RU2211553C2 - Drill and agricultural machine - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: drill has roller comprising set of drum-type wheels arranged in side-by-side relation for moving to one another in vertical plane and independent of one another, and seeding shanks connected with said wheels. Drum-type wheels are joined with supporting frame by means of holders, said frame being positioned transverse to advancement direction. Seeding shanks are mounted on holders and rearward of drum-type wheels by means of carrier arms. Holder is made in the form of parallelogram. Holder upper clip and respective carrier arms of seeding shanks are united into constructional unit, which is connected through detachable joint to other holder. Agricultural machine has at least one supporting frame, onto which reservoir is mounted and to which tractor hitch is secured. Reservoir is equipped with drive mechanism including drive wheels. Seeding unit is mounted on supporting frame behind drive wheels by means of connecting unit capable of raising and lowering and is equipped with seeding shares movable in vertical plane and provided with roller-type members, which are adapted for movement in forward direction. During soil cultivation, drive wheels may be raised from soil surface by means of connective devices or individual raising device. Spring devices are positioned between roller-type members and shank frame. Such construction provides for precise and stable seed material embedding depth. EFFECT: increased efficiency and enhanced reliability in operation. 22 cl, 14 dwg

Description

 The invention relates to a seeder according to the restrictive part of claim 1 of the formula and an agricultural machine according to the restrictive part of claim 16 of the formula.

 Such a seeder is known, for example, from German utility model DE-GM 9010178, A 01 B 29/60, 01/09/92. It contains several drum-type wheels mounted next to each other with the possibility of moving one to the other in the vertical direction independently of each other. Drum type wheels form roller elements of agricultural implements. Sowing coulters are located between the agricultural implement and drum-type wheels. Drum-type wheels are pivotally connected by means of holders with a coulter frame located transverse to the direction of movement. A spring device is located between the coulter frame and the holders.

 An agricultural machine is known from the same document, comprising at least one support frame supporting a reservoir with a driving mechanism including driving wheels, and a tractor coupling device, at least one seeder mounted on a support frame behind the running wheels, and roller elements.

 Thanks to the individual suspension of each roller element, a uniform compaction of the soil is achieved, including in areas with a surface that has undulations in the direction transverse to the direction of movement. However, due to the fact that the seed coulters are mounted on a continuous coulter frame, the exact and stable depth of the seedbed laying or, correspondingly, uniform coverage of the soil with the seed laid in it cannot be ensured.

 The objective of the invention is to provide simple means for good sowing of the seed coulters at a depth, as well as the same depth of laying the seed in the crushed section of the soil, including at high speeds.

 This problem is solved thanks to the distinguishing features of paragraph 1 of the formula. The proposed seeder allows you to directly conduct the seed coulters in the soil with the help of drum-type wheels with a given depth. The result is a very easy opener stroke and high precision sowing depth at high speeds - from 15 km / h or more. Drum-type wheels perform a dual function - they press down the soil and at the same time drive the seed coulters buried in the soil. To ensure normal operation, the seed coulters are firmly connected to the holders.

 In order to avoid deformation and damage, the seed coulters are tilted upwards when hitting obstacles on the soil surface. For this, the coulters are mounted on holders of drum-type wheels, behind these wheels, using load-bearing arms and articulated joints and can be pressed against the soil by spring devices located on the upper clips of the holders.

 To ensure exactly the same depth when maintaining the seed coulters, including in areas with an uneven surface, the holders of the drum type wheels have the form of a parallelogram. A particularly convenient and compact arrangement of wheels and seed coulters is achieved when two coulters are connected to each drum-type wheel. The seed coulters are preferably in the form of single-disc coulters, especially if the seeder is used for mulching.

 To align the seed coulters with respect to the drum type wheels in order to obtain the same seed placement depth for all disc coulters, adjusting means are located between the wheel holders and the bearing arms of the coulters.

 To prevent damage to the seed coulters when hitting obstacles, the seed coulters are mounted on the holders of the drum-type wheels using load-bearing arms so that they can be retracted upward relative to the drum-type wheels to overcome the force of the spring devices.

 In order to easily establish the sowing depth, the holders having the shape of a parallelogram are connected to the coulter frame located across the direction of travel by hinges, and the coulter frame can be connected by means of connecting means to a lifting device, it can rotate around an axis passing across the direction movement, and can be adjusted for installation in various positions using connecting means.

 For optimal sowing using coulters of the corresponding types, drum type wheel coulters of various types can be optionally installed on the wheel holders of the drum type.

 In order to provide the possibility of replacing the coulters of one type with coulters of another type, according to the first solution, the upper clamp of the holder having the shape of a parallelogram and the corresponding bearing arm of the seed coulters are combined into a structural unit connected via a detachable connection to another drum wheel holder. Such a unit, including the upper clamp, the holder and the supporting shoulder, can be replaced by another at the same time as the openers of one type are replaced with openers of another type, while the design of the upper staple will meet the requirements imposed by the type of openers used.

 According to another solution, the holder has a detachable flange connection, through which the bearing arm of the seed coulters is connected to the holder. Thanks to this, the bearing arm can be easily replaced together with the corresponding opener, while the bearing arm can be easily connected to the flange connection of the holder.

 To set the individual seed coulters in the same position relative to the drum type wheels, the flange connection has adjusting means for aligning the bearing arms and / or seed coulters with respect to the corresponding drum type wheels. A simple flange connection design is obtained when it is a screw connection.

 The problem is also solved thanks to the distinguishing features of an agricultural machine according to clause 16 of the formula. The proposed machine has high productivity and, among other things, provides good compaction of the soil prepared for sowing. The machine can be designed as a simple ordinary seeder or as a rolling ordinary seeder, and in both cases it can be equipped with leveling elements or agricultural implements and elements. Due to this multivariance, the agricultural combined soil cultivating machine can be easily and inexpensively equipped or refitted in accordance with the diverse requirements of agricultural practice. The machine may also be equipped with a means for removing traces of wheels, allowing you to remove and / or level the tracks of tractor wheels on the soil.

 To prepare the soil for sowing in one working cycle, in accordance with the requirements of agricultural practice, soil cultivating elements can be installed on the support frame, optionally in front or behind the running wheels. Tillage elements may be located in front and / or behind the tank. This provides, firstly, free access to the tank from the side, including when the side frame, equipped with tillage tools, is in the folded position, and facilitates loading of the tank. A second advantage of this design is that the tillage tools can be folded compactly and the machine will have a minimum width during transport.

 Tillage elements can be made in the form of trailed teeth or leveling elements.

 To ensure optimal weight distribution of the machine, the tank can be mounted on a support frame with the possibility of displacement by means of drive elements in the direction of movement and opposite direction.

 Due to the ability to move the tank, the tractor or press wheels and roller elements located behind the running wheels can have the optimum load that is required in specific circumstances.

 In a preferred embodiment, the roller elements consist of several drum-type wheels mounted with holders on the opener frame located transverse to the direction of travel, and seed coulters are mounted on the drum-type wheel holders with support arms. Due to this, the soil sections, compacted with drum-type wheels, are obtained in the form of strips, which creates an advantage for laying seeds in these sections and, therefore, very good conditions for their germination.

 The connecting means located on the rear side of the machine is configured to install various coulters and seeders on its support frame.

 In order to avoid the formation of undesirable traces of the machine’s running wheels on the soil, the connecting means located between the support frame and the coulter frame is designed so that the weight of the supporting frame, tank and agricultural implements that press on the running wheels can be fully or partially transferred to roller elements.

 In order to provide a simple actuation of the metering device, a drive element is mounted on the support frame, preferably in the form of a spike wheel, which drives the metering device connected to the reservoir.

 To simplify the adjustment of the length of the support frame or, accordingly, the tractor coupling device in accordance with the tillage tools mounted on the support frame, this frame has at least one disconnection point where an extension frame element can be inserted on which agricultural implements and / or tillage tools.

 In addition, it may be appropriate to mount the axle of the running wheels on the connecting means by which the support frame or the tractor towing device are supported on the soil. This provides an advantage when the articulated tractor is towed by an articulated tractor or a tractor with a low power three-point power lift. In this case, invalid pressure forces are not transmitted to the tractor.

Other features of the invention will become apparent from the remaining dependent claims and descriptions of examples of its implementation with reference to the drawings, in which:
figure 1 depicts a side agricultural machine having a seeder,
figure 2 schematically depicts a side view of the seeder on an enlarged scale,
figure 3 depicts a side front sowing unit of the seeder,
figure 4 depicts a side rear sowing unit,
5 schematically depicts a seeder in a top view,
FIG. 6 shows a seeder with disc sowing coulters for sowing with mulching,
Fig.7 depicts a seeder with standard coulters, Fig.8 depicts a seeder with disc coulters of light design,
FIG. 9 shows a seeder with seed coulters corresponding to FIG. 6, but with a flange connection of a different design,
FIG. 10 shows a seeder corresponding to FIG. 9, but containing another structural unit with standard seed coulters,
11 depicts a side view of an agricultural machine,
12 depicts another embodiment of an agricultural machine,
13 shows a further embodiment of an agricultural machine, and
Fig depicts another embodiment of an agricultural machine.

 Seeder 1 is part of an agricultural machine. The machine contains a support frame 2, which is supported by the running wheels 3 and can be connected with the connecting means 5 of the tractor coupling device 6 with an agricultural tractor (not shown). In front of the support frame 2, an agricultural implement 7 is installed, comprising a leveling beam 8, a soil roller 9, tillage tines 10 and a scraper 11. A seeder 1 is mounted on a support frame 2 behind the running wheels 3 by means of a three-point power lift with the possibility of lifting. On the back side of the support frame 2, there is a reservoir 13 containing a metering device and a pneumatic conveying and dispensing device 14, with which seeds and / or fertilizer located in the reservoir 13 are fed to the individual seed coulters 16 of the seeder 1 through the feed tubes 15.

 A coulter frame 19 is mounted on the connecting means 17, transverse to the direction of movement 18. Roller elements 20 are mounted on the coulter frame 19, consisting of drum-type wheels 21 located next to each other with the possibility of moving one to another in the vertical direction independently of each other. The wheels 21 are connected to the coulter frame 19 by means of parallelogram-shaped holders 22 and hinges 23. The upper clip 22 'of the holder 22 has a compression spring 24 so that the upper holder can be displaced when pushing.

 Drum type wheels 21 are arranged in two transverse rows, one row after another. At the rear of each wheel 21 there are two sowing coulters 16 made in the form of single-disc coulters. The coulters are mounted on the holders 22 of the running wheels 21 with the support arms 25, which are pressed against the soil by pressure springs 24 located on the upper brackets 22 'of the holders, and when struck by stones, they can be pulled up, turning around the hinge axis 26 to overcome the force of the springs 24 when pushing the upper staples 22 '. The holder 22 of the wheels 21 of the drum type is connected with the adjusting means 27 for installing the seed coulters 16 at the same height relative to the wheels 21.

 On the supporting shoulders of 25 sowing coulters 16 behind them, scrapers 29 are installed.

 The sowing coulters 16 are mounted on the holders 22 of the wheels 21 with the help of the supporting arms 25 so that when they hit the obstacles in the soil, they can be pulled upward relative to the wheels 21, overcoming the force of the spring devices 24.

 Between the holders 22 of the wheels 21 of the drum type and the connecting elements 17 or, respectively, the coulter frame 19, spring devices 28 are installed in the form of hydraulic cylinders. By means of spring devices 28, part of the weight of the support frame 2 and the reservoir 13 can be transferred to the wheels 21 of the roller elements 20. The hydraulic cylinders 28 are connected to each other through lines, so the wheels 21 evenly press down the soil, including in areas whose surface has an undulation in the direction transverse to the direction of movement 18, which provides a good and uniform depth of the openers 16.

 The length of the upper guide beam 12 'of the three-point power lift 12 can be adjusted. Thus, the coulter frame 19 can be rotated about an axis located across the direction of movement 18 and set in the desired position. Thereby, the depth of 4 sowing coulters 16 is set in the soil, and, therefore, the depth of laying the seeds in the soil. By means of forward-moving wheels 21 of the drum type, the exact position of the seed coulters 16 in height is ensured, which allows for easy movement of the coulters, even at high speeds.

 Disc sowing coulters 16 can be replaced with other types of coulters, for example double disc coulters, standard seed coulters, etc. Swivel joints by means of which the supporting arms 25 are mounted on the holders 22 of the wheels 21 can be made as connecting means.

 The seeder 30 shown in FIG. 6, like the seeder 1, is part of an agricultural machine. Drum type wheels 21 are mounted on the coulter frame 19 by means of holders 22 in the form of a parallelogram. The holder 22 has a lower clamp and an upper clamp 22 ', combined with a spring 24, as well as a rear link 31, pivotally connected to the upper clamp 22' through the flange plate 32. The flange plate is part of a detachable flange connection 33, through which the carrier arm 34 seed The opener 16 is mounted on the holder 22 of the wheels 21 of the drum type.

 Flange connection 33 is made in the form of a screw connection.

 By loosening the two screws 35 of the screw connection 33, the support arm 34 with the heavy-duty disc seed coulters 16 for mowing can be removed and replaced with the support arm 36 with the standard seed coulters 37 (Fig. 7) or shoe type coulters or the support arm 38 sec light sowing coulters 39 light design (Fig).

 The flange connection 33 serves as an adjustment device for aligning the bearing arms 34 and the seed coulters 16 with the respective drum wheels 21 so that all coulters 16 are in the same position with respect to the respective wheels 21. For ease of adjustment, one of the mounting holes in the flange plate 32 or in the supporting arm 34 is oblong.

 The embodiment shown in FIGS. 9 and 10 differs from the options shown in FIGS. 6 and 8 in that the flange plate 40, located at the rear rod 31 of the holder 22, having the shape of a parallelogram, does not simultaneously serve to fasten the upper clamp 22 'of the holder 22. Here, the bearing arm 41 and the upper clamp 22' are made as a single structural unit. If the disc sowing coulter shown in Fig. 9 is replaced, for example, with a shoe-type coulter or the standard seed coulter 37 shown in Fig. 10, then unscrew the screw connection 35 of the detachable flange connection 42 and replace the bearing arm 41 with the upper clip 22 ', constituting a single unit, on the bearing arm 41 with the seed coulter 37 and the upper staple 43, also forming a single structural unit.

 11 shows an agricultural machine intended for sowing with mulching. The machine includes an elongated support frame 101, which can be supported on the ground 103 by the running wheels 102. During tillage, the running wheels 102 are lifted off the ground so that they do not leave any marks. The support frame 101 has at the front end a pulling and connecting means 104 for connecting to the power lift of the agricultural tractor. On the connecting means 104 mounted parking supports 105, adjustable in height. In addition, on the connecting means 104, behind the tractor wheels, there are elements 106 for removing traces from the tractor, which are track gauges.

 The support frame 101 has a separation point 107 at the front where the flanges 108 are located, which allows extension elements 109 to be inserted into the frame 101 to adjust the length of the machine in accordance with specific requirements.

 A tank 110 is located on the support frame 101, having two metering elements 111 in its lower part, which can be driven by a drive element made in the form of a spike wheel 112, through transmission means (not shown) with the possibility of adjustment. The spikes located on the circumference of the wheel 112 pierce the soil, making it move at the same speed as the machine itself. A spike wheel is used as a drive element of the metering devices so that the operation of the metering devices does not depend on the speed of the machine.

 On the rear side of the support frame 101, there is a connecting means 114 for attaching seed drills 115, which can be raised and lowered by hydraulic elements 113.

 The material in the reservoir 110 is supplied to the seeder 115 through conveyor lines 117 into which compressed air from the fan 116 can be supplied, and the metering devices 111 can be adjusted using dispensing heads 118 and dispensing pipes 119.

 On the extension element 109 of the support frame 101, on its front side in front of the reservoir 110, an agricultural implement 120 is installed containing tillage elements 121, for example, in the form of trailed teeth. Behind the reservoir 110, an agricultural implement is installed, which is soil cultivating elements in the form of leveling elements 122, for example, a leveling beam. The arrangement of the tillage elements in front and behind the tank 110 is particularly advantageous for tillage machines having a large working width. In this case, the tillage elements are located on the retractable side frames and the side parts of the machine can be folded compactly together with the tillage elements in the transport position, providing a smaller width during transportation.

 A seeder 115 containing sowing coulters 123 and roller elements 124, i.e., a soil roller, is mounted on a connecting means 114. The roller elements 124 consist of drum wheels 125 located next to each other with the possibility of moving one to another in the vertical direction independently apart from each other. The wheels 125 are connected to the coulter frame 128 by means of parallelogram holders 126 and hinges 127. The upper clip 129 of the holder 126 has a compression spring 130 and therefore can be displaced when pushing.

 Drum type wheels 125 are arranged in two transverse rows, one after the other. At the rear of each wheel 125, two seed coulters 123 are mounted in the form of single-disc coulters. Sowing coulters are mounted on wheel holders 126 by means of bearing arms 131, which are pressed against the soil 103 by the pressure spring 130 of the upper bracket 129 and when struck by stones, they can be pulled upward, turning around the hinge axis, overcoming the force of the spring 130 when pressing on the bracket 129. The wheel holders 125 of the drum type are associated with adjusting means for mounting the seed coulters 123 at the same height with respect to the wheels.

 Between the wheel holders 125 of the drum type and the connecting elements or the coulter frame 128, spring devices are arranged in the form of hydraulic cylinders 132. By means of these spring devices, the weight of the support wound 101 and the reservoir 110 can be transferred to the wheels 125 of the drum type, while the connecting means 114 is loaded through its hydraulic cylinder 113 and running wheels 102 are raised and retracted from the soil. Since the hydraulic cylinders 132 are interconnected by lines, drum-type wheels 125 uniformly pressurize the soil 103, including in areas with irregularities in the direction transverse to the direction of movement, which ensures good and uniform depth sowing coulters.

 Tillage elements 121 process the soil, and leveling elements 122 level it. Wheels 125 press down the soil 103, which allows the seed coulters 123 to plant seeds in compacted tracks. Thanks to the special design of the seed coulters, high drive and working speeds can be achieved, which ensures high productivity.

 The agricultural machine shown in FIG. 12 is different from the machine according to FIG. 11 in that there are no agricultural implements on the support frame 101, i.e. This machine is designed as a single row seed drill. In order to obtain the machine as compact as possible, the support frame 101 does not have an extension element 109 shown in FIG. 11, and the connecting element 104 is located adjacent to the reservoir 110, so that the machine has a relatively short length. Another flange connection may also be provided in the support frame at the rear side of the reservoir 110 for connecting and disconnecting extension members, so that another short construction can be obtained.

 The difference between the machine shown in FIG. 13 and the machine according to FIG. 11 is that another seeder 133 is installed on the connecting means 114, comprising a conical ring roller 134 for compaction of the soil and a seed coulter 135 included in the compacted track on the soil. If the running wheels 102 do not rise above the ground, means 136 are provided for removing traces located behind the running wheels.

 The machine according to FIG. 14 differs from the machine shown in FIG. 11 in that the standard seed coulters 135 that do not have an associated roller are mounted on the connecting means.

 If necessary, the connecting means 114 in FIGS. 11-14 can be replaced by a supporting element with two running wheels (not shown), so that the connecting means 114 will rest on the soil 103 with the running wheels 102 and the weight will not be transferred to the tractor. The reservoir 110 can be mounted on a support frame using fasteners (not shown) with the possibility of displacement in the direction of movement of the machine and the opposite direction, which allows you to obtain the optimal position of the center of gravity of the machine. Such a displacement may be effected by appropriate drive elements, for example hydraulic cylinders (not shown).

Claims (22)

 1. A seeder containing roller elements, consisting of several drum-type wheels mounted next to each other with the possibility of moving one to another in the vertical direction independently from each other, and seed coulters associated with these wheels, and the drum-type wheels are connected by holders with a coulter frame located transverse to the direction of movement, characterized in that the seed coulters (16) are mounted on the holders (22) of the wheels (21) of the drum type behind these wheels using load-bearing arms (25).  2. A seeder according to claim 1, characterized in that the seed coulters (16) are also mounted using articulated joints and can be pressed to the soil (4) by means of spring devices (24) located on the upper clamps of the holders (22).  3. A seeder according to claim 1, characterized in that the holders (22) of the wheels (21) of the drum type are in the form of a parallelogram.  4. A seeder according to claim 1, characterized in that two seed coulters (16) are connected to each drum-type wheel (21).  5. A seeder according to claim 1, characterized in that the seed coulters (16) are made in the form of single-disc coulters.  6. A seeder according to claim 1, characterized in that adjustment means (27) are located between the holders (22) of the drum type wheels (21) and the supporting arms (25) of the seed coulters (16).  7. The seeder according to claim 6, characterized in that the adjusting means is an adjustable latch.  8. A seeder according to claim 1, characterized in that the seed coulters (16) are mounted on the holders (22) of the drum type wheels (21) with the support arms (25) so that they can be pulled upward relative to the drum type wheels (21) with overcoming the force of spring devices (24).  9. A seeder according to claim 1, characterized in that the holders (22) having the shape of a parallelogram are connected with the coulter frame (19) located across the direction of movement with hinges (23), and the coulter frame (19) can be connected using connecting means with a lifting device (12), can be rotated around an axis passing across the direction of movement (18), and can be adjusted for installation in various positions using connecting means.  10. A seeder according to claim 1, characterized in that on the holders (22) of the wheels (21) of the drum type can be installed optionally, with the possibility of replacement, sowing coulters of various types.  11. A seeder according to claim 1, characterized in that the upper clamp (22 ', 43) of the holder (22), having the shape of a parallelogram, and the corresponding bearing arm (41) of the seed coulters (16,37) are combined into a structural unit connected by detachable connection (42) with another holder (31) of wheels (21) of drum type.  12. A seeder according to claim 1 and / or 11, characterized in that the holder (22.31) has a detachable flange connection (33), through which the supporting arm (34.36) of the seed coulters (16.37.39) is connected with holder (22.31).   13. A seeder according to claim 12, characterized in that the flange connection (33) has adjustment means for aligning the bearing arms (34) and / or seed coulters (16) with respect to the corresponding drum type wheels (21).  14. A seeder according to claim 11 or 12, characterized in that the detachable connection is a screw connection (33.42).  15. Seeder according to claim 11 or 12, characterized in that there are at least two different structural units and / or supporting arms with seed coulters (16,37,39), which can be connected via a detachable connection (33,42) of the seeder (30) replaceable.  16. An agricultural machine comprising at least one support frame supporting a reservoir with a driving mechanism including driving wheels, and a tractor coupling device, and at least one seeder mounted on a support frame behind the running wheels, characterized in that the seeder (115 ) is a seeder according to claim 1 and is mounted on a support frame (101) with the help of connecting means (114), which can be raised and lowered, while the running wheels (102) can be lifted from the soil using connecting means (113,114) or from a lifting device, and between the roller elements (124) and the coulter frame (128) of the seeder (115), spring devices (132) are located.  17. An agricultural machine according to claim 16, characterized in that tillage elements (120,121) can be mounted on the support frame (101), optionally in front or behind the running wheels (102).  18. An agricultural machine according to claim 17, characterized in that the tillage elements (120,121) are located in front and / or behind the tank (110).  19. An agricultural machine according to claim 17, characterized in that the tillage elements (120) are made in the form of trailed teeth (121) and / or leveling elements (122).  20. An agricultural machine according to claim 16, characterized in that the elements (106) are connected with it for removing traces from the tractor.  21. The agricultural machine according to claim 16, characterized in that the holders of the wheels (125) of the drum type are in the form of a parallelogram.  22. An agricultural machine according to claim 16, characterized in that two sowing coulters (123) are connected to each drum wheel (125). Priority on points:
02/04/98 for PP. 1-10;
02.17.98 PP 11-15;
12/04/98 16-22.

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