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US20130213676A1 - Row Unit For Agricultural Implement - Google Patents

Row Unit For Agricultural Implement Download PDF

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Publication number
US20130213676A1
US20130213676A1 US13/842,642 US201313842642A US2013213676A1 US 20130213676 A1 US20130213676 A1 US 20130213676A1 US 201313842642 A US201313842642 A US 201313842642A US 2013213676 A1 US2013213676 A1 US 2013213676A1
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United States
Prior art keywords
row unit
fluid
frame
linkage
row
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
US13/842,642
Inventor
Joseph D. Bassett
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Deere and Co
Original Assignee
Dawn Equipment Co
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Filing date
Publication date
Application filed by Dawn Equipment Co filed Critical Dawn Equipment Co
Priority to US13/842,642 priority Critical patent/US20130213676A1/en
Assigned to DAWN EQUIPMENT COMPANY reassignment DAWN EQUIPMENT COMPANY ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: BASSETT, JOSEPH D.
Publication of US20130213676A1 publication Critical patent/US20130213676A1/en
Assigned to DEERE & COMPANY reassignment DEERE & COMPANY ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: DAWN EQUIPMENT COMPANY, INC.
Abandoned legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01BSOIL WORKING IN AGRICULTURE OR FORESTRY; PARTS, DETAILS, OR ACCESSORIES OF AGRICULTURAL MACHINES OR IMPLEMENTS, IN GENERAL
    • A01B63/00Lifting or adjusting devices or arrangements for agricultural machines or implements
    • A01B63/14Lifting or adjusting devices or arrangements for agricultural machines or implements for implements drawn by animals or tractors
    • A01B63/24Tools or tool-holders adjustable relatively to the frame
    • A01B63/32Tools or tool-holders adjustable relatively to the frame operated by hydraulic or pneumatic means without automatic control
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01BSOIL WORKING IN AGRICULTURE OR FORESTRY; PARTS, DETAILS, OR ACCESSORIES OF AGRICULTURAL MACHINES OR IMPLEMENTS, IN GENERAL
    • A01B33/00Tilling implements with rotary driven tools, e.g. in combination with fertiliser distributors or seeders, with grubbing chains, with sloping axles, with driven discs
    • A01B33/02Tilling implements with rotary driven tools, e.g. in combination with fertiliser distributors or seeders, with grubbing chains, with sloping axles, with driven discs with tools on horizontal shaft transverse to direction of travel
    • A01B33/021Tilling implements with rotary driven tools, e.g. in combination with fertiliser distributors or seeders, with grubbing chains, with sloping axles, with driven discs with tools on horizontal shaft transverse to direction of travel with rigid tools
    • A01B33/024Tilling implements with rotary driven tools, e.g. in combination with fertiliser distributors or seeders, with grubbing chains, with sloping axles, with driven discs with tools on horizontal shaft transverse to direction of travel with rigid tools with disk-like tools
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01BSOIL WORKING IN AGRICULTURE OR FORESTRY; PARTS, DETAILS, OR ACCESSORIES OF AGRICULTURAL MACHINES OR IMPLEMENTS, IN GENERAL
    • A01B61/00Devices for, or parts of, agricultural machines or implements for preventing overstrain
    • A01B61/04Devices for, or parts of, agricultural machines or implements for preventing overstrain of the connection between tools and carrier beam or frame
    • A01B61/044Devices for, or parts of, agricultural machines or implements for preventing overstrain of the connection between tools and carrier beam or frame the connection enabling a yielding pivoting movement around a substantially horizontal and transverse axis
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01BSOIL WORKING IN AGRICULTURE OR FORESTRY; PARTS, DETAILS, OR ACCESSORIES OF AGRICULTURAL MACHINES OR IMPLEMENTS, IN GENERAL
    • A01B61/00Devices for, or parts of, agricultural machines or implements for preventing overstrain
    • A01B61/04Devices for, or parts of, agricultural machines or implements for preventing overstrain of the connection between tools and carrier beam or frame
    • A01B61/044Devices for, or parts of, agricultural machines or implements for preventing overstrain of the connection between tools and carrier beam or frame the connection enabling a yielding pivoting movement around a substantially horizontal and transverse axis
    • A01B61/046Devices for, or parts of, agricultural machines or implements for preventing overstrain of the connection between tools and carrier beam or frame the connection enabling a yielding pivoting movement around a substantially horizontal and transverse axis the device including an energy accumulator for restoring the tool to its working position
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01BSOIL WORKING IN AGRICULTURE OR FORESTRY; PARTS, DETAILS, OR ACCESSORIES OF AGRICULTURAL MACHINES OR IMPLEMENTS, IN GENERAL
    • A01B63/00Lifting or adjusting devices or arrangements for agricultural machines or implements
    • A01B63/002Devices for adjusting or regulating the position of tools or wheels
    • A01B63/008Vertical adjustment of tools
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01BSOIL WORKING IN AGRICULTURE OR FORESTRY; PARTS, DETAILS, OR ACCESSORIES OF AGRICULTURAL MACHINES OR IMPLEMENTS, IN GENERAL
    • A01B63/00Lifting or adjusting devices or arrangements for agricultural machines or implements
    • A01B63/02Lifting or adjusting devices or arrangements for agricultural machines or implements for implements mounted on tractors
    • A01B63/10Lifting or adjusting devices or arrangements for agricultural machines or implements for implements mounted on tractors operated by hydraulic or pneumatic means
    • A01B63/111Lifting or adjusting devices or arrangements for agricultural machines or implements for implements mounted on tractors operated by hydraulic or pneumatic means regulating working depth of implements
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01BSOIL WORKING IN AGRICULTURE OR FORESTRY; PARTS, DETAILS, OR ACCESSORIES OF AGRICULTURAL MACHINES OR IMPLEMENTS, IN GENERAL
    • A01B63/00Lifting or adjusting devices or arrangements for agricultural machines or implements
    • A01B63/14Lifting or adjusting devices or arrangements for agricultural machines or implements for implements drawn by animals or tractors
    • A01B63/24Tools or tool-holders adjustable relatively to the frame
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01CPLANTING; SOWING; FERTILISING
    • A01C7/00Sowing
    • A01C7/20Parts of seeders for conducting and depositing seed
    • A01C7/201Mounting of the seeding tools
    • A01C7/205Mounting of the seeding tools comprising pressure regulation means
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S111/00Planting
    • Y10S111/927Parallelogram mounting

Definitions

  • the present invention relates to agricultural implements and, more particularly, to an agricultural row unit for use with agricultural implements such as planting row units.
  • Air bags have been used to urge row units downward.
  • Recently air bag systems have been used to overcome some of the drawbacks to air spring systems. Air systems provide a more uniform down force through the vertical range of travel, compared to springs, and are somewhat easier to adjust than springs. However due to the compressibility of air and the relatively large volumes required, changes in air pressure are very cumbersome and not adaptable to very fast change and response to in-cab controls on the go. Air bag systems typically have a very large cross-sectional area in relation to the hose feeding the air spring with pressure, which can provide a large multiplication of force and allow for relatively good isolation of one row unit relative to another. However, air bag systems typically do not allow for rapid change of the force being applied, because of the large volume of the air spring in relation to the cross section of the hose supplying the air.
  • An air spring can allow for remote adjustment of the planter down pressure without stopping the forward motion of the implement, which is inefficient.
  • Mechanical springs have historically required that the operator stop the implement, get out of the tractor, and make a manual adjustment.
  • the slow rate at which an air spring system can be inflated or deflated means that even if a GPS system determines that a change needs to be made because of a programmed or sensed change in the local soil composition or conditions, by the time the pump can change the air pressure the implement has already moved too far forward of where the change needed to be made. This forces the average grid size in which active adjustments of the planter down pressure can be made to be quite large.
  • an agricultural row unit for use with a towing frame hitched to a tractor includes an attachment frame adapted to be rigidly connected to the towing frame, a linkage pivotably coupled to the attachment frame, and a row unit frame having a leading end pivotably coupled to the linkage to permit vertical pivoting movement of the row unit frame relative to the attachment frame.
  • At least a furrow-forming device is mounted on the row unit frame.
  • a hydraulic cylinder coupled to the attachment frame and the linkage, for urging the row unit frame downwardly toward the soil includes a movable ram extending into the cylinder, and a hydraulic-fluid cavity within the cylinder for receiving pressurized hydraulic fluid for advancing the ram in a direction that pivots the linkage and the row unit frame downwardly toward the soil.
  • An accumulator positioned adjacent to the hydraulic cylinder has a fluid chamber containing a diaphragm, with the portion of the chamber on one side of the diaphragm being connected to the hydraulic-fluid cavity in the hydraulic cylinder, and the portion of the chamber on the other side of the diaphragm containing a pressurized gas.
  • FIG. 1 is a perspective view of a planting row unit attached to a towing frame.
  • FIG. 2 is a partially sectioned side elevation of the planting row unit of FIG. 1 with the linkage that connects the row unit to the towing frame in a level position.
  • FIG. 3 is the same side elevation shown in FIG. 1 but with the linkage tilted upwardly to move the row unit to a raised position.
  • FIG. 4 is the same side elevation shown in FIG. 1 but with the linkage tilted downwardly to move the row unit to a lowered position.
  • FIG. 5 is a top plan view of the hydraulic cylinder and accumulator unit included in the row unit of FIGS. 1-4 .
  • FIG. 6 is a vertical section taken along line 11 - 11 in FIG. 10 .
  • FIG. 7 is a side elevation of the unit shown in FIGS. 5 and 6 connected to a pair of supporting elements, with the support structures and the connecting portions of the hydraulic cylinder shown in section.
  • FIGS. 8A and 8B are enlarged cross sectional views of the supporting structures shown in section in FIG. 7 .
  • FIG. 9 is an enlarged perspective of the right-hand end portion of FIG. 1 with a portion of the four-bar linkage broken away to reveal the mounting of the hydraulic cylinder/accumulator unit.
  • FIG. 10 is a schematic diagram of a first hydraulic control system for use with the row unit of FIGS. 1-9 .
  • FIG. 11 is a schematic diagram of a second hydraulic control system for use with the row unit of FIGS. 1-9 .
  • FIG. 12 is a diagram illustrating one application of the hydraulic control system of FIG. 11 .
  • a planting row unit 10 includes a furrow-opening device for the purpose of planting seed or injecting fertilizer into the soil.
  • the furrow-opening device is a V-opener 11 formed by a pair of conventional tilted discs depending from the leading end of a row unit frame 12 .
  • a conventional elongated hollow towing frame 13 (typically hitched to a tractor by a draw bar) is rigidly attached to the front frame 14 of a conventional four-bar linkage assembly 15 that is part of the row unit 10 .
  • the four-bar (sometimes referred to as “parallel-bar”) linkage assembly 15 is a conventional and well known linkage used in agricultural implements to permit the raising and lowering of tools attached thereto.
  • the V-opener 11 penetrates the soil to form a furrow or seed slot. Other portions of the row unit 10 then deposit seed in the seed slot and fertilizer adjacent to the seed slot, and close the seed slot by distributing loosened soil into the seed slot with a pair of closing wheels 16 .
  • a gauge wheel 17 determines the planting depth for the seed and the height of introduction of fertilizer, etc.
  • Bins 18 a and 18 b on the row unit carry the chemicals and seed which are directed into the soil.
  • the planting row unit 10 is urged downwardly against the soil by its own weight, and, in addition, a hydraulic cylinder 19 is coupled between the front frame 14 and the linkage assembly 15 to urge the row unit 11 downwardly with a controllable force that can be adjusted for different soil conditions.
  • the hydraulic cylinder 19 may also be used to lift the row unit off the ground for transport by a heavier, stronger, fixed-height frame that is also used to transport large quantities of fertilizer for application via multiple row units.
  • the hydraulic cylinder 19 is shown in more detail in FIGS. 5 and 6 .
  • Pressurized hydraulic fluid from the tractor is supplied by a hose 20 to a port 21 that leads into a matching port 22 of a housing 23 that forms a cavity 24 of a hydraulic cylinder containing a ram 25 .
  • the housing 23 also forms a side port 26 a that leads into cavity 26 b that contains a gas-charged hydraulic accumulator 27 .
  • the lower end of the cavity 24 is formed by the top end surface of the ram 25 , so that the hydraulic pressure exerted by the hydraulic fluid on the end surface of the ram 25 urges the ram downwardly (as viewed in FIG. 6 ), with a force determined by the pressure of the hydraulic fluid and the area of the exposed end surface of the ram 25 .
  • the hydraulic fluid thus urges the ram 25 in an advancing direction (see FIG. 4 ).
  • the hydraulic cylinder 19 and the accumulator 27 are mounted as a single unit on the front frame 14 , with the lower end of the ram 25 connected to a cross bar 30 that is joined at one end to a vertical link 31 .
  • the upper and lower ends of the link 31 are pivotably attached to upper and lower links 15 a and 15 b, respectively, on one side of the four-bar linkage 15 .
  • the other end of the cross bar 30 is angled upwardly and pivotably attached to the upper link 15 c on the opposite side of the four-bar linkage 15 .
  • the accumulator 27 includes a diaphragm 28 that divides the interior of the accumulator into a hydraulic-fluid chamber 29 a and a gas-filled chamber 29 b, e.g., filled with pressurized nitrogen.
  • FIG. 2 shows the ram 25 in a position where the diaphragm 28 is not deflected in either direction, indicating that the pressures exerted on opposite sides of the diaphragm are substantially equal.
  • FIG. 3 the ram 25 has been retracted by upward movement of the row unit, and the diaphragm 28 is deflected downwardly by the hydraulic fluid forced into the accumulator 27 by the retracting movement of the ram 25 .
  • FIG. 3 shows the ram 25 in a position where the diaphragm 28 is not deflected in either direction, indicating that the pressures exerted on opposite sides of the diaphragm are substantially equal.
  • FIG. 3 the ram 25 has been retracted by upward movement of the row unit, and the
  • the ram 25 has been withdrawn to its most retracted position, which can occur when the row unit encounters a rock or other obstruction, for example.
  • the row unit is in its uppermost position.
  • retracting movement of the ram 25 is limited by engagement of stops 41 , on the lower links of the four-bar linkage 15 , with the row unit frame 12 .
  • Retracting movement of the ram 25 reduces the volume of the cavity 24 (see FIG. 3 ), which causes a portion of the fixed volume of hydraulic fluid in the cylinder 19 to flow into the chamber 29 a of the accumulator 27 , causing the diaphragm 28 to deflect to the position illustrated in FIG. 3 .
  • This deflection of the diaphragm 28 into the chamber 29 b compresses the gas in that chamber.
  • the hydraulic fluid To enter the chamber 29 a, the hydraulic fluid must flow through a port 32 in the top of the accumulator 27 , which limits the rate at which the hydraulic fluid flows into the accumulator.
  • This controlled rate of flow of the hydraulic fluid has a damping effect on the rate at which the ram 25 retracts or advances, thereby avoiding sudden large movements of the moving parts of the row unit, including the V-opener 11 .
  • the single unitary housing 23 forms both the cavity 26 b that contains the accumulator 27 and the cavity 24 of the hydraulic cylinder 19 and the fluid passageway 24 that connects the cavity 24 of the hydraulic cylinder 19 to the cavity 27 of the accumulator.
  • the accumulator 27 which is by definition an energy storage device, to be mounted in a fully enclosed and safe housing.
  • the accumulator 27 can be securely mounted to avoid puncture or rapid discharge (if it comes loose), or damage from hitting another part of the implement or a foreign object.
  • the integrated cylinder and accumulator is also a convenient single package for installation and replacement and minimizes the number of hydraulic hoses and adapters (potential leakage points).
  • FIGS. 7 , 8 A and 8 B illustrate in more detail how the illustrative hydraulic cylinder/accumulator unit is attached to the front frame 14 and the linkage assembly 15 .
  • the top of the unitary housing 23 forms a stem 41 that projects upwardly through a hole 51 in a bracket 50 attached to the front frame 14 .
  • the outer surface of the stem 41 is threaded to receive a nut 52 that connects the housing 23 to the bracket 50 .
  • the hole 51 is oversized and a rubber washer 52 a is installed on the stem 41 between the nut 52 and the bracket 50 to allow a limited amount of tilting movement of the housing relative to the bracket 50 .
  • the housing 23 forms a shoulder 42 that engages a conical bearing ring 53 that also engages a mating lower surface of a washer 54 .
  • the housing 23 can be tilted relative to the axis of the hole 51 , with the shoulder 42 sliding over the lower surface of the bearing ring 53 .
  • a similar arrangement is provided at the lower end of the ram 25 , where a stem 60 extends downwardly through a hole 61 in the cross bar 30 that is pivotably attached to the linkage assembly 15 .
  • a nut 62 is threaded onto the stem 60 to connect the ram to the cross bar 30 .
  • the hole 61 is oversized and a rubber washer 62 a is installed on the stem 60 between the nut 62 and the cross bar 30 to allow a limited amount of tilting movement of the ram 25 relative to the cross bar 30 .
  • a flange 63 on the ram 25 forms a curved conical surface 64 that engages a mating surface of a curved conical bearing ring 65 that also engages a mating upper surface of a washer 66 .
  • the ram 25 can be tilted relative to the axis of the hole 61 , with the flange 63 sliding over the upper surface of the bearing ring 65 .
  • the use of a hydraulic system permits on-the-go adjustments to be made very rapidly because the hydraulic fluid is incompressible and therefore acts more directly than an air system.
  • hydraulic fluids typically operate at higher pressures, which allows greater changes in applied forces.
  • the accumulator 27 allows the fluid system to flex and float with the changing terrain and soil conditions.
  • the accumulator 27 is preferably centrally mounted so that when any single row unit moves over an obstruction, the down-pressure cylinder 19 moves to displace the hydraulic fluid along a common set of lines connecting all row units.
  • the gas in the accumulator is compressed at the same time, allowing for isolation among the row units so that upward movement of one row unit does not cause downward movement of other row units.
  • the illustrative hydraulic ram is single-acting, it is also possible to use a double-acting ram, or a single-acting ram in combination with a return spring.
  • the compact hydraulic cylinder/accumulator unit can conveniently mounted to the same brackets that are provided in many row units for mounting an air bag, to control the down pressure on the row unit.
  • the brackets 50 and 51 on which the hydraulic cylinder/accumulator is mounted are the brackets that are often connected to an air bag, and thus the same row unit can be used interchangeably with either an air bag or the hydraulic cylinder/accumulator to control the down pressure on the row unit.
  • FIG. 10 is a schematic of a hydraulic control system for supplying pressurized hydraulic fluid to the cylinders 19 of multiple row units.
  • a source 100 of pressurized hydraulic fluid typically located on a tractor, supplies hydraulic fluid under pressure to a valve 101 via supply line 102 and receives returned fluid through a return line 103 .
  • the valve 101 can be set by an electrical control signal S 1 on line 104 to deliver hydraulic fluid to an output line 105 at a desired constant pressure.
  • the output line is connected to a manifold 106 that in turn delivers the pressurized hydraulic fluid to individual feed lines 107 connected to the ports 71 of the respective hydraulic cylinders 19 of the individual row units.
  • the valve 101 is turned off, preferably by a manually controlled on/off valve V, after all the cylinders 19 have been filled with pressurized hydraulic fluid, to maintain a fixed volume of fluid in each cylinder.
  • FIG. 11 is a schematic of a modified hydraulic control system that permits individual control of the supply of hydraulic fluid to the cylinder 19 of each separate row unit via feed lines 107 connected to the ports 71 of the respective cylinders 19 .
  • Portions of this system that are common to those of the system of FIG. 10 are identified by the same reference numbers.
  • the difference in this system is that each separate feed line 107 leading to one of the row units is provided with a separate control valve 110 that receives its own separate control signal on a line 111 from a controller 112 .
  • This arrangement permits the supply of pressurized hydraulic fluid to each row unit to be turned off and on at different times by the separate valve 110 for each unit, with the times being controlled by the separate control signals supplied to the valves 110 by the controller 112 .
  • the individual valves 110 receive pressurized hydraulic fluid via the manifold 106 , and return hydraulic fluid to a sump on the tractor via separate return line 113 connected to a return manifold 114 connected back to the hydraulic system 100 of the tractor.
  • the hydraulic cylinder 19 of each row unit can also be separately controlled to turn off the supply of pressurized hydraulic fluid at a different time for each row unit, so that each row unit is raised just as it enters the headland, to avoid disrupting the rows already planted in the headland.
  • FIG. 11 One benefit of the system of FIG. 11 is that as agricultural planters, seeders, fertilizer applicators, tillage equipment and the like become wider with more row units on each frame, often 36 30-inch rows or 54 20-inch rows on a single 90-foot wide toolbar, each row unit can float vertically independently of every other row unit. Yet the following row units still have the down force remotely adjustable from the cab of the tractor or other selected location. This permits very efficient operation of a wide planter or other agricultural machine in varying terrain without having to stop to make manual adjustment to a large number of row units, resulting in a reduction in the number of acres planted in a given time period. One of the most important factors in obtaining a maximum crop yield is timely planting.
  • each row unit or group of units
  • the ability to quickly release all down force and let the row cleaner quickly rise e.g., when approaching a wet spot in the field
  • the toolbar-frame-mounted row unit permits the planter row unit following independently behind to use less down force for its function, resulting in more uniform seed depth control and more uniform seedling emergence. More uniform seedling stands usually result in higher yields than less uniform seedling stands produced by planters with less accurate row cleaner ground following.
  • row unit refers to a unit that is attached to a towing frame in a way that permits the unit to move vertically relative to the towing frame and other units attached to that same towing frame. Most row units are equipped to form, plant and close a single seed furrow, but row units are also made to form, plant and close two or more adjacent seed furrows.

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  • Life Sciences & Earth Sciences (AREA)
  • Soil Sciences (AREA)
  • Environmental Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Zoology (AREA)
  • Lifting Devices For Agricultural Implements (AREA)
  • Soil Working Implements (AREA)

Abstract

An agricultural row unit for use with a towing frame hitched to a tractor includes an attachment frame adapted to be rigidly connected to the towing frame, a linkage pivotably coupled to the attachment frame, and a row unit frame having a leading end pivotably coupled to the linkage to permit vertical pivoting movement of the row unit frame relative to the attachment frame. A hydraulic cylinder coupled to the attachment frame and the linkage, for urging the row unit frame downwardly toward the soil, includes a movable ram extending into the cylinder, and a hydraulic-fluid cavity within the cylinder for receiving pressurized hydraulic fluid for advancing the ram in a direction that pivots the linkage and the row unit frame downwardly toward the soil. An accumulator positioned adjacent to the hydraulic cylinder has a fluid chamber containing a diaphragm, with the portion of the chamber on one side of the diaphragm being connected to the hydraulic-fluid cavity in the hydraulic cylinder, and the portion of the chamber on the other side of the diaphragm containing a pressurized gas.

Description

    FIELD OF THE INVENTION
  • The present invention relates to agricultural implements and, more particularly, to an agricultural row unit for use with agricultural implements such as planting row units.
  • BACKGROUND OF THE INVENTION
  • As an agricultural planter row unit travels across fields with variable soil types, soil moisture, residue levels and topography, it is difficult to maintain constant seed depth and other parameters due to changing conditions which would ideally require varying the row unit down force pressure. For example, farming with higher residue levels also requires higher row unit down force levels as row cleaners, coulters and other attachments require applied force to keep them in the ground and at consistent depths.
  • At the same time, in many locations there are immoveable rocks or other obstructions at or below the soil surface which require the planter row unit to be able to quickly and freely (without undue increase in the row unit down force) rise up and over the obstruction freely and then quickly move back down, leaving a minimum amount of the row unplanted. All this must be accomplished at ground speeds of 6 mph or more. Today's planters typically include many individual row units, at times up to 120 ft wide, each of which may be encountering rocks etc. or have a need to float up or down independently.
  • Traditionally springs have been used to urge row units downward. Recently air bag systems have been used to overcome some of the drawbacks to air spring systems. Air systems provide a more uniform down force through the vertical range of travel, compared to springs, and are somewhat easier to adjust than springs. However due to the compressibility of air and the relatively large volumes required, changes in air pressure are very cumbersome and not adaptable to very fast change and response to in-cab controls on the go. Air bag systems typically have a very large cross-sectional area in relation to the hose feeding the air spring with pressure, which can provide a large multiplication of force and allow for relatively good isolation of one row unit relative to another. However, air bag systems typically do not allow for rapid change of the force being applied, because of the large volume of the air spring in relation to the cross section of the hose supplying the air.
  • Prior attempts to use devices such as combination spring/hydraulic shock absorbers do not provide ready adjustment on the go and tend to increase in force when rapidly striking a foreign object such as a rock requiring the row unit to quickly rise and come back down to resume planting. This increase in force levels can cause damage to the planter row unit components.
  • Some previous down-force systems use a spring and a hydraulic cylinder in series. In these systems the hydraulic cylinder does not directly control row unit down force, but rather is used to vary the amount of spring pressure applied to each unit.
  • Other systems use hydraulics with a central accumulator. However, with the accumulator separated from the force creating cylinder, pressure spikes can develop when hitting obstructions such as a rock at high speed since oil must be forced through hoses or tubes to the remotely located accumulator. This is especially problematic on planters having 50 or more row units.
  • As computers and GPS systems have allowed crop production to be managed in a location-specific way as an implement moves through the field, it has become necessary to achieve more rapid changes in the setting or adjustment of the implement. In the case of a planter row unit, it is also necessary to generate a large amount of force. Each individual planter row unit must be able to react to the soil it encounters independently of the other row units.
  • An air spring can allow for remote adjustment of the planter down pressure without stopping the forward motion of the implement, which is inefficient. Mechanical springs have historically required that the operator stop the implement, get out of the tractor, and make a manual adjustment. The slow rate at which an air spring system can be inflated or deflated means that even if a GPS system determines that a change needs to be made because of a programmed or sensed change in the local soil composition or conditions, by the time the pump can change the air pressure the implement has already moved too far forward of where the change needed to be made. This forces the average grid size in which active adjustments of the planter down pressure can be made to be quite large.
  • SUMMARY OF THE INVENTION
  • In one embodiment, an agricultural row unit for use with a towing frame hitched to a tractor includes an attachment frame adapted to be rigidly connected to the towing frame, a linkage pivotably coupled to the attachment frame, and a row unit frame having a leading end pivotably coupled to the linkage to permit vertical pivoting movement of the row unit frame relative to the attachment frame. At least a furrow-forming device is mounted on the row unit frame. A hydraulic cylinder coupled to the attachment frame and the linkage, for urging the row unit frame downwardly toward the soil, includes a movable ram extending into the cylinder, and a hydraulic-fluid cavity within the cylinder for receiving pressurized hydraulic fluid for advancing the ram in a direction that pivots the linkage and the row unit frame downwardly toward the soil. An accumulator positioned adjacent to the hydraulic cylinder has a fluid chamber containing a diaphragm, with the portion of the chamber on one side of the diaphragm being connected to the hydraulic-fluid cavity in the hydraulic cylinder, and the portion of the chamber on the other side of the diaphragm containing a pressurized gas.
  • BRIEF DESCRIPTION OF THE DRAWINGS
  • The invention may best be understood by reference to the following description taken in conjunction with the accompanying drawings, in which:
  • FIG. 1 is a perspective view of a planting row unit attached to a towing frame.
  • FIG. 2 is a partially sectioned side elevation of the planting row unit of FIG. 1 with the linkage that connects the row unit to the towing frame in a level position.
  • FIG. 3 is the same side elevation shown in FIG. 1 but with the linkage tilted upwardly to move the row unit to a raised position.
  • FIG. 4 is the same side elevation shown in FIG. 1 but with the linkage tilted downwardly to move the row unit to a lowered position.
  • FIG. 5 is a top plan view of the hydraulic cylinder and accumulator unit included in the row unit of FIGS. 1-4.
  • FIG. 6 is a vertical section taken along line 11-11 in FIG. 10.
  • FIG. 7 is a side elevation of the unit shown in FIGS. 5 and 6 connected to a pair of supporting elements, with the support structures and the connecting portions of the hydraulic cylinder shown in section.
  • FIGS. 8A and 8B are enlarged cross sectional views of the supporting structures shown in section in FIG. 7.
  • FIG. 9 is an enlarged perspective of the right-hand end portion of FIG. 1 with a portion of the four-bar linkage broken away to reveal the mounting of the hydraulic cylinder/accumulator unit.
  • FIG. 10 is a schematic diagram of a first hydraulic control system for use with the row unit of FIGS. 1-9.
  • FIG. 11 is a schematic diagram of a second hydraulic control system for use with the row unit of FIGS. 1-9.
  • FIG. 12 is a diagram illustrating one application of the hydraulic control system of FIG. 11.
  • DETAILED DESCRIPTION OF ILLUSTRATED EMBODIMENTS
  • Although the invention will be described in connection with certain preferred embodiments, it will be understood that the invention is not limited to those particular embodiments. On the contrary, the invention is intended to cover all alternatives, modifications, and equivalent arrangements as may be included within the spirit and scope of the invention as defined by the appended claims.
  • Turning now to the drawings, a planting row unit 10 includes a furrow-opening device for the purpose of planting seed or injecting fertilizer into the soil. In the illustrated embodiment, the furrow-opening device is a V-opener 11 formed by a pair of conventional tilted discs depending from the leading end of a row unit frame 12. It will be understood that other furrow-opening devices may be used. A conventional elongated hollow towing frame 13 (typically hitched to a tractor by a draw bar) is rigidly attached to the front frame 14 of a conventional four-bar linkage assembly 15 that is part of the row unit 10. The four-bar (sometimes referred to as “parallel-bar”) linkage assembly 15 is a conventional and well known linkage used in agricultural implements to permit the raising and lowering of tools attached thereto.
  • As the planting row unit 10 is advanced by the tractor, the V-opener 11 penetrates the soil to form a furrow or seed slot. Other portions of the row unit 10 then deposit seed in the seed slot and fertilizer adjacent to the seed slot, and close the seed slot by distributing loosened soil into the seed slot with a pair of closing wheels 16. A gauge wheel 17 determines the planting depth for the seed and the height of introduction of fertilizer, etc. Bins 18 a and 18 b on the row unit carry the chemicals and seed which are directed into the soil. The planting row unit 10 is urged downwardly against the soil by its own weight, and, in addition, a hydraulic cylinder 19 is coupled between the front frame 14 and the linkage assembly 15 to urge the row unit 11 downwardly with a controllable force that can be adjusted for different soil conditions. The hydraulic cylinder 19 may also be used to lift the row unit off the ground for transport by a heavier, stronger, fixed-height frame that is also used to transport large quantities of fertilizer for application via multiple row units.
  • The hydraulic cylinder 19 is shown in more detail in FIGS. 5 and 6. Pressurized hydraulic fluid from the tractor is supplied by a hose 20 to a port 21 that leads into a matching port 22 of a housing 23 that forms a cavity 24 of a hydraulic cylinder containing a ram 25. The housing 23 also forms a side port 26 a that leads into cavity 26 b that contains a gas-charged hydraulic accumulator 27. The lower end of the cavity 24 is formed by the top end surface of the ram 25, so that the hydraulic pressure exerted by the hydraulic fluid on the end surface of the ram 25 urges the ram downwardly (as viewed in FIG. 6), with a force determined by the pressure of the hydraulic fluid and the area of the exposed end surface of the ram 25. The hydraulic fluid thus urges the ram 25 in an advancing direction (see FIG. 4).
  • As can be seen most clearly in FIG. 6, the hydraulic cylinder 19 and the accumulator 27 are mounted as a single unit on the front frame 14, with the lower end of the ram 25 connected to a cross bar 30 that is joined at one end to a vertical link 31. The upper and lower ends of the link 31 are pivotably attached to upper and lower links 15 a and 15 b, respectively, on one side of the four-bar linkage 15. The other end of the cross bar 30 is angled upwardly and pivotably attached to the upper link 15 c on the opposite side of the four-bar linkage 15. With this mounting arrangement, retracting movement of the ram 25 into the cavity 24 tilts the linkage assembly 15 downwardly, as depicted in FIG. 3, thereby lowering the row unit. Conversely, advancing movement of the ram 25 tilts the linkage assembly 15 upwardly, as depicted in FIG. 4, thereby raising the row unit.
  • The accumulator 27 includes a diaphragm 28 that divides the interior of the accumulator into a hydraulic-fluid chamber 29 a and a gas-filled chamber 29 b, e.g., filled with pressurized nitrogen. FIG. 2 shows the ram 25 in a position where the diaphragm 28 is not deflected in either direction, indicating that the pressures exerted on opposite sides of the diaphragm are substantially equal. In FIG. 3, the ram 25 has been retracted by upward movement of the row unit, and the diaphragm 28 is deflected downwardly by the hydraulic fluid forced into the accumulator 27 by the retracting movement of the ram 25. In FIG. 4, the ram 25 has been moved to its most advanced position, and the diaphragm 28 is deflected upwardly by the air pressure as hydraulic fluid flows from the accumulator into the cavity 24. The use of this compact hydraulic down-force unit with an integral accumulator on each row unit provides the advantages of quick response and remote adjustability of a hydraulic down-force control system. If an obstruction requires quick movement, oil can flow quickly and freely between the force cylinder and the adjacent accumulator.
  • As can be seen in FIG. 4, advancing movement of the ram 25 is limited by engagement of stops 40, on the lower links of the four-bar linkage 15, with the row unit frame 12. This prevents any further advancement of the ram 25. Advancing movement of the ram 25 expands the size of the cavity 24 (see FIG. 4), which causes the diaphragm 28 in the accumulator 27 to deflect to the position illustrated in FIG. 4 and reduce the amount of hydraulic fluid in the accumulator 27. When the ram 25 is in this advanced position, the row unit is in its lowermost position.
  • In FIG. 3, the ram 25 has been withdrawn to its most retracted position, which can occur when the row unit encounters a rock or other obstruction, for example. When the ram 25 is in this retracted position, the row unit is in its uppermost position. As can be seen in FIG. 3, retracting movement of the ram 25 is limited by engagement of stops 41, on the lower links of the four-bar linkage 15, with the row unit frame 12.
  • Retracting movement of the ram 25 reduces the volume of the cavity 24 (see FIG. 3), which causes a portion of the fixed volume of hydraulic fluid in the cylinder 19 to flow into the chamber 29 a of the accumulator 27, causing the diaphragm 28 to deflect to the position illustrated in FIG. 3. This deflection of the diaphragm 28 into the chamber 29 b compresses the gas in that chamber. To enter the chamber 29 a, the hydraulic fluid must flow through a port 32 in the top of the accumulator 27, which limits the rate at which the hydraulic fluid flows into the accumulator. This controlled rate of flow of the hydraulic fluid has a damping effect on the rate at which the ram 25 retracts or advances, thereby avoiding sudden large movements of the moving parts of the row unit, including the V-opener 11.
  • When the external obstruction causing the row unit 10 to rise is cleared, the combined effects of the pressurized gas in the accumulator 27 on the diaphragm 28 and the pressure of the hydraulic fluid return the ram 25 to a lower position. This downward force on the V-opener 11 holds it in the soil and prevents uncontrolled bouncing of the V-opener 11 over irregular terrain. The downward force applied to the V-opener 11 can be adjusted by changing the pressure of the hydraulic fluid supplied to the cylinder 19.
  • As can be seen in FIGS. 5 and 6, the single unitary housing 23 forms both the cavity 26 b that contains the accumulator 27 and the cavity 24 of the hydraulic cylinder 19 and the fluid passageway 24 that connects the cavity 24 of the hydraulic cylinder 19 to the cavity 27 of the accumulator. By integrating the hydraulic cylinder 19 and the accumulator 27 in a single housing, there is no relative motion possible between the cylinder 19 and the accumulator 27, with minimal possibility for fluid passageways to act like orifices. The cylinder 19 and the accumulator 27 remain in fixed positions relative to each other regardless of the movements of the planter row unit via the linkage assembly 15. In this way the upward motion of the ram 25 that occurs when the planter row unit rolls over an obstruction is directly converted into compression of the gas in the accumulator 27 without restriction. It also allows the accumulator 27, which is by definition an energy storage device, to be mounted in a fully enclosed and safe housing. The accumulator 27 can be securely mounted to avoid puncture or rapid discharge (if it comes loose), or damage from hitting another part of the implement or a foreign object. The integrated cylinder and accumulator is also a convenient single package for installation and replacement and minimizes the number of hydraulic hoses and adapters (potential leakage points).
  • FIGS. 7, 8A and 8B illustrate in more detail how the illustrative hydraulic cylinder/accumulator unit is attached to the front frame 14 and the linkage assembly 15. The top of the unitary housing 23 forms a stem 41 that projects upwardly through a hole 51 in a bracket 50 attached to the front frame 14. The outer surface of the stem 41 is threaded to receive a nut 52 that connects the housing 23 to the bracket 50. The hole 51 is oversized and a rubber washer 52 a is installed on the stem 41 between the nut 52 and the bracket 50 to allow a limited amount of tilting movement of the housing relative to the bracket 50. At the base of the stem 41, beneath the bracket 50, the housing 23 forms a shoulder 42 that engages a conical bearing ring 53 that also engages a mating lower surface of a washer 54. Thus, the housing 23 can be tilted relative to the axis of the hole 51, with the shoulder 42 sliding over the lower surface of the bearing ring 53.
  • A similar arrangement is provided at the lower end of the ram 25, where a stem 60 extends downwardly through a hole 61 in the cross bar 30 that is pivotably attached to the linkage assembly 15. A nut 62 is threaded onto the stem 60 to connect the ram to the cross bar 30. The hole 61 is oversized and a rubber washer 62 a is installed on the stem 60 between the nut 62 and the cross bar 30 to allow a limited amount of tilting movement of the ram 25 relative to the cross bar 30. Above the cross bar 30, a flange 63 on the ram 25 forms a curved conical surface 64 that engages a mating surface of a curved conical bearing ring 65 that also engages a mating upper surface of a washer 66. Thus, the ram 25 can be tilted relative to the axis of the hole 61, with the flange 63 sliding over the upper surface of the bearing ring 65.
  • The use of a hydraulic system permits on-the-go adjustments to be made very rapidly because the hydraulic fluid is incompressible and therefore acts more directly than an air system. In addition, hydraulic fluids typically operate at higher pressures, which allows greater changes in applied forces. The accumulator 27 allows the fluid system to flex and float with the changing terrain and soil conditions. The accumulator 27 is preferably centrally mounted so that when any single row unit moves over an obstruction, the down-pressure cylinder 19 moves to displace the hydraulic fluid along a common set of lines connecting all row units. The gas in the accumulator is compressed at the same time, allowing for isolation among the row units so that upward movement of one row unit does not cause downward movement of other row units. Although the illustrative hydraulic ram is single-acting, it is also possible to use a double-acting ram, or a single-acting ram in combination with a return spring.
  • Another advantage of the compact hydraulic cylinder/accumulator unit is that it can conveniently mounted to the same brackets that are provided in many row units for mounting an air bag, to control the down pressure on the row unit. For example, in FIG. 9, the brackets 50 and 51 on which the hydraulic cylinder/accumulator is mounted are the brackets that are often connected to an air bag, and thus the same row unit can be used interchangeably with either an air bag or the hydraulic cylinder/accumulator to control the down pressure on the row unit.
  • FIG. 10 is a schematic of a hydraulic control system for supplying pressurized hydraulic fluid to the cylinders 19 of multiple row units. A source 100 of pressurized hydraulic fluid, typically located on a tractor, supplies hydraulic fluid under pressure to a valve 101 via supply line 102 and receives returned fluid through a return line 103. The valve 101 can be set by an electrical control signal S1 on line 104 to deliver hydraulic fluid to an output line 105 at a desired constant pressure. The output line is connected to a manifold 106 that in turn delivers the pressurized hydraulic fluid to individual feed lines 107 connected to the ports 71 of the respective hydraulic cylinders 19 of the individual row units. With this control system, the valve 101 is turned off, preferably by a manually controlled on/off valve V, after all the cylinders 19 have been filled with pressurized hydraulic fluid, to maintain a fixed volume of fluid in each cylinder.
  • FIG. 11 is a schematic of a modified hydraulic control system that permits individual control of the supply of hydraulic fluid to the cylinder 19 of each separate row unit via feed lines 107 connected to the ports 71 of the respective cylinders 19. Portions of this system that are common to those of the system of FIG. 10 are identified by the same reference numbers. The difference in this system is that each separate feed line 107 leading to one of the row units is provided with a separate control valve 110 that receives its own separate control signal on a line 111 from a controller 112. This arrangement permits the supply of pressurized hydraulic fluid to each row unit to be turned off and on at different times by the separate valve 110 for each unit, with the times being controlled by the separate control signals supplied to the valves 110 by the controller 112. The individual valves 110 receive pressurized hydraulic fluid via the manifold 106, and return hydraulic fluid to a sump on the tractor via separate return line 113 connected to a return manifold 114 connected back to the hydraulic system 100 of the tractor.
  • FIG. 12 illustrates on application for the controllable hydraulic control system of FIG. 11. Modern agricultural equipment often includes GPS systems that enable the user to know precisely where a tractor is located in real time. Thus, when a gang of planting row units 120 towed by a tractor 121 begins to cross a headland 122 in which the rows 123 are not orthogonal to the main rows 124 of a field, each planting row unit 120 can be turned off just as it enters the headland 122, to avoid double-planting while the tractor 121 makes a turn through the headland. With the control system of FIG. 11, the hydraulic cylinder 19 of each row unit can also be separately controlled to turn off the supply of pressurized hydraulic fluid at a different time for each row unit, so that each row unit is raised just as it enters the headland, to avoid disrupting the rows already planted in the headland.
  • One benefit of the system of FIG. 11 is that as agricultural planters, seeders, fertilizer applicators, tillage equipment and the like become wider with more row units on each frame, often 36 30-inch rows or 54 20-inch rows on a single 90-foot wide toolbar, each row unit can float vertically independently of every other row unit. Yet the following row units still have the down force remotely adjustable from the cab of the tractor or other selected location. This permits very efficient operation of a wide planter or other agricultural machine in varying terrain without having to stop to make manual adjustment to a large number of row units, resulting in a reduction in the number of acres planted in a given time period. One of the most important factors in obtaining a maximum crop yield is timely planting. By permitting remote down force adjustment of each row unit (or group of units), including the ability to quickly release all down force and let the row cleaner quickly rise, e.g., when approaching a wet spot in the field, one can significantly increase the planter productivity or acres planted per day, thereby improving yields and reducing costs of production.
  • On wide planters or other equipment, at times 90 feet wide or more and planting at 6 mph or more forward speed, one row unit must often rise or fall quickly to clear a rock or plant into an abrupt soil depression. Any resistance to quick movement results in either gouging of the soil or an uncleared portion of the field and reduced yield. With the row unit having its own hydraulic accumulator, the hydraulic cylinder can move quickly and with a nearly constant down force. Oil displaced by or required by quick movement of the ram is quickly moved into or out of the closely mounted accumulator which is an integral part of each row unit. The accumulator diaphragm or piston supplies or accepts fluid as required at a relatively constant pressure and down force as selected manually or automatically by the hydraulic control system. By following the soil profile closely and leaving a more uniform surface, the toolbar-frame-mounted row unit permits the planter row unit following independently behind to use less down force for its function, resulting in more uniform seed depth control and more uniform seedling emergence. More uniform seedling stands usually result in higher yields than less uniform seedling stands produced by planters with less accurate row cleaner ground following.
  • The term row unit refers to a unit that is attached to a towing frame in a way that permits the unit to move vertically relative to the towing frame and other units attached to that same towing frame. Most row units are equipped to form, plant and close a single seed furrow, but row units are also made to form, plant and close two or more adjacent seed furrows.
  • It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrated embodiments and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (14)

1-20. (canceled)
21. An agricultural system, comprising:
a plurality of row units adapted to be coupled to a single tractor;
a fluid supply for supplying the plurality of row units with pressurized fluid;
a plurality of control valves coupled, respectively, to the plurality of row units, each control valve of the plurality of control valves receiving pressurized fluid from the fluid supply; and
a control system coupled to and controllably adjusting each control valve such that down pressure is adjustable on at least a portion of a respective row unit.
22. The agricultural system of claim 21, further comprising a plurality of feed lines coupling the fluid supply and the plurality of row units, each one of the plurality of control valves being coupled on a separate feed lines of the plurality of feed lines.
23. The agricultural system of claim 21, wherein the fluid supply includes a supply manifold for supplying the pressurized fluid to the plurality of row units.
24. The agricultural system of claim 21, further comprising a return manifold for receiving return fluid from the plurality of control valves.
25. The agricultural system of claim 21, wherein the controllably adjusting of each control valve includes turning off the supplying of pressurized fluid to at least one of the plurality of control valves but not to all of the plurality of control valves.
26. The agricultural system of claim 21, wherein each of the plurality of row units includes:
an attachment frame adapted to be rigidly connected to a towing frame hitched to the single tractor;
a linkage pivotably coupled to the attachment frame;
a row unit frame having a leading end pivotably coupled to the linkage to permit vertical pivoting movement of the row unit frame relative to the attachment frame;
at least a furrow-forming device mounted on the row unit frame;
a hydraulic cylinder coupled to the attachment frame and the linkage for urging the row unit frame downwardly toward the soil, the hydraulic cylinder including
a movable ram extending into the cylinder, and
a hydraulic-fluid cavity within the cylinder for receiving pressurized hydraulic fluid for advancing the ram in a direction that pivots the linkage and the row unit frame downwardly toward the soil, and
an accumulator positioned adjacent to the hydraulic cylinder and having a fluid chamber containing a diaphragm, the portion of the chamber on one side of the diaphragm being connected to the hydraulic-fluid cavity in the hydraulic cylinder, and the portion of the chamber on the other side of the diaphragm containing a pressurized gas.
27. The agricultural system of claim 26, wherein a single unitary housing forms the hydraulic cylinder and a cavity containing the accumulator.
28. The agricultural system of claim 27, wherein the single unitary housing forms a fluid passageway connecting the hydraulic cylinder and the accumulator.
29. The agricultural system of claim 26, wherein the hydraulic cylinder is connected to the attachment frame, and the ram is connected to the linkage.
30. An agricultural system for use with a towing frame hitched to a tractor, the system comprising:
a fluid supply for supplying pressurized fluid; and
a plurality of row units adapted to be coupled to a single tractor, each row unit of the plurality of row units including
an attachment frame adapted to be rigidly connected to the towing frame,
a linkage pivotably coupled to the attachment frame,
a row unit frame having a leading end pivotably coupled to the linkage to permit vertical pivoting movement of the row unit frame relative to the attachment frame,
at least a furrow-forming device mounted on the row unit frame,
a hydraulic cylinder coupled to the attachment frame and the linkage for applying down pressure to the row unit frame, and
a control valve coupled to the fluid supply, the control valve being individually controllable to adjust the down pressure applied by the hydraulic cylinder.
31. The agricultural system of claim 30, further comprising a plurality of feed lines coupling the fluid supply and the plurality of row units, each one of the plurality of control valves being coupled on a separate feed lines of the plurality of feed lines.
32. The agricultural system of claim 30, wherein the fluid supply includes a supply manifold for supplying the pressurized fluid to the plurality of row units.
33. The agricultural system of claim 30, further comprising a return manifold for receiving return fluid from the plurality of control valves.
US13/842,642 2010-09-15 2013-03-15 Row Unit For Agricultural Implement Abandoned US20130213676A1 (en)

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US14/824,480 Active 2030-12-09 US9788472B2 (en) 2010-09-15 2015-08-12 Row unit for agricultural implement
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US9192089B2 (en) 2015-11-24
US8770308B2 (en) 2014-07-08
US20200315082A1 (en) 2020-10-08
US20180000002A1 (en) 2018-01-04
US9788472B2 (en) 2017-10-17
US20130133904A1 (en) 2013-05-30
US8544397B2 (en) 2013-10-01
US20130199808A1 (en) 2013-08-08
US10477752B2 (en) 2019-11-19
US11576295B2 (en) 2023-02-14
US20230240166A1 (en) 2023-08-03
US20150373901A1 (en) 2015-12-31
US20120060730A1 (en) 2012-03-15
US20180000001A1 (en) 2018-01-04
US10238024B2 (en) 2019-03-26

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