-sectional view taken along line VIII-VIII in FIG. FIG. 9 is a perspective view of a cross section corresponding to FIG. 10 is a cross-sectional view taken along line XX in FIG. FIG. 11 is a cross-sectional view taken along line XI-XI in FIG. FIG. 12 is a cross-sectional view corresponding to FIG. 6 of a modification of the reaping device and the transport duct. 13 is a cross-sectional perspective view of the reaping device and the transport duct shown in FIG. 12 as viewed from below. FIG. 14 is a longitudinal perspective view of the reaping device and the conveyance duct shown in FIGS. 12 and 13.

Hereinafter, a preferred embodiment of a combine baler according to the present invention will be described with reference to the accompanying drawings.
1 to 3 show a front view, a side view, and a plan view of the combine baler 1 according to the present embodiment, respectively.

  As shown in FIGS. 1 to 3, the combine baler 1 is supported by a traveling device 10 having a pair of left and right crawlers 11, a vehicle body frame 20 mounted on the traveling device 10, and the vehicle body frame 20. The driver's seat 30, the reaping device 100, and the roll baler device 40, and a transport duct 200 that defines the transport path of the harvested crops from the reaping device 100 to the roll baler device 40 are provided.

  As shown in FIG. 3 and the like, the driver's seat 30 is located on the first side in the body width direction of the installation space on the body frame 20 (right side in the state of facing the forward direction in the present embodiment) and on the front side. Arranged in space.

  Various operation members (not shown) such as a steering handle and a transmission device are provided in front of and around the driver seat 30.

  As shown in FIGS. 1 to 3, the combine baler 1 according to the present embodiment includes a cabin 35 that covers the driver seat 30.

  The reaping device 100 is directly or indirectly supported by the body frame 20 in a state of being disposed in front of the body frame 20.

  In the present embodiment, as shown in FIG. 2, the combine baler 1 is provided with a support frame 60 that can swing around a pivot shaft 61 along the body width direction. The conveyance duct 200 connected to the cutting case 110 in 100 is supported by the support frame 60.

  That is, in the present embodiment, the reaping device 100 is supported by the vehicle body frame 20 through the transport duct 200 and the support frame 60 so as to be rotatable around the pivot shaft 61.

  Further, the combine baler 1 is provided with a hydraulic cylinder 70 that raises and lowers the reaping device 100, the transport duct 200, and the support frame 60 around the pivot shaft 61.

4 and 5 show a front view and a perspective view of the reaping device 100 and the transport duct 200, respectively.
6 to 8 are sectional views taken along lines VI-VI, VII-VII, and VIII-VIII in FIG. 4, respectively.

The reaping device 100 is a flail type reaping device having a plurality of flail blades 130.
Specifically, as shown in FIGS. 1 to 8, the reaping device 100 includes a reaping case 110 provided in front of the body frame 20 over substantially the entire region of the body frame 20 in the body width direction, and the reaping case. A cutting drive shaft 120 housed in 110 and a plurality of flail blades 130 supported by the cutting drive shaft 120 are provided.

FIG. 9 shows a perspective view of a cross section taken along line IX-IX in FIG.
As shown in FIGS. 6 to 9, the cutting case 110 is disposed on the second side in the body width direction from the intake opening 110 a that opens downward substantially over the entire region in the body width direction and the driver seat 30 (see FIG. 1 and the like). It has a discharge opening 110b that opens upward and to which the front end opening 200a of the transport duct 200 is connected.

  Specifically, the cutting case 110 includes a pair of left and right first and second side walls 111 and 112 and a peripheral wall 115 that connects the peripheral edges of the first and second side walls 111 and 112. The intake opening 110a and the discharge opening 110b are formed.

FIG. 10 shows a cross-sectional view along the line XX in FIG.
As shown in FIGS. 6 to 10, the pair of first and second side walls of the cutting case 110 is configured so that the cutting drive shaft 120 is accommodated in the cutting case 110 in a state along the body width direction. 111, 112, and at least one end portion is extended outward from the cutting case 110 so that rotational power can be input directly or indirectly from a drive source provided in the combine baler 1. Has been.

  In the present embodiment, as shown in FIGS. 6 to 10, the cutting drive shaft 120 is supported by the pair of first and second side walls 111 and 112 in a state along the body width direction, and At least one end 121a extends outward from the cutting case 110 and is supported by the driving shaft main body 121 so as not to rotate relative to the driving shaft main body 121 for inputting rotational power from the driving source. A pair of left and right support plates 122 and a plurality (in the illustrated form) supported by the pair of left and right support plates 122 in a state of being sequentially arranged in the circumferential direction with reference to the drive shaft main body 121 along the body width direction. Has three support shafts 123.

  The plurality of flail blades 130 are supported by the cutting drive shaft 120 so as to be rotatable about a rotation shaft 131 (see FIGS. 6 to 9) along the body width direction, and the rotation of the cutting drive shaft 120 is supported. In addition to cutting the napped crops in the radial direction by the accompanying centrifugal force, the crops are also cut by cooperating with a fixed blade (not shown) provided in the mowing device 100. .

Further, when the plurality of flail blades 130 are rotated in accordance with the rotation of the cutting drive shaft 120, the flare blades 130 generate a conveying wind for discharging the cut crops outward from the cutting case 110 through the discharge openings 110b. Let
In the present embodiment, the plurality of flail blades 130 are supported by the plurality of support shafts 123.

  The reaping device 100 further includes a lateral feed mechanism 150 accommodated in the reaping case 110. The lateral feed mechanism 150 will be described later.

  As shown in FIGS. 1 to 3, 6, 9, and 10, the transport duct 200 uses the space on the second side in the body width direction from the driver seat 30 in the installation space. The front end opening 200a is connected to the discharge opening 110b of the cutting case 110, and the rear end opening 200b is directly or indirectly connected to the bale chamber of the roll baler device 40.

  That is, the discharge opening 110b is disposed on the second side in the body width direction from the driver seat 30, and the transport duct 200 is disposed in a space on the second side in the body width direction from the driver seat 30 in the installation space. Thus, the front end opening 200a can be communicated with the discharge opening 110b.

  In the present embodiment, as shown in FIGS. 2 and 6 to 10, the transport duct 200 is a cylindrical body that is curved so as to be upwardly convex when viewed along the body width direction. Has been.

Preferably, as shown in FIGS. 1 and 2, the transport duct 200 is positioned below the window 36 on the cabin 35 second side in the body width direction.
According to such a configuration, it is possible to prevent the visibility from the driver seat 30 from being obstructed by the transfer duct 200.

In the present embodiment, as shown in FIGS. 1 to 3, the combine baler 1 transports the harvested crop discharged from the transport duct 200 toward the baler chamber of the roll baler device 40. 50 is provided.
Therefore, in the present embodiment, the rear end opening 200b of the transfer duct 200 is indirectly communicated with the bail chamber via the transfer mechanism 50.

The transport mechanism 50 can take various forms.
For example, the transport mechanism 50 is disposed along the body width direction and a drive shaft (not shown) that is disposed along the body width direction and is driven by rotational power that is operatively transmitted from the drive source. A driven shaft (not shown) provided, a pair of left and right endless bodies (not shown) wound around the drive shaft and the driven shaft, and a plurality of connecting members connecting between the pair of endless bodies And it may have a plurality of connecting members (not shown) spaced apart from each other in the longitudinal direction of the endless body.

The roll baler device 40 forms the feed crop supplied to the baler chamber into a roll-shaped feed bale.
Specifically, as shown in FIGS. 1 to 3, the roll baler device 40 opens a fixed housing 41 and a closed position where the baler chamber is formed under the cooperation of the fixed housing 41 and the baler chamber. A movable casing 42 that can take an open position, a plurality of fixed-side rotating rollers (not shown) supported by the fixed casing 41, and a plurality of movable-side rotating rollers (not shown) supported by the movable casing 42. (Not shown).

  The plurality of movable-side rotating rollers and the plurality of fixed-side rotating rollers are configured so that the movable casing 42 and the plurality of fixed-side rotating rollers form a substantially circular roll space in a side view when the movable casing 42 is positioned at the closed position. Each is supported by the fixed casing 41.

  In the roll baler device 40, rotational power to which the plurality of movable-side rotation rollers and the plurality of fixed-side rotation rollers are operatively transmitted from the drive source in a state where the movable casing 42 is positioned at the closed position. The feed crop in the roll space is automatically rotated to form a roll-shaped feed bale, and the feed crop newly introduced into the roll space is rotated around the axis of the feed bale. The feed bale is rolled up to increase the diameter.

Here, the detailed structure of the transverse feed mechanism 150 will be described.
FIG. 11 shows a cross-sectional view along the line XI-XI in FIG.

  As shown in FIGS. 8, 10, and 11, the lateral feed mechanism 150 includes a lateral feed rod 155 provided in the cutting case 110 and a crop in the lateral feed rod 155 on the second side in the body width direction. And a lateral feed means 160 for transporting to the side.

  The lateral feed rod 155 is a cutting crop that is cut and thrown by a flail blade 130 (see FIG. 10, hereinafter referred to as a first side flail blade 130a) positioned on the first side in the body width direction from the transport duct 200. It is a storage space that receives at least a portion, and forms a storage space in which the second side in the body width direction is opened directly or indirectly inside the transfer duct 200.

In the present embodiment, the lateral feed rod 155 has a concave shape that opens upward so as to cooperate with the first side wall 111 and the peripheral wall 115 to form the storage space.
In the present embodiment, the storage space is opened to the transfer duct 200 via the following slot mechanism 180.

The lateral feed means 160 may take various forms as long as the harvested crop in the storage space is conveyed to the second side in the body width direction.
In the present embodiment, as shown in FIGS. 8 and 11, the transverse feed means 160 is provided on the transverse feed drive shaft 161 along the body width direction in the storage space, and the transverse feed drive shaft 162. The spiral body 162 is provided.

  The transverse feed drive shaft 161 extends outward from the cutting case 110 so that one end can act as an input end operatively connected from the drive source.

In the present embodiment, the transverse feed drive shaft 161 is operatively connected to the reaping drive shaft 120.
Specifically, as shown in FIG. 10, the drive shaft main body 121 has an end portion 121 b on the first side in the body width direction opposite to the one end portion 121 a acting as the input end portion. Has been extended to.

  The transverse feed drive shaft 161 has an end portion 161 a on the first side in the body width direction extending outward from the cutting case 110, and an end portion 121 b on the first side in the body width direction of the drive shaft body 121. For example, it is operatively connected via a pulley transmission mechanism.

  The spiral body 162 is provided on the lateral feed drive shaft 161 so as to convey the crop in the storage space to the second side in the machine body width direction according to the rotation in the forward rotation direction around the axis of the lateral feed drive shaft 161. It has been.

According to the combine baler 1 having such a configuration, the following effects can be obtained.
In the combine baler 1, as described above, the reaping device 100 is provided over substantially the entire region in the body width direction, and the driver's seat 30 is provided in the installation space on the vehicle body frame 20, Therefore, both cutting workability and maneuverability can be improved.

  Furthermore, the combine baler 1 can efficiently transport the crops harvested by the mowing device 100 to the roll baler device without impairing the mowing workability and maneuverability.

  That is, among the plurality of flail blades 130, the flail blade 130 located at the same position as the transport duct 200 in the body width direction (that is, the flail blade located on the second side in the body width direction from the driver seat 30) (FIG. 10). And FIG. 11 (hereinafter, referred to as a second side flail blade 130b), and then directly thrown directly by the second side flail blade 130b and / or the second side flail blade 130b. The harvested crops thrown upward by the conveying wind due to are smoothly transferred to the roll baler device 40 via the discharge opening 110b and the conveying duct 200 located at substantially the same position as the second side flail blade 130b in the body width direction. Sent to.

  On the other hand, it is cut by the first side flail blade 130a located on the first side in the body width direction from the transport duct 200 (that is, the flail blade located substantially at the same position as the driver seat 30 in the body width direction), At least a part of the harvested crop that is directly thrown by the first side flail blade 130a and / or thrown upward by the conveying wind by the first side flare blade 130a is stored in the storage space. The transverse feeding means 160 is transported to the second side in the machine body width direction and joined with the harvested crops transported by the second side flail blade 130b located on the second side in the machine body width direction. To the roll baler device 40.

  Therefore, by providing the reaping device 100 over substantially the entire region of the body frame 20 in the body width direction, the reaping efficiency is improved, and the driver's seat 30 is positioned in the installation space on the body frame 20 to improve the maneuverability. The cutting crop that is cut by the reaping device 100 and released backward can be efficiently fed toward the roll baler device 40 while improving the efficiency.

  Furthermore, in the present embodiment, as described above, the transverse feed drive shaft 161 is operatively connected to the reaping drive shaft 120, and the transverse feed drive shaft 161 is driven in accordance with the rotational speed of the reaping drive shaft 120. The rotational speed is increased or decreased. Therefore, an amount of crops proportional to the amount of harvested crops can be transported by the lateral feed means 160.

As described above, in the present embodiment, the reaper mechanism 180 is provided in the reaping device 100.
As shown in FIGS. 6, 7, 10, and 11, the lower mechanism 180 includes a lower portion that forms a lower space that receives a cut crop that is conveyed to the second side in the body width direction by the lateral feed mechanism 160. 181 and a discharge blade 185 accommodated in the slot accommodating portion 181.

  The slot accommodating portion 181 has a receiving opening 181 a that opens to the first side in the body width direction so as to communicate with the storage space, and a discharge opening 181 b that opens rearward so as to communicate with the transport duct 200.

  The discharge blade 185 is rotationally driven by the rotational power operatively transmitted from the drive source, and discharges the crop in the slot space to the transport duct 200 through the discharge opening 181b.

  In the present embodiment, the discharge blade 185 is operatively connected to the lateral feed drive shaft 161 and is driven in synchronization with the lateral feed drive shaft 162.

  Specifically, as shown in FIG. 10, the lower mechanism 180 has a lower drive shaft 188 extending in the width direction of the machine body so as to cross the lower space.

The slotter drive shaft 188 is formed on the first side wall 111 and the slot accommodating portion 181 with the end 188a on the first side in the body width direction extending outward from the first side wall 111 of the cutting case 110. It is supported.
The end 188a is operatively connected to the end 161a of the transverse feed drive shaft 161 via a pulley transmission mechanism or the like.

  The discharge blade 185 is supported by the slot drive shaft 188 so as not to rotate relative to the slot space.

  By providing the slotter mechanism 180, the crop baler that has been transported by the lateral feed mechanism 160 from the first side to the second side in the body width direction is efficiently transferred to the roll baler device 40 via the transport duct 200. Can be sent backwards toward

FIG. 12 is a cross-sectional view of a modification 100B of the reaping device 100, and shows a cross-sectional view corresponding to FIG.
FIG. 13 is a perspective view of a lower section of the modification 100B, and FIG. 14 is a longitudinal perspective view of the modification 100B.
12-14, the same code | symbol is attached | subjected to the same member as in this Embodiment.

  As shown in FIGS. 12 to 14, in the modified example 100 </ b> B, at least a part of the harvested crop carried by the plurality of flail blades 130 is transported to the inner surface of the peripheral wall 115 in the harvesting case 110. Guide vanes 220 are provided to guide the duct 200.

  By providing the guide blade 220, the harvested crop located on the first side in the body width direction in the harvesting case 110 can be directed to the discharge opening 110b using the rotation of the harvesting drive shaft 120. Further, it is possible to further improve the conveyance efficiency of the harvested crop.

  In the illustrated embodiment, first and second guide vanes 220 a and 220 b are provided as the guide vanes 220.

  As shown in FIG. 14, the first guide vane 220a has a lower end located on the first side in the body width direction from the discharge opening 110b, and moves from the lower end to the second side in the body width direction. In addition, the upper end portion is inclined so as to be located in the discharge opening 110b with respect to the body width direction.

  The second guide vane 220b is inclined on the second side in the body width direction from the first guide vane 220a so as to shift from the first side to the second side in the body width direction as it goes from the lower end to the upper end. .

  Specifically, the second guide vane 220b has a lower end portion located on the second side in the body width direction with respect to the lower end portion of the first guide vane 220a and substantially at the same position in the vertical direction, and an upper end portion of the first guide vane 220b. It is located at substantially the same position in the body width direction and below the upper end of the wing 220a.

DESCRIPTION OF SYMBOLS 1 Combine baler 10 Traveling apparatus 20 Car body frame 30 Driver's seat 40 Roll baler apparatus 50 Conveying mechanism 100 Mowing apparatus 110 Mowing case 110a Intake opening 110b Release opening 120 Mowing drive shaft 130 Flare blade 150 Horizontal feed mechanism 155 Horizontal feed rod 160 Horizontal feed means 161 Cross feed drive shaft 162 Spiral body 180 Slow mechanism 200 Transport duct 220 Guide vane

Claims (5)

A traveling device; a vehicle body frame placed on the traveling device; a driver's seat disposed in a space on the first side in the body width direction of the installation space on the vehicle body frame; A roll baler device disposed in a space behind the driver's seat; a flail type mowing device disposed in front of the vehicle body frame; and a transport duct defining a transport path for harvested crops from the mowing device to the roll baler device; With
The reaping device is a reaping case provided over substantially the entire region of the vehicle body width direction of the body frame, and includes an intake opening that opens downward substantially over the entire region of the vehicle body width direction and a second width direction of the vehicle body from the driver seat. A cutting case provided with a discharge opening that opens upward on the side, a cutting drive shaft supported by the cutting case along the body width direction, a plurality of flail blades supported by the cutting drive shaft, and the cutting A lateral feed mechanism housed in a case, and a thrower mechanism for throwing a cut crop conveyed by the lateral feed mechanism backward in the conveyance duct ,
The transport duct has a front end opening connected to the discharge opening of the cutting case and a rear end opening communicating directly or indirectly with the bale chamber of the roll baler device from the driver's seat in the installation space. In the space on the second side in the width direction, along the longitudinal direction of the aircraft,
The lateral feed mechanism is located above the flail blade in the cutting case so as to receive at least a part of the harvested crop that is cut and thrown by the flail blade positioned on the first side in the body width direction from the transport duct . A transverse feed rod that forms a storage space that has a concave shape that opens upward and a second side in the machine width direction that is directly or indirectly open to the transport duct, and a crop that is received by the transverse feed rod in the machine width direction. Transverse feed means for conveying to the second side ,
The transverse feed means has a transverse feed drive shaft along the body width direction in the storage space, and a spiral body provided on the transverse feed drive shaft,
The thrower mechanism is disposed along the fuselage width direction so as to traverse the thrower space, and a thrower receiving portion that forms a thrower space for receiving a harvested crop conveyed to the second width direction of the fuselage by the lateral feed means. A lower drive shaft, and a discharge blade supported in the lower space so as not to rotate relative to the lower drive shaft,
The combine baler characterized in that the transverse drive shaft and the lower drive shaft are operatively connected to the cutting drive shaft . Ends on the first body width direction side of the cutting drive shaft, the transverse feed driving shaft, and the slotter driving shaft extend outward from the cutting case and are operatively connected via a pulley transmission mechanism. The combine baler according to claim 1, characterized in that: To claim 2, characterized in that forming the input end end of the machine body transverse direction second side of the cutting drive shaft is operatively connected to a driving source is extended outwardly from said cutting casing Combine harvester as described.   The guide blade for guiding at least a part of the harvested crop carried around by the plurality of flail blades toward the transport duct is provided on an inner surface of the harvesting case. The combine baler in any one of 3.   The combine baler according to any one of claims 1 to 4, further comprising a transport mechanism that transports the harvested crop discharged from the transport duct toward a baler chamber of the roll baler device.

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