Apparatus and method for obtaining continuous speed ratios in a seeding or fertilizing machine
First Claim
1. A drive installation incorporated into a seeding or fertilizing apparatus for obtaining continuous speed ratios without intermediate moveable parts, said apparatus comprising at least one supporting wheel, a drive wheel having a shaft, a dispenser, a plurality of propelling units, at least one dosing device, and a drive movement, comprising, in combination:
- a) at least one velocity sensor arranged correspondingly with one of said machine supporting wheels; and
, b) an electronic circuit including an Intelligent Central Unit comprising a microprocessor having software associated therewith which controls the movements generated by said plurality of Propelling Units, integrated to the same circuit and arranged, individually, correspondingly with each dispenser and dosing device owned by the machine, coupled to at least one of the members belonging to said dosing devices and dispensers involved in the drive movement and action of each of them, said at least one dosing device being at least one granular fertilizer dosing device and said dispenser being a granular dispenser.
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Accused Products
Abstract
An apparatus for transmitting drive motion to the members working in dispensing devices and seed and fertilizer dosing devices, equipped to vary the speed of such drive motions according to the operative needs present in each dosing, comprising, in combination, at least one velocity sensor arranged correspondingly with one of the machine supporting wheels, which sensor is integrated to an electronic circuit including the Intelligent Central Unit consisting of a microprocessor having its own software which commands the movements generated by a plurality of Propelling Units, integrated to the same circuit and arranged, individually, correspondingly with each dispenser and dosing device of the machine, coupled to at least one of the members belonging to the dosing devices and dispensers involved in the drive movement and action of each of them. Liquid and/or granular fertilizer or seed can be dispensed. A method is disclosed for using the drive installation includes determining various parameters involved in the seeding or fertilizing actions.
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Citations
35 Claims
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1. A drive installation incorporated into a seeding or fertilizing apparatus for obtaining continuous speed ratios without intermediate moveable parts, said apparatus comprising at least one supporting wheel, a drive wheel having a shaft, a dispenser, a plurality of propelling units, at least one dosing device, and a drive movement, comprising, in combination:
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a) at least one velocity sensor arranged correspondingly with one of said machine supporting wheels; and
,b) an electronic circuit including an Intelligent Central Unit comprising a microprocessor having software associated therewith which controls the movements generated by said plurality of Propelling Units, integrated to the same circuit and arranged, individually, correspondingly with each dispenser and dosing device owned by the machine, coupled to at least one of the members belonging to said dosing devices and dispensers involved in the drive movement and action of each of them, said at least one dosing device being at least one granular fertilizer dosing device and said dispenser being a granular dispenser. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
a) a granular fertilizer falling monitoring sensor and b) an alarm signal associated with said monitoring sensor and each said at least one granular fertilizer dosing device.
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3. The drive installation of claim 1, wherein said sensor is arranged in electrical communication with said drive wheel that, belonging to and placed at a front sector based on the floor of said machine.
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4. The drive installation of claim 1, wherein said sensor is a pulse generator (defined according to the advance rate) coupled to said shaft of one wheel of said machine.
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5. The drive installation of claim 1, wherein said sensor is a voltage source (defined voltage producer according to the advance rate of the machine) coupled to said shaft of one wheel of said machine.
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6. The drive installation of claim 1, wherein the sensor is a global positioning system.
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7. The drive installation of claim 1, wherein said electronic circuit further comprises a “
- test mode”
equipment (simulator) comprising an additional pulse generator associated with said microprocessor.
- test mode”
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8. The drive installation of claim 1, wherein said microprocessor further comprises a self-check display means.
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9. The drive installation of claim 1, wherein said electronic circuit further comprises a grain falling monitoring sensor and an alarm signal associated therewith, arranged correspondingly with each said dosing device of said machine.
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10. The drive installation of claim 1, wherein said propelling units arranged correspondingly with each said dosing dispenser comprise an electronic circuit and an engine.
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11. The drive installation of claim 1, wherein each said propelling unit arranged correspondingly with each said dosing dispenser comprises
a) an electronic circuit; -
b) an engine; and
c) a speed reducer.
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12. A drive installation incorporated into a seeding or fertilizing apparatus for obtaining continuous speed ratios without intermediate moveable parts, said apparatus comprising at least one supporting wheel, a drive wheel having a shaft, a dispenser, a plurality of propelling units, at least one dosing device, and a drive movement, comprising, in combination:
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a) at least one velocity sensor arranged correspondingly with one of said machine supporting wheels; and
,b) an electronic circuit including an Intelligent Central Unit comprising a microprocessor having software associated therewith which controls the movements generated by said plurality of Propelling Units, integrated to the same circuit and arranged, individually, correspondingly with each dispenser and dosing device owned by the machine, coupled to at least one of the members belonging to said dosing devices and dispensers involved in the drive movement and action of each of them, said at least one dosing device being at least one liquid fertilizer dosing device and said dispenser being a liquid dispenser. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
a) a liquid fertilizer falling monitoring sensor and b) an alarm signal associated with said monitoring sensor and each said at least one liquid fertilizer dosing device. -
14. The drive installation of claim 12, wherein said sensor is arranged in electrical communication with said drive wheel that, belonging to and placed at a front sector based on the floor of said machine.
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15. The drive installation of claim 12, wherein said sensor is a pulse generator (defined according to the advance rate) coupled to said shaft of one wheel of said machine.
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16. The drive installation of claim 12, wherein said sensor is a voltage source (defined voltage producer according to the advance rate of the machine) coupled to said shaft of one wheel of said machine.
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17. The drive installation of claim 12, wherein the sensor is a global positioning system.
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18. The drive installation of claim 12, wherein said electronic circuit further comprises a “
- test mode”
equipment (simulator) comprising an additional pulse generator associated with said microprocessor.
- test mode”
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19. The drive installation of claim 12, wherein said microprocessor further comprises a self-check display means.
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20. The drive installation of claim 12, wherein said electronic circuit further comprises a grain falling monitoring sensor and an alarm signal associated therewith, arranged correspondingly with each said dosing device of said machine.
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21. The drive installation of claim 12, wherein said propelling units arranged correspondingly with each said dosing dispenser comprise an electronic circuit and an engine.
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22. The drive installation of claim 12, wherein said propelling units arranged correspondingly with each said dosing dispenser comprise
a) an electronic circuit; -
b) an engine; and
c) a speed reducer.
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23. A method for using a drive installation incorporated into a seeding or fertilizing apparatus for obtaining continuous speed ratios without intermediate moveable parts, wherein said seeding or fertilizing apparatus comprises at least one supporting wheel, a drive wheel having a shaft, a dispenser, a plurality of propelling units, at least one dosing device, and a drive movement, comprising in combination:
- a) at least one velocity sensor arranged correspondingly with one of said machine supporting wheels;
b) an electronic circuit including an Intelligent Central Unit comprising a microprocessor having software associated therewith which controls the movements generated by said plurality of Propelling Units, integrated to the same circuit and arranged, individually, correspondingly with each dispenser and dosing device owned by the machine, coupled to at least one of the members belonging to said dosing devices and dispensers involved in the drive movement and action of each of them; and
wherein once installed and connected to a power source, through a display having a customized menu of the machine, the method comprising;a) choosing different parameters involved in the fertilization and seeding actions;
b) actuating a start mechanism. - View Dependent Claims (24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35)
a) determining the type of fertilizer to be used;
b) programming the type of fertilizing dosing device to be used;
c) determining the distance between drills;
d) kilograms/liters of fertilizer required per area;
e) activating said fertilizer detector;
f) activating said detecting alarm;
g) programming said seed dispenser type to be used;
h) determining the type of grain to be sown; and
,i) programming the distance for seeding defined between a usual minimum and maximum for each type of grain.
- a) at least one velocity sensor arranged correspondingly with one of said machine supporting wheels;
Specification