KR101705139B1 - Round Baler Rotor Axis - Google Patents

Abstract

The present invention relates to a circular baler rotor shaft.
According to the present invention, the left and right conveying screws are detachably installed on both sides of the rotor shaft for pushing the crop on the ground surface raised by the pick-up spring constituting the circular baler to the inside of the chamber roller, The rotor is rotatably supported at both ends of the main shaft of the rotor and the screw is screwed to the outer circumferential surface of the main shaft. (Gear ratio) so that the rotational speed of the rotor-separating hollow shaft provided therein is fast, the crop (straw) in a state of being pushed to one side at the time of corner rotation is quickly transferred from both sides to the center, Is provided.

Description

Round Baler Rotor Axis < RTI ID = 0.0 >

The present invention relates to a circular baler rotor shaft. More particularly, the present invention relates to a circular baler rotor shaft. More particularly, the present invention relates to a circular baler rotor shaft, It is constructed so that wear and deformed parts can be replaced only during abrasion and deformation of the conveying screw.

Generally, a baler is a device configured to automatically collect rice straw or grass, and to compress and bind the collected rice straw and grass, which is mainly used behind agricultural tractors used in paddy fields and grasslands , And collects forage crops such as grass or rice straw while traveling on an agricultural tractor.

The prior art of such a bayiller is disclosed in Korean Patent No. 10-1144491, Japanese Patent Application Laid-Open Nos. 10-2011-0011906 and 10-2013-0052576.

These prior art balers are integrally formed with a rotor shaft for pushing a crop of the ground surface raised by the pick-up spring of the pick-up device to the inside of the chamber roller. The left and right screws and the flange There is an economical problem that the entire rotor shaft needs to be replaced at the time of wear and deformation, and the rotational speed of the left and right screws is the same, so that the crop is located between the tractor wheels during the straight distance operation, During corner rotation, the worker's crop could not be placed in the middle of the tractor's wheels, causing crops to be pushed to one side, resulting in overloading that could result in pick up and blockage of the rotor.

SUMMARY OF THE INVENTION The present invention has been made in order to solve such conventional problems, and it is an object of the present invention to provide a method and an apparatus for cutting off a crop on a ground surface raised by a pickup spring, And to provide a circular baler rotor shaft configured to be able to replace abrasion and deformation of the left and right conveying screws and deformed left and right conveying screws.

It is another object of the present invention to provide a rotor having a hollow shaft rotatably disposed on both ends of a main shaft of a rotor and having a center conveying screw provided with a central conveying screw, Gear ratio) so as to rapidly transfer the crop from one side to the other at the time of corner rotation so that the crop can not be piled up.

In order to attain the above object, the present invention provides a power transmission device comprising: a power transmission device for receiving power from a tractor; A crop pick-up device operated by the rotational force of the power transmission device for picking up the crop on the ground surface into the upper region; A crop conveying device for conveying the crop supplied from the crop pick-up device to the central area and transferring the crop to the upper area; A circular baler, which is constituted of a crop rolling forming device for forming a crop supplied from a crop conveying device into a circular shape, and which is mounted on the rear of the tractor and its operation is controlled, the crop conveying device comprising: A rotor shaft having a lower rotor sprocket connected to the sprocket and a chain, the rotor sprocket detachably installed at one side thereof and having a central transfer screw at a central region thereof; And a left transporting screw and a right transporting screw which are separated from one side and the other of the rotor shaft and transport the crop to the central transporting screw.

The present invention also provides a power transmission device for receiving power from a tractor; A crop pick-up device operated by the rotational force of the power transmission device for picking up the crop on the ground surface into the upper region; A crop conveying device for conveying the crop supplied from the crop pick-up device to the central area and transferring the crop to the upper area; A circular baler, which is constituted by a crop rolling forming device for forming a crop supplied from a crop conveying device into a circular shape, and which is mounted on the rear of the tractor and its operation is controlled, said crop conveying device comprising: A rotor main shaft detachably housed at one side of a lower rotor sprocket connected by a rotor sprocket and a chain, and having a central transfer screw at a central region thereof; And both sides of the rotor main shaft and both sides of the lower rotary shaft of the power transmission device are provided with a rotational speed higher than that of the rotor main shaft so as to transfer the crop to the central conveying screw region.

According to the present invention, the left and right conveying screws are detachably installed on both sides of the rotor shaft for pushing the crop on the ground surface raised by the pick-up spring constituting the circular baler to the inside of the chamber, The rotation speed of the main shaft of the rotor provided with the central conveying screw is rotatably disposed on both ends of the main shaft of the rotor and the screw is provided on the outer peripheral surface of the main shaft. (Gear ratio) so that the rotation speed of the hollow shaft for separating the rotor can be made fast so that the crop (ridge straw) in a state of being pushed to one side during the corner rotation is quickly transferred from both sides to the center, / RTI >

1 and 2 are perspective views showing a first embodiment of a circular baler rotor shaft according to the present invention.
3 is an enlarged constructional view of a portion "A"
4 is a view showing a configuration of a main part of a first embodiment of a circular baler rotor shaft according to the present invention.
5 is an exploded perspective view showing a first embodiment of a circular baler rotor shaft according to the present invention.
Figures 6 and 7 are operational state diagrams showing a first embodiment of a circular baler rotor shaft in accordance with the present invention;
8 is a perspective view showing a second embodiment of a circular baler rotor shaft according to the present invention.
9 is an enlarged configuration view of the portion "B" in Fig.
Fig. 10 and Fig. 11 are a constitutional view of a main part showing a second embodiment of a round baler rotor shaft according to the present invention; Fig.
12 to 14 are diagrams showing a second embodiment of a circular baler rotor shaft according to the present invention.
15 to 17 are operational state diagrams showing a second embodiment of a circular baler rotor shaft according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are perspective views showing a first embodiment of a circular baler rotor shaft according to the present invention, FIG. 3 is an enlarged configuration view of the "A" portion of FIG. 2, FIG. 5 is an exploded perspective view showing a first embodiment of a circular baler rotor shaft according to the present invention. FIG. 5 is an exploded perspective view showing a first embodiment of a circular baler rotor shaft according to the present invention.

1 to 5, a circular balail according to the present invention includes a power transmission device 10 for receiving the power of a tractor; A crop pick-up device (50) operated by the rotational force of the power transmission device (10) for picking up the crop on the ground surface into the upper region; A crop transfer device (30) for transferring the crop supplied from the crop pick-up device (50) to the central area and transferring the crop to the upper area; And a crop rolling forming device 60 for forming a crop, which is supplied from the crop conveying device 30 and curled inward in a circular shape, and is mounted on the rear of the tractor to control its operation.

The power transmission apparatus 10 includes a power input shaft 12 in which a main bevel gear 11 is rotatably housed and a pair of left and right bevel gears 13 and 14 orthogonal to the main bevel gear 11 A gear box 15 provided in the front region; A first upper rotating shaft 17 connected to the connecting shaft 13a of the left bevel gear 13 by a joint 13b and having a left upper sprocket 16 at one side; A second upper rotary shaft 19 connected to the connecting shaft 14a of the right bevel gear 14 by a joint 14b at one side and a chamber roller main drive sprocket 18 at the other side; A left lower sprocket 22 connected by a left upper sprocket 16 and a chain 20 and having a lower rotary shaft 21 rotatably housed therein; And an upper rotor sprocket 23 rotatably installed on one side of the lower rotary shaft 21.

The crop conveying device 30 includes a lower rotor sprocket 32 connected to an upper rotor sprocket 23 and a chain 31 so as to be detachably installed at one side and a direction changing gear 33 A rotor shaft (35) having a central transfer screw (34) in its central region; And a left transporting screw 40 and a right transporting screw 41 for transporting the crop to the area of the central transporting screw 34 in a detachable manner on one side and the other side of the rotor shaft 35.

The left transfer screw 40 and the right transfer screw 41 include a plurality of protrusions 42 protruding in the longitudinal direction on the outer circumferential surfaces on both sides of the rotor shaft 35; A rotor hollow shaft (44) having a plurality of circular flanges (43) formed with coupling grooves (43a) to which the projections (42) are detachably coupled, the rotor hollow shaft (44) being equally spaced on the inner peripheral surface; And a feed screw 46 provided on the outer peripheral surface of the rotor hollow shaft 44 for feeding the crop to the central feed screw 34 in the central region.

At this time, the conveying screws 46 of the left conveying screw 40 and the conveying screws 41 of the right conveying screw 41 are structured so that the crops can be transferred to the central conveying screw 34 in the central area.

The crop pick-up device 50 includes an upper power transmitting member 53 composed of an inner gear 51 engaged with the direction changing gear 33 and an upper outer sprocket 52 provided on the outer side; A double sprocket 56 provided in a lower region of the upper power transmitting member 53 and composed of a lower outer sprocket 54 and a lower inner sprocket 55 connected by an upper outer sprocket 52 and a chain 54a; A lower sprocket 57 provided in a lower region of the double sprocket 56 and connected to the lower inner sprocket 55 as a chain 57a; And a pick-up spring 58 rotatably provided in the lower sprocket 57 for raising the crop on the ground surface by the crop conveying device 30 at the upper part.

The crop rolling forming apparatus 60 includes a front drive sprocket 62, a rear drive sprocket 63, and a rear drive sprocket 63 connected to the chamber roller main drive sprocket 18 by one chain 61; And a plurality of chamber rollers 65 which are rotated in the counterclockwise direction by the rotational force of the front drive sprocket 62 and the rear drive sprocket 63 and in which a chamber 64 in which a crop is wound and formed is formed.

FIG. 8 is a perspective view showing a second embodiment of a circular baler rotor shaft according to the present invention, FIG. 9 is an enlarged configuration view of a portion "B" in FIG. 8, and FIGS. FIGS. 12 to 14 are block diagrams showing a second embodiment of a circular baler rotor shaft according to the present invention, and FIGS. 12 to 14 are block diagrams showing a second embodiment of a circular baler rotor shaft according to the present invention.

As shown in Figs. 8 to 14, the circular baler according to the present invention includes a power transmission device 70 for receiving the power of the tractor; A crop pick-up device (160) operated by the rotational force of the power transmission device (70) and for raising the ground surface rice straw to the upper area; A crop conveying device 90 for conveying the crop supplied from the crop pick-up device 160 to the central area and transferring the crop to the upper area; And a crop rolling molding apparatus 210 for molding the crop supplied from the crop conveying device 90 into a circular shape and is mounted on the rear of the tractor to control its operation.

The power transmission device 70 includes a power input shaft 72 into which a main bevel gear 71 is rotatably housed and a pair of left and right bevel gears 73 and 74 which are orthogonal to the main bevel gear 71 A gear box 75 provided in the front region; A first upper rotary shaft 77 connected to the connecting shaft 73a of the left bevel gear 73 by a joint 73b on the other side and to which a left upper sprocket 76 is extended; A second upper rotary shaft 79 connected to the connecting shaft 74a of the right bevel gear 74 by a joint 74b at one side and a chamber roller main drive sprocket 78 at the other side; A left lower sprocket 82 connected by a left upper sprocket 76 and a chain 81 and having a lower rotary long shaft 80 rotatably housed therein; And an upper rotor sprocket 83 rotatably installed on one side of the lower rotary long shaft 80.

The crop conveying device 90 includes a lower rotor sprocket 92 connected to an upper rotor sprocket 83 and a chain 91 to be detachably installed at one side and a direction change gear 93 A rotor main shaft 95 having a plurality of central conveyance screws 94 in its central region; A rotary shaft is detachably provided between both sides of the rotor main shaft 95 and both sides of the lower rotary shaft 80 such that the rotational speed thereof is faster than the rotor main shaft 95 to transfer the straw to the central conveying screw 94 area. And a crop conveying screw (100).

The crop conveying screw 100 is rotatably supported by inner and outer bearings 110 and 111 on both sides of the rotor main shaft 95 and has a rotor separation hollow shaft 120 121); A bearing case 130 (131) detachably fastened to both ends of the rotor separation hollow shaft 120 (121) and fitted with the outer bearing (111); Left and right sprockets 140 and 141 inserted into a central region of the rotor main shaft 95 and detachably fixed to the outside of the bearing cases 130 and 131; And left and right connection sprockets 150 and 151 rotatably supported on both sides of the lower rotary long shaft 80 in correspondence with the left and right sprockets 140 and 141 and connected by a chain 152.

At this time, the number of gear teeth (gear ratio) of the upper rotor sprocket 83 and the lower rotor sprocket 92 for rotating the rotor main shaft 95; The gear teeth ratio (gear ratio) of the left and right connection sprockets 150 and 151 and the left and right sprockets 140 and 141 for rotating the rotor separation hollow shaft 120 and 121 is determined by the rotor separation hollow shaft 120 ) 121 is configured to be 10 to 20% faster than the rotational speed of the rotor main shaft 95 so that when the crop (straw) is placed on one side during corner rotation, So that the clogging phenomenon can be solved.

The crop pick-up device 160 includes an upper power transmitting member 170 including an inner gear 171 engaged with the direction switching gear 93 and an upper outer sprocket 172 provided on the outer side; A double sprocket 180 provided in a lower region of the upper power transmitting member 170 and composed of a lower outer sprocket 182 and a lower inner sprocket 183 connected by an upper outer sprocket 172 and a chain 181; A lower sprocket 190 provided in a lower region of the double sprocket 180 and connected to the lower inner sprocket 183 as a chain 191; And a pick-up spring 200 rotatably supported on the lower sprocket 190 for picking up the crop on the ground surface by the crop conveying device 90 at the upper part.

The crop rolling forming apparatus 210 includes a front drive sprocket 230 and a rear drive sprocket 240 connected to the chamber roller main drive sprocket 78 by one chain 221; And a plurality of chamber rollers 250 having a chamber 251 rotated in the clockwise direction by the rotational force of the front and rear drive sprockets 230 and 240 and a crop is wound and formed therein.

The operation of the circular baler rotor shaft according to the first embodiment of the present invention will be described.

When a switch is operated while the tractor equipped with the circular baler is operated to collect the crops (rice straw, etc.) on the ground surface (rice straw, etc.) as shown in Figs. 1 to 5 and then compressively bind the tractor, Is transmitted to the power input shaft 12 constituting the transmission device 10 so that the main bevel gear 11 in the gear box 15 rotates and is engaged with the main bevel gear 11 in the gear box 15 The left and right bevel gears 13 and 14 are rotated.

The first upper rotating shaft 17 rotatably supported between the left bevel gear 13 and the left upper sprocket 16 is rotated in the counterclockwise direction and the left upper sprocket 16 and the chain 20 are rotated, An upper rotor sprocket 23 connected to the lower rotating shaft 21 so as to rotate counterclockwise on the left lower sprocket 22 in which the lower rotating shaft 21 is rotatably housed, As the lower rotor sprocket 32 connected by the chain 31 rotates counterclockwise, the rotor shaft 35 rotates counterclockwise.

At the same time, the direction changing gear 33 on the other side of the rotor shaft 35 is rotated counterclockwise, the internal gear 51 engaged with the direction changing gear 33 is rotated clockwise, The upper outer sprocket 52 and the lower outer sprocket 54 connected by the chain 54a are rotated in the clockwise direction and the lower inner sprocket 55 and the chain 57a inside the lower outer sprocket 54, The lower sprocket 57 connected thereto is rotated in the clockwise direction.

As a result, the pick-up spring 58 is rotated in the clockwise direction to continuously raise the crop (rice straw, etc.) gathered on the ground surface (rice fields, etc.) to the area of the crop conveying device 30 rotating in the counterclockwise direction (See Fig. 6)

The crop supplied to the crop conveying device 30 is fed to the center conveying screw 34 of the center region by the rotational force of the left conveying screw 40 and the right conveying screw 41 detachably coupled to both sides of the rotor shaft 35 And the crop conveyed to the central conveyance screw 34 is supplied to the chamber 64 inside the chamber roller 65 constituting the crop rolling forming apparatus 60 by the rotational force of the central conveyance screw 34 , And subjected to crimping (see Fig. 7).

At this time, the chamber roller 65 rotates clockwise on the right side bevel gear 14 in the gear box 15 and the chamber roller main drive sprocket 18 on the other side of the second upper rotation shaft 19 and one chain 61 And the rear driving sprocket 63 is rotated by the rotational force of the front driving sprocket 62 and the rear driving sprocket 63. The crop (rice straw) fed into the chamber 64 is wound and formed.

8 to 14, when the switch is operated while the tractor equipped with the circular baler is operated, the power of the tractor is transmitted to the power transmission device 70, The main bevel gear 71 in the gear box 75 rotates and the left and right bevel gears 71 meshed with the main bevel gear 71 in the gear box 75 are rotated by the power input shaft 72, (73) and (74) rotate.

The first upper rotary shaft 77 rotatably supported between the left bevel gear 73 and the left upper sprocket 76 is rotated in the counterclockwise direction and the left upper sprocket 76 and the chain 81 are rotated, And a left lower sprocket 82 in which the lower rotary long shaft 80 is rotatably housed is rotated counterclockwise and an upper rotor sprocket 83 rotatably housed in one side of the lower rotary long shaft 80 And the lower rotor sprocket 92 connected by the chain 91 rotate in the counterclockwise direction, the rotor main shaft 95 rotates counterclockwise.

At the same time, the direction changing gear 93 on the other side of the rotor main shaft 95 is rotated counterclockwise, the internal gear 171 engaged with the direction changing gear 93 is rotated clockwise, The lower outer sprocket 182 connected with the upper outer sprocket 172 outside the lower outer sprocket 181 and the lower outer sprocket 182 connected with the chain 181 are rotated clockwise and the lower inner sprocket 183 inside the lower outer sprocket 182 and the chain 57a So that the connected lower sprocket 190 is rotated clockwise.

As a result, the pick-up spring 200 is rotated in the clockwise direction, and the crop (rice straw or the like) gathered on the ground surface (rice fields, etc.) is continuously rolled up to the area of the crop conveying device 160 rotating in the counterclockwise direction (See Fig. 16)

The crop supplied to the crop conveying device 90 is rotatably supported between the both sides of the lower rotary shaft 80 and the rotor main shaft 95 and connected to the left and right connection sprockets 150 The center conveying screw 94 is conveyed along the screw 122 of the rotating crop conveying screw 100 by the rotational force of the conveying screw 151 and the left and right sprockets 140 and 141, Is fed to the chamber 251 inside the chamber roller 250 constituting the crop rolling forming apparatus 210 by the rotational force of the central conveying screw 94 and is rolled and processed (see Fig. 15).

At this time, the chamber roller 250 rotates clockwise with respect to the second auxiliary bevel gear 74 in the gear box 75 and the chamber roller main drive sprocket 78 on the other side of the second upper rotary shaft 79, The driving force of the front drive sprocket 230 and the rear drive sprocket 240 connected to each other by the drive shaft 221 rotates in the clockwise direction and the crop (rice straw) fed into the chamber 251 is wound and formed.

As shown in FIG. 17, when the tractor equipped with the circular baler is cornering, both wheels of the tractor are inclined, and the circular baler is inclined. Thus, the tractor driver can not place the crop in the center of the tractor wheel, do.

At this time, the gear teeth ratio (gear ratio) is configured so that the rotational speed of the rotor separation hollow shaft 120 (121) is 10 to 20% faster than the rotational speed of the rotor main shaft 95, The screw 122 provided on the outer circumferential surface of the rotor-separating hollow shaft 120 (121) rapidly rotates to rapidly transfer the crop from one side to the center, so that the crop is not piled up The supply to the crop pick-up device is performed quickly.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. .

10, 70: Power transmission device 30, 90: Crop conveying device
23, 83: upper rotor sprocket 31, 91, 152: chain
32, 92: Lower rotor sprocket 34, 94: Central transfer screw
35: Rotor shaft 40, 41: Left and right feed screw
42: projection 43: circular flange
43a: coupling groove 44: hollow shaft
46: Feed screw 50, 160: Crop pickup device
60, 210: Crop rolling forming device 80: Lower rotary long axis
95: Rotor main shaft 100: Crop feed screw
110, 111: inner and outer bearings 120, 211: rotor separation hollow shaft
122: screw 130, 131: bearing case
140,141: Left and right sprockets 150,151: Left and right connection sprocket

Claims (5)

A power transmission device (10) for receiving the power of the tractor; A crop pick-up device (50) operated by the rotational force of the power transmission device (10) to pick up the crop on the ground surface into the upper area; A crop conveying device (30) for conveying the crop supplied from the crop pick-up device (50) to the upper area; A circular baler comprising a crop rolling forming apparatus (60) for forming a crop, which is supplied from a crop conveying apparatus (30) and curled in a circular shape,
The crop conveying device (30)
A lower rotor sprocket 32 connected to the upper rotor sprocket 23 of the power transmission apparatus 10 by a chain 31 is detachably installed at one side and a rotor shaft 32 having a central transfer screw 34 (35); And
A plurality of protrusions (42) protruding in the longitudinal direction on outer circumferential surfaces on both sides of the rotor shaft (35); A rotor hollow shaft 44 having a plurality of circular flanges 43 formed on an inner circumferential surface thereof with engaging grooves 43a to which the projections 42 are detachably coupled; A left feed screw 40 and a right feed screw 41 which are provided on the outer circumferential surface of the rotor hollow shaft 44 and include a feed screw 46 for feeding the crop to the area of the central feed screw 34;
And a rotor shaft rotatably mounted on the rotor. delete A power transmission device (70) for receiving the power of the tractor; A crop pick-up device (160) operated by the rotational force of the power transmission device (70) for picking up the crop on the ground surface to the upper area; A crop conveying device 90 for conveying the crop supplied from the crop pick-up device 160 to the upper area; A circular baler comprising a crop rolling forming apparatus (210) for forming a crop, which is supplied from a crop conveying device (90) and curled inward in a circular shape,
The crop conveying device (90)
A lower rotor sprocket 92 connected to the upper rotor sprocket 83 of the power transmission device 70 by a chain 91 is detachably installed at one side and a rotor 92 having a central conveying screw 94 A main shaft 95;
Both sides of the rotor main shaft 95 and both sides of the lower rotary long shaft 80 of the power transmission device 70 are provided so that the rotational speed thereof is faster than the rotor main shaft 95 so that the crop (100) for transporting the crop rolls (100). 4. The method according to claim 3, wherein the crop conveying screw (100)
A rotor separation hollow shaft 120 (121) rotatably supported by inner and outer bearings (110) and (111) on both sides of the rotor main shaft (95) and having a screw (122) on the outer peripheral surface;
A bearing case 130 (131) which is detachably fastened to both ends of the rotor separation hollow shaft 120 (121) and to which the outer bearing 111 is coupled;
Right and left sprockets 140 and 141 inserted into the rotor main shaft 95 and detachably fixed to the outer sides of the bearing cases 130 and 131;
The left and right sprockets 140 and 141 are rotatably supported on both sides of the lower rotary shaft 80 in correspondence with the left and right sprockets 140 and 141 and connected to the left and right sprockets 140 and 141, And a left and right connection sprocket (150) (151) that adjusts a gear ratio of the left and right connection sprockets. 5. The sprocket of claim 4, wherein the number of gear teeth (gear ratio) of the upper rotor sprocket (83) and the lower rotor sprocket (92) for rotating the rotor main shaft (95)
The number of gear teeth (gear ratio) of the left and right connection sprockets 150 and 151 and the left and right sprockets 140 and 141 for rotating the rotor separation hollow shaft 120 and 121,
And the rotational speed of the rotor separation hollow shaft 120 (121) is 10 to 20% faster than the rotational speed of the rotor main shaft (95).

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