Electrohydraulic drive and control

US 4,430,846 A
Filed: 01/15/1982
Issued: 02/14/1984
Est. Priority Date: 01/15/1982
Status: Expired due to Term

First Claim

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1. In an agricultural harvesting machine (350) of the type that operates between minimum and maximum ground speeds, that includes a crop-transporting mechanism (358), and that includes means for driving said crop-transporting mechanism at variable crop-transporting velocities, the improvement in which said driving means comprises:

a source of pressurized fluid (374);

a fluid motor (38) having a rotary output shaft (370) that is operatively connected to said crop-transporting mechanism;

electrohydraulic valve means (36), comprising a hydraulic valve (376) that is connected to said source of pressurized fluid and to said fluid motor, and comprising an electrical force-motor (52) that is operatively connected to said hydraulic valve and that includes force-motor coil means (296) for energizing said force-motor, for supplying pressurized fluid from said source of pressurized fluid to said fluid motor;

a source of electrical power (378);

ground-speed sensor means (380) for producing an electrical input signal that is a function of said ground speeds; and

electronic control means (382), being connected to said ground-speed sensor means, to said source of electrical power, and to said force-motor coil means, for applying an effective driving voltage to said force-motor coil means that is a function of said input signal, and for cooperating with said electrohydraulic valve means to supply pressurized fluid from said source to said fluid motor at fluid flow rates that drive said crop-transporting mechanism at crop-transporting velocities which are greater than said ground speeds for all ground speeds from zero to a maximum harvesting speed, and at ratios of crop-transporting velocity to ground speed which decrease as said ground speed increases from zero to said maximum harvesting speed.

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Abstract

The present invention provides an electrohydraulic control, which includes both an electrohydraulic valve (36) and an electronic control (382). The electronic control includes an offsetting circuit (622) and is effective to produce an effective driving voltage, for an electrical force-motor (52) of the electrohydraulic valve, that is pulse-width-modulated and that is greater than a fixed proportionality to an input signal (410) by a manually adjustable offset voltage. The offset voltage may be adjusted to produce a null force that exactly balances a spring (129) which presses the valve spool (54) to an overlapped position; so that fluid flow is proportional to an input signal irrespective of the initial load of the spring. When used in conjunction with a ground-speed sensor (380) to control the reel drive on an agricultural harvesting machine, the offset voltage is set higher than a null voltage; so that the resultant rate of fluid flow produces a tangential velocity of the reel that is always greater than the ground speed of the machine.

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19 Claims

1. In an agricultural harvesting machine (350) of the type that operates between minimum and maximum ground speeds, that includes a crop-transporting mechanism (358), and that includes means for driving said crop-transporting mechanism at variable crop-transporting velocities, the improvement in which said driving means comprises:
- a source of pressurized fluid (374);
  
  a fluid motor (38) having a rotary output shaft (370) that is operatively connected to said crop-transporting mechanism;
  
  electrohydraulic valve means (36), comprising a hydraulic valve (376) that is connected to said source of pressurized fluid and to said fluid motor, and comprising an electrical force-motor (52) that is operatively connected to said hydraulic valve and that includes force-motor coil means (296) for energizing said force-motor, for supplying pressurized fluid from said source of pressurized fluid to said fluid motor;
  
  a source of electrical power (378);
  
  ground-speed sensor means (380) for producing an electrical input signal that is a function of said ground speeds; and
  
  electronic control means (382), being connected to said ground-speed sensor means, to said source of electrical power, and to said force-motor coil means, for applying an effective driving voltage to said force-motor coil means that is a function of said input signal, and for cooperating with said electrohydraulic valve means to supply pressurized fluid from said source to said fluid motor at fluid flow rates that drive said crop-transporting mechanism at crop-transporting velocities which are greater than said ground speeds for all ground speeds from zero to a maximum harvesting speed, and at ratios of crop-transporting velocity to ground speed which decrease as said ground speed increases from zero to said maximum harvesting speed.

2. In an agricultural harvesting machine (350) of the type that operates between minimum and maximum ground speeds for harvesting operations, that includes a crop-transporting mechanism (358), and that includes means for driving said crop-transporting mechanism at variable crop-transporting velocities, the improvement in which said driving means comprises:
- a source of pressurized fluid (374);
  
  fluid motor means (38), having a rotary output shaft (370) that is operatively connected to said crop-transporting mechanism, for driving said rotary output shaft at rotating speeds that are proportional to the fluid flow rate of pressurized fluid supplied to said fluid motor means;
  
  electrohydraulic valve means (36), comprising a hydraulic valve (376) that is connected to said source of pressurized fluid and to said fluid motor means, and comprising an electrical force-motor (52) that is operatively connected to said hydraulic valve and that includes force-motor coil means (296) for energizing said force-motor, for supplying pressurized fluid from said source of pressurized fluid to said fluid motor means at fluid flow rates that are a function of an effective driving voltage applied to said force-motor coil means;
  
  a source of electrical power (378);
  
  ground-speed sensor means (380) for producing an input signal that is proportional to said ground speeds;
  
  electronic control means (382), being connected to said ground-speed sensor means, to said source of electrical power, and to said force-motor coil means, for applying an effective driving voltage to said force-motor coil means that is a function of said input signal, and for cooperating with said electro-hydraulic valve means to supply pressurized fluid from said source to said fluid motor means at fluid flow rates that drive said crop-transporting mechanism at crop-transporting velocities that are greater than said minimum ground speed by a predetermined and substantially constant velocity and that increase at ratios of increased crop-transporting velocity to ground speed in the range of 0.9 to 1.1.

3. In an agricultural harvesting machine (350) of the type that operates between minimum and maximum ground speeds for harvesting operations, that includes a crop-transporting mechanism (358), and that includes means for driving said crop-transporting mechanism at variable crop-transporting velocities, the improvement in which said driving means comprises:
- a source of pressurized fluid (374);
  
  fluid motor means (38), having a rotary output shaft (370) that is operatively connected to said crop-transporting mechanism, for driving said rotary output shaft at rotating speeds that are proportional to the fluid flow rate of pressurized fluid supplied to said fluid motor means;
  
  electrohydraulic valve means (36), comprising a hydraulic valve (376) that is connected to said source of pressurized fluid and to said fluid motor means, and comprising an electrical force-motor (52) that is operatively connected to said hydraulic valve and that includes force-motor coil means (296) for energizing said force-motor, for supplying pressurized fluid from said source of pressurized fluid to said fluid motor means at fluid flow rates that are a function of an effective driving voltage applied to said force-motor coil means;
  
  a source of electrical power (378);
  
  ground-speed sensor means (380) for producing an input signal that is proportional to said ground speeds;
  
  electronic control means (382), being connected to said ground-speed sensor means, to said source of electrical power, and to said force-motor coil means, for applying an effective driving voltage to said force-motor coil means that is proportional to said input signal; and
  
  offsetting circuit means (622), comprising a cooperating portion of said electronic control means, for increasing said effective driving voltage above said proportionality by a substantially constant effective offset voltage to driving voltages that supply pressurized fluid from said source of pressurized fluid to said fluid motor means at fluid flow rates wherein said crop-transporting velocities are greater than said ground speeds for all ground speeds between zero and said maximum ground speed.
- View Dependent Claims (7, 8, 9, 10, 11)
- - 7. An agricultural harvesting machine (350) as claimed in claims 3 or 4 in which said electrohydraulic valve means (36) includes resilient bias means (129) for precluding fluid flow from said source of pressurized fluid (374) to said fluid motor means (38) when said effective driving voltage is below a null voltage;
    - andsaid supplying of pressurized fluid from said source of pressurized fluid to said fluid motor means as said function of said effective driving voltage comprises supplying pressurized fluid to said fluid motor means at fluid flow rates that are directly proportional and substantially linear to those portions of said effective driving voltages that are in excess of said null voltage.
  - 8. An agricultural harvesting machine (350) as claimed in claims 3 or 4 in which said electrohydraulic valve means (36) includes resilient bias means (129) for precluding fluid flow from said source of pressurized fluid (374) to said fluid motor means (38) when said effective driving voltage is below a null voltage;
    - andsaid predetermined effective offset voltage comprises a basic-flow voltage that is greater than said null voltage and that cooperates with said electrohydraulic valve to provide a basic flow from said source of pressurized fluid to said fluid motor that is substantially constant irrespective of changes in said ground speed.
  - 9. An agricultural harvesting machine (350) as claimed in claims 3 or 4 in which said offsetting circuit means (622) includes means (538) for adjusting said effective offset voltage.
  - 10. An agricultural harvesting machine (350) as claimed in claims 3 or 4 in which said electronic control means (382) comprises means (514) for adjusting said proportionality of said effective driving voltage to said input signal.
  - 11. An agricultural harvesting machine (350) as claimed in claims 3 or 4 in which said electrohydraulic valve means (36) includes resilient bias means (129) for precluding fluid flow from said source of pressurized fluid (374) to said fluid motor means (38) when said effective driving voltage is below a null voltage;
    - said offsetting circuit means (622) includes means (538) for adjusting said effective offset voltage.

4. In an agricultural harvesting machine (350) of the type that operates between minimum and maximum ground speeds for harvesting operations, that includes a crop-transporting mechanism (358), and that includes means for driving said crop-transporting mechanism at variable crop-transporting velocities, the improvement in which said driving means comprises:
- a source of pressurized fluid (374);
  
  fluid motor means (38), having a rotary output shaft (370) that is operatively connected to said crop-transporting mechanism, for driving said rotary output shaft at rotating speeds that are proportional to the fluid flow rate of pressurized fluid supplied to said fluid motor means;
  
  electrohydraulic valve means (36), comprising a hydraulic valve (376) that is connected to said source of pressurized fluid and to said fluid motor means, and comprising an electrical force-motor (52) that is operatively connected to said hydraulic valve and that includes force-motor coil means (296) for energizing said force-motor, and for supplying pressurized fluid from said source of pressurized fluid to said fluid motor means at fluid flow rates that are a function of an effective driving voltage applied to said force-motor coil means;
  
  a source of electrical power (378);
  
  ground-speed sensor means (380) for producing an input signal with voltage and frequency that are proportional to said ground speeds;
  
  electronic control means (382), being connected to said ground-speed sensor means, to said source of electrical power, and to said force-motor coil means, for converting said input signal into an effective driving voltage that is proportional to said input signal and that comprises a pulse-width-modulated driving voltage, and for applying said effective driving voltage to said force-motor coil means; and
  
  offsetting circuit means (622), comprising a cooperating portion of said electronic control means, for increasing said effective driving voltage above said proportionality by a substantially constant effective offset voltage to driving voltages that supply pressurized fluid from said source of pressurized fluid to said fluid motor means at fluid flow rates wherein said crop-transporting velocities are greater than said ground speed by a substantially constant value for all round speeds between zero and said maximum ground speed.

5. In an agricultural harvesting machine (350) of the type that operates between minimum and maximum ground speeds for harvesting operations, that includes a crop-transporting mechanism (358), and that includes means for driving said crop-transporting mechanism at variable crop-transporting velocities, the improvement in which said driving means comprises:
- a source of pressurized fluid (374);
  
  fluid motor means (38), having a rotary output shaft (370) that is operatively connected to said crop-transporting mechanism, for driving said rotary output shaft at rotating speeds that are proportional to the fluid flow rate of pressurized fluid supplied to said fluid motor means;
  
  electrohydraulic valve means (36), comprising a hydraulic valve that is connected to said source of pressurized fluid and to said fluid motor means, and comprising an electrical force-motor (52) that is operatively connected to said hydraulic valve and that includes force-motor coil means (296), for energizing said force-motor, for supplying pressurized fluid from said source of pressurized fluid to said fluid motor means at fluid flow rates that are a function of an effective driving voltage applied to said force-motor coil means;
  
  a source of electrical power (378);
  
  ground-speed sensor means (380) for producing an input signal (410) whose voltage and frequency are proportional to said ground speeds;
  
  signal conditioning means (626), being connected to said ground-speed sensor means and to said source of electrical power, for converting said input signal to a square wave signal (416) whose frequency is proportional to said input signal;
  
  averaging and offsetting means (394), being connected to said signal conditioning means and to said source of electrical power, for converting said square wave signal to a D.C. output signal (420) that is proportional to said frequency of said square wave signal and for increasing said D.C. output signal above said proportionality by a substantially constant offset signal (624) that results in pressurized fluid being supplied to said fluid motor means at fluid flow rates wherein said crop-transporting velocities are greater than said ground speeds by a substantially constant value for all ground speeds between zero and said maximum ground speed;
  
  pulse-width-modulation converter means (628), being connected to said averaging and offsetting means and to said source of electrical power, for producing a pulse-width modulated control signal (402) with pulse widths (404) that are proportional to said increased D.C. output signal; and
  
  power amplifier means (400), being connected to said pulse-width-modulation converter means, to said source of electrical power, and to said force-motor coil means, for producing an effective driving voltage (406) that comprises a pulse-width-modulated driving voltage, and for applying said effective driving voltage to said force-motor coil means.
- View Dependent Claims (12, 13, 16, 17, 18, 19)
- - 12. An agricultural harvesting machine (350) as claimed in claims 5 or 6 in which said electrohydraulic valve means (36) includes resilient bias means (129) for precluding fluid flow from said source of pressurized fluid (374) to said fluid motor means (38) when said effective driving voltage is below a null voltage;
    - andsaid averaging and offsetting means (394) includes means (538) for adjusting said offset signal (624).
  - 13. An agricultural harvesting machine (350) as claimed in claim 5 in which said signal conditioning means (626) includes means (514) for adjusting said proportionality of said D.C. output signal (420) to said input signal (410).
  - 16. An agricultural harvesting machine (350) as claimed in claim 5 in which said signal conditioning means (626) includes input clipper means (630), comprising a pair of Zener diodes (482 and 484) being operatively connected to said ground-speed sensor means (380), for clipping voltage spikes from said input signal;
    - andsaid operative connection of said signal conditioning means to said ground-speed sensor means comprises said operative connection of said Zener diodes to said ground-speed sensor means.
  - 17. An agricultural harvesting machine (350) as claimed in claim 5 in which said signal conditioning means (626) includes squaring-amplifier means (632), being operatively connected to said ground-speed sensor means (380) and to said source of electrical power (378), for converting said input signal (410) to a square wave signal (634) whose frequency is proportional to said frequency of said input signal;
    - andsaid operative connection of said signal conditioning means to said ground-speed sensor means comprises said operative connection of said squaring-amplifier means to said ground-speed sensor means.
  - 18. an agricultural harvesting machine (350) as claimed in claim 5 in which said signal conditioning means (622) comprises squaring-amplifier means (632), being operatively connected to said ground-speed sensor means (380) and to said source of electrical power (378), for converting said input signal (410) to a first square wave signal (414) having pulsed durations (634) and having a frequency that is proportional to said frequency of said input signal;
    - andone-shot amplifier means (392), being operatively connected to said squaring-amplifier means and to said source of electrical power for producing a second square wave signal (416) whose frequency is proportional to said frequency of said squaring-amplifier means and whose pulsed durations (418) are substantially independent of said pulsed durations of said first square wave signal; and
      
      said operative connection of said signal conditioning means to said ground-speed sensor means comprises said operative connection of said squaring-amplifier means to said ground-speed sensor means.
  - 19. An agricultural harvesting machine (350) as claimed in claim 5 in which said pulse-width-modulation converter means (628) comprises sawtooth generator means (396), being operatively connected to said source of electrical power, for producing a sawtooth wave form (428) having a predetermined frequency;
    - andcomparator means (398), being operatively connected to said sawtooth generator means and to said source of electrical power, for producing said pulse-width-modulated control signal (402) with a frequency proportional to said frequency of said sawtooth generator and with pulse widths (404) proportional to said increased D.C. output signal (426).

6. An agricultural harvesting machine (350) of the type that operates between minimum and maximum ground speeds for harvesting operations, that includes a crop-transporting mechanism (358), and that includes means for driving said crop-transporting mechanism at variable crop-transporting velocities, the improvement in which said driving means comprises:
- a source of pressurized fluid (374);
  
  fluid motor means (38), having a rotary output shaft (370) that is operatively connected to said crop-transporting mechanism, for driving said rotary output shaft at rotating speeds that are proportional to the fluid flow rate of pressurized fluid supplied to said fluid motor means;
  
  electrohydraulic valve means (36), comprising a hydraulic valve that is connected to said source of pressurized fluid and to said fluid motor means, and comprising an electrical force-motor (52) that is operatively connected to said hydraulic valve and that includes force-motor coil means (296), for energizing said force-motor, and for supplying pressurized fluid from said source of pressurized fluid to said fluid motor means at fluid flow rates that are a function of an effective driving voltage applied to said force-motor coil means;
  
  a source of electrical power (378);
  
  ground-speed sensor means (380) for producing an input signal (410) with voltage and frequency that are proportional to said ground speeds;
  
  squaring amplifier means (632), being operatively connected to said ground-speed sensor means and to said source of electrical power, for converting said input signal to a first square wave signal (414) having pulsed durations (634) and having a frequency that is proportional to said frequency of said input signal;
  
  one-shot amplifier means (392), being operatively connected to said squaring amplifier means and to said source of electrical power, for producing a second square wave signal (416) whose frequency is proportional to said frequency of said squaring amplifier means and whose pulsed durations (418) are substantially independent of said pulsed durations of said first square wave signal;
  
  averaging and offsetting means (394), being connected to said one-shot amplifier means and to said source of electrical power, for converting said second square wave signal to a D.C. output signal (420) that is proportional to both said frequency and said pulsed durations of said second square wave signal, and for increasing said D.C. output signal above said proportionality by a substantially constant offset signal (624) that results in pressurized fluid being supplied to said fluid motor means at fluid flow rates wherein said crop-transporting velocities are greater than said ground speeds by a substantially constant value for all ground speeds between zero and said maximum ground speed;
  
  sawtooth means (396), being connected to said source of electrical power, for producing a sawtooth wave form (428) having a predetermined frequency;
  
  comparator amplifier means (398), being connected to said averaging and offsetting means, and being connected to said sawtooth generator, for producing a pulse-width-modulated control signal (402) whose frequency is proportional to said frequency of said sawtooth generator means and whose pulse widths are proportional to said increased D.C. output signal (426); and
  
  power amplifier means (408), being connected to said comparator amplifier means, to said source of electrical power, and to said force-motor coil means, for producing an effective driving voltage (406) that comprises a pulse-width-modulated driving voltage, and for applying said effective driving voltage to said force-motor coil means.
- View Dependent Claims (14, 15)
- - 14. An agricultural harvesting machine (350) as claimed in claim 6 in which said one-shot amplifier means (392) includes means (514) for selectively adjusting said pulsed durations (418) of said second square wave signal (416).
  - 15. An agricultural harvesting machine (350) as claimed in claim 6 in which said electrohydraulic valve means (36) includes resilient bias means (129) for precluding fluid flow from said source of pressurized fluid (374) to said fluid motor means (38) when said effective driving voltage is below a null voltage;
    - said supplying of pressurized fluid from said source of pressurized fluid to said fluid motor means as said function of said effective driving voltage comprises supplying pressurized fluid to said fluid motor means at fluid flow rates that are directly proportional and substantially linear to those portions of said effective driving voltages that are in excess of said null voltage;
      
      said averaging and offsetting means (394) includes means (538) for manually adjusting said offset signal (624); and
      
      said one-shot amplifier means (398) includes means (514) for selectively adjusting said pulsed durations (418) of said second square wave signal (416).

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Current Assignee
Parker Hannifin Customer Support, Inc. (Parker-Hannifin Corporation)
Original Assignee
Electro-Hydraulic Controls Incorporated
Inventors
Lautzenhiser, Lloyd L., Presley, Glen T.
Primary Examiner(s)
Mancene, Gene
Assistant Examiner(s)
Tarnoff, David L.

Application Number

US06/339,483
Time in Patent Office

760 Days
Field of Search

56/10.2, 56/DIG. 15, 56/DIG. 11, 137/117, 180/179, 251/205, 251/129, 318/318, 318/326, 318/327, 318/328
US Class Current

56/10.20G
CPC Class Codes

A01D 41/1274   for drives

Y10S 56/15   Condition responsive

Y10T 137/2587   Bypass or relief valve bias...

Electrohydraulic drive and control

First Claim

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Abstract

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Electrohydraulic drive and control

First Claim

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