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Claims  |
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What is claimed is:
1. In a vehicle having mechanically actuated front drive means including a
main drive transmission, hydraulically actuated rear drive means, brake
means, hydraulically actuated apparatus for performing work functions, a
source of hydraulic fluid, and conduit means for delivering hydraulic
fluid, an inching system for moving said vehicle at reduced speeds while
maintaining sufficient hydraulic fluid flow and pressure for actuating
said apparatus, said inching system comprising:
means for controlling the fluid pressure to said rear drive means;
means for restricting the flow of hydraulic fluid from said source to said
controlling means to a level below that of the flow to said apparatus;
means for metering hydraulic fluid from said controlling means so that
fluid pressure available to said rear drive means is progressively
reduced;
means for selectively actuating said fluid metering means, said actuating
means being movable from a first position in which said front and rear
drive means are operative to a second position in which said main drive
transmission is placed in neutral to disconnect said front drive means so
that said rear drive means alone is operative, said actuating means then
being movable through a third position in which said fluid metering means
is actuated to drain fluid from said controlling means at a progressively
increasing rate, and said actuating means then being movable to a fourth
position in which said rear drive means is inoperative and said brake
means are actuated.
2. An inching system as recited in claim 1 wherein said controlling means
comprises:
a forward-reverse valve fluidly connected to said rear drive means for
delivering hydraulic fluid to said rear drive means and for controlling
the direction of travel of said vehicle and a control valve fluidly
connected to said forward-reverse valve for controlling the amount of
hydraulic fluid said forward-reverse valve is able to direct to said rear
drive means.
3. An inching system as recited in claim 2 wherein said restricting means
is an orifice through which hydraulic fluid must flow from said source to
said control valve, said orifice having a flow path narrower than that of
said conduit means and being positioned remotely from the flow of
hydraulic fluid from said source to said apparatus.
4. An inching system as recited in claim 1 wherein said metering means is a
variable inching valve having a spool which rotates in response to the
movement of said actuating means through said third position, the rotation
of said spool providing an increasingly larger passage through which
hydraulic fluid is drained from said controlling means at a progressively
increasing rate to progressively reduce the fluid pressure available to
said rear drive means.
5. An inching system as recited in claim 1 wherein said actuating means is
at least one pedal in said vehicle which is selectively movable from said
first position through said fourth position.
6. An inching system as recited in claim 1 further comprising means for
actuating said brake means independently of said means for actuating said
fluid metering means.
7. An inching system as recited in claim 1 further comprising a second
means for selectively actuating said fluid metering means being movable
from said first position through at least said third position.
8. In a vehicle having mechanically actuated front drive means,
hydraulically actuated rear drive means, brake means, hydraulically
actuated apparatus for performing work functions, a source of hydraulic
fluid and conduit means for delivering hydraulic fluid, an inching system
for moving said vehicle at reduced speeds while maintaining sufficient
hydraulic fluid flow and pressure for actuating said apparatus, said
inching system comprising:
a forward-reverse valve fluidly connected to said rear drive means for
delivering hydraulic fluid to said rear drive means and for controlling
the direction of travel of said vehicle;
a control valve fluidly connected to said forward-reverse valve for
controlling the amount of hydraulic fluid delivered from said
forward-reverse valve to said rear drive means;
an orifice through which hydraulic fluid must flow from said source to said
control valve for restricting the amount of hydraulic fluid delivered to
said control valve to a level below the amount of hydraulic fluid
delivered to said apparatus;
means for metering hydraulic fluid from said control valve so that fluid
pressure from said control valve to said forward-reverse valve is
progressively reduced, such reduction in fluid pressure progressively
reducing the amount of hydraulic fluid delivered from said forward-reverse
valve to said rear drive means; and
means for selectively actuating said metering means.
9. In a vehicle having mechanically actuated front drive means including a
main drive transmission, hydraulically actuated rear drive means, brake
means, hydraulically actuated apparatus for performing work functions, a
source of hydraulic fluid and conduit means for delivering hydraulic
fluid, an inching system for moving said vehicle at reduced speeds while
maintaining sufficient hydraulic fluid flow and pressure for actuating
said apparatus, said inching system comprising:
means for controlling the fluid pressure to said rear drive means;
means through which hydraulic fluid must flow from said source to said
controlling means for restricting the flow of hydraulic fluid to said
controlling means to a level below that of the flow to said apparatus;
a variable inching valve having a passage therethrough for metering
hydraulic fluid from said controlling means at a progressively increasing
rate to progressively reduce the fluid pressure available to said rear
drive means; and
means for selectively actuating said variable inching valve, said actuating
means being movable from a first position in which said front and rear
drive means are operative to a second position in which said main drive
transmission is placed in neutral to disconnect said front drive means so
that said rear drive means alone is operative, said actuating means then
being movable through a third position in which said passage of said
variable inching valve becomes increasingly larger to drain hydraulic
fluid from said controlling means at said progressively increasing rate
and said brake means become operative, and said actuating means then being
movable to a fourth position in which the fluid pressure available to said
rear drive means is reduced to a level which inactivates said rear drive
means so that said brake means alone is operative.
10. An inching system as recited in claim 9 wherein said controlling means
comprises:
a forward-reverse valve fluidly connected to said rear drive means for
delivering hydraulic fluid to said rear drive means and for controlling
the direction of travel of said vehicle and a control valve fluidly
connected to said forward-reverse valve for controlling the amount of
hydraulic fluid said forward-reverse valve is able to deliver to said rear
drive means.
11. An inching system as recited in claim 9 wherein said restricting means
is an orifice having a flow path narrower than that of said conduit means
and being positioned remotely from the flow of hydraulic fluid from said
source to said apparatus.
12. An inching system as recited in claim 9 wherein said actuating means is
an operator controlled pedal in said vehicle which is selectively movable
from said first position through said fourth position, said pedal being so
linked to said variable inching valve that fluid is drained from said
controlling means at a progressivly increasing rate in proportion to the
movement of said pedal through said third position.
13. An inching system as recited in claim 9 further comprising means for
actuating said brake means independently of said means for actuating said
fluid metering means.
14. An inching system as recited in claim 9 further comprising a second
means for selectively actuating said fluid metering means being movable
from said first position through at least said second position. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
1. Field of the Invention:
The present invention relates to inching control systems, and more
particularly, to a rear drive inching control system.
2. Description of the Prior Art:
Rough terrain vehicles for performing work functions such as forklifts,
must maintain a high engine speed to perform the intended work function
while having a precise low speed drive control for slow travel. One means
of achieving such low speed drive control is by built-in modulation of the
drive line transmission.
An inching system used in a conventional rough terrain vehicle with
mechanical front drive and hydraulic rear drive employs a complicated
linkage system to control a variable potentiometer which in turn controls
a torque motor actuated pilot valve. The pilot valve outputs a
differential pressure proportional to the input current. The output
pressure controls a forward-reverse valve which in turn controls the drive
system. Inching systems of this kind are difficult to maintain and, due to
hydraulic fluid leakage through the pilot valve, experience control
problems at low engine speeds.
A variety of inching control systems have been proposed. For example,
Zeller et al. U.S. Pat. No. 4,006,805 describes an inching control system
for a forklift or similar vehicle. The system includes a pump, a
directional control valve, forward/reverse clutches, an inching valve, a
narrowed orifice and a braking system. The pump draws fluid from a
reservoir to supply the directional control valve. Depending on the
operator-selected positioning of the directional control valve, fluid is
directed toward the forward or reverse clutch. Intermediate the pump and
the directional control valve is a bypass inching valve and a narrowed
orifice. The fluid normally flows through the inching valve to the
directional control valve, bypassing the orifice. When the brake is
depressed slightly, the inching valve begins to close, restricting flow
therethrough. Fluid then reaches the directional control valve through the
narrowed orifice, decreasing the pressure to the forward or reverse
clutch. Further depression of the brake will stop the vehicle.
Kitano et al. U.S. Pat. No. 3,948,366 describes inching and regulating
valves for clutches in industrial vehicles. The inching valve, which is
disposed within the fluid circuit connecting a pump to a fluid pressure
type clutch, controls the degree to which the clutch is actuated. When the
brake is depressed, fluid pressure from the regulator valve flows to the
inching valve to be exhausted. A lower pressure is therefore available to
a forward/reverse valve than the pressure between the pump and the
regulator valve. A lower pressure is thereby exerted against the clutch so
that the transmission is moved from a semi-clutched to a declutched
condition.
Conrad U.S. Pat. No. 3,240,371 describes an inching control system in which
an inching control valve is fluidly connected to forward/reverse clutches.
Fluid power can be transferred to boom actuators at any desired speed
while the vehicle can be inched as desired due to the clutching control of
the inching valve. The inching valve is actuated when the boom is raised
by means of a valve operatively connected to a carriage.
Quayle U.S. Pat. No. 3,339,363 discloses a mechanism for permitting high
speed operation of an engine in an industrial vehicle for performing work
functions, while controlling the fluid available to a hydraulic motor for
achieving a slow inching speed. By depressing an inching pedal a control
valve in a valve block moves into a position for diverting fluid from the
motor and for preventing fluid from leaving the motor, thereby achieving a
braking action to control the speed of the vehicle. At the same time, an
accelerator can be depressed to speed the engine to provide hydraulic
fluid for the desired function.
Additional speed reduction systems are shown by Schroeder U.S. Pat. No.
2,883,015; Dandro U.S. Pat. No. 3,288,256; Eaton U.S. Pat. No. 3,750,762;
Mori U.S. Pat. No. 3,702,648 and Hatcher U.S. Pat. No. 3,779,608.
The prior art inching systems are adapted for use with mechanical drive
means and are controlled by conventional torque converter combination
transmissions with clutches. It is believed that the steering for inching
travel can be more precise and better controlled when a hydraulic rear
axle steering system is employed. In drive systems having a mechanically
actuated front drive means and a hydraulically actuated rear drive means,
the prior art inching systems are not suitable.
It is an object of the present invention to provide a rear drive inching
system for use in vehicles having mechanically actuated front drive means
and hydraulically actuated rear drive means. It is a further object of the
present invention to provide an inching system for such a vehicle which
offers consistant and precise operator control throughout the range of
engine speeds and which has fewer working parts to permit lower costs and
easier maintenance.
SUMMARY OF THE INVENTION
The present invention provides an inching system for use in a vehicle
having mechanically actuated front drive means including a main drive
transmission, hydraulically actuated rear drive means, brake means,
hydraulically actuated apparatus for performing work functions, a source
of hydraulic fluid and conduit means for delivering hydraulic fluid. The
inching system permits the vehicle to be moved at reduced speeds while
maintaining sufficient hydraulic flow and pressure for actuating the
work-performing apparatus.
The inching system includes means for controlling the fluid pressure to the
rear drive means, means for restricting the flow of hydraulic fluid from
the source of fluid to the controlling means to a level below that of the
flow to the apparatus, means for metering hydraulic fluid from the
controlling means so that fluid pressure available to the rear drive means
is progressively reduced, and means for selectively actuating the fluid
metering means.
The actuating means, preferably at least one pedal in the cab of the
vehicle, is movable from a first position in which the front and rear
drive means are operative to a second position in which the main drive
transmission is placed in neutral to disconnect the front drive means so
that the rear drive means alone is operative. The actuating means is then
movable through a third position in which the fluid metering means is
actuated to drain fluid from the controlling means at a progressively
increasing rate, preferably in proportion to the movement of the actuating
means through the third position. Finally, the actuating means is movable
to a fourth position in which the rear drive means is inoperative and the
brake means alone are operative. The brake means are preferably actuated
toward the end of the third position to provide a smooth transition from
the inching movement to braking.
The vehicle may include means for actuating the brake means independently
of the means for actuating the fluid metering means. In yet another
embodiment, a second means for actuating the fluid metering means may be
provided which is movable from the first position to at least the second
or third positions.
The controlling means includes a forward-reverse valve fluidly connected to
the rear drive means for delivering hydraulic fluid to the rear drive
means and for controlling the direction of travel of the vehicle and a
control valve fluidly connected to the forward-reverse valve for
controlling the amount of hydraulic fluid the forward-reverse valve is
able to direct to the rear drive means. The restricting means is an
orifice through which hydraulic fluid must flow from the source of fluid
to the control valve. The orifice has a flow path narrower than that of
the conduit means and is positioned remotely from the flow of hydraulic
fluid from the source to the apparatus.
The metering means is a variable inching valve having a spool which rotates
in response to the movement of the actuating means through the third
position. The rotation of the spool provides an increasingly larger
passage through which hydraulic fluid is drained from the controlling
means at a progressively increasing rate to progressively reduce the fluid
pressure available to the rear drive means. The restricted flow to the
control valve and the progressive drainage of hydraulic fluid from the
control valve reduce the pressure available to the rear drive means so
that the vehicle can be moved slowly without interfering with the fluid
flow to the work-performing apparatus. The engine speed can be relatively
high to pump sufficient hydraulic fluid to the work-performing apparatus
without pumping high pressure fluid to the rear drive means.
BRIEF DESCRIPTION OF THE DRAWINGS
The present invention can be better understood by reference to the drawings
in which:
FIG. 1A is a schematic diagram of a portion of the preferred embodiment of
the inching system of the present invention incorporated in portions of
the hydraulic flow path of the vehicle; and
FIG. 1B is a continuation of the schematic diagram of FIG. 1A showing
additional portions of the inching system and the vehicle hydraulics.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
FIGS. 1A and 1B schematically illustrate the inching system of the present
invention as incorporated into relevant portions of the hydraulic system
of a vehicle. The present invention is particularly suited for use with a
vehicle for performing work functions, such as forklifts or other material
handling vehicles. The vehicle for which the inching system is preferred
is one having a mechanically actuated front drive system and a
hydraulically actuated rear drive system. The work-performing apparatus
are also hydraulically actuated. The components illustrated schematically
in FIGS. 1A and 1B may be any suitable known valves, electrical switches,
pumps, motors or other components which will perform the functions
required by the inching system of the present invention.
FIG. 1B illustrates the main pump 12 and pilot pump 14. An accumulator 16
and accumulator charging valve 18 are shown. The system acts to insure
that the accumulator 16 is charged so that adequate pressure is available
to the brake system 20. For obvious safety considerations, priority is
given to the brake system 20. Having achieved that, the accumulator
charging valve 18 shifts to the left (as viewed in the schematic
illustrations of FIGS. 1A and 1B) to permit the flow of hydraulic fluid
from pump 14 through conduit 22.
A relief valve 24 positioned along conduit 22 is set, in the preferred
embodiment, at 400 psi. When that pressure level is achieved, relief valve
24 opens. The designations "left" and "right" as used herein refer to the
position of items on the FIGS. 1A and 1B and are used for purposes of
discussion only. Those skilled in the art will recognize that actual
positions can be reversed.
Conduit 23 directs hydraulic fluid from main pump 12 to a main apparatus
control valve means for controlling the work-performing apparatus, shown
generally at 70. Any suitable known work-performing apparatus and main
valve means for controlling such apparatus can be employed in a vehicle
having the inching system of the present invention. Conduit 22 directs
hydraulic fluid from the pilot pump 14 to any suitable operator-controlled
means 72, such as a joystick, for controlling the main apparatus control
valve means 70. The operator-controlled means 72 directs pilot pressure to
the main apparatus control valve means 72.
Conduit 22 branches to conduit 26 to direct hydraulic fluid to
series-parallel control valves 28 and 30. The series-parallel control
valves, 28 and 30, direct pilot pressure along lines 32 and 34 to either
the left or right side, respectively, of the series-parallel valve 36. The
series-parallel control valves, 28 and 30, are activated electronically
when the main drive transmission 40, shown in FIG. IA, is shifted to
either first gear 42 or second gear 44. Shifting to first gear 42 sends an
electronic signal to series-parallel control valve 30 which then directs
pilot pressure along line 34 to the right side of the series-parallel
valve 36. The valve spool is shifted to divert the flow of hydraulic fluid
to each rear drive motor, 35 and 37, equally (parallel flow). Shifting to
second gear 44 sends an electronic signal to series-parallel control valve
28 which then directs pilot pressure along line 32 to the left side of the
series-parallel valve 36. The flow of hydraulic fluid is routed in series
from drive motor 35 to drive motor 37 to double the motor speed in second
gear.
Shifting to third gear 46 sends an electronic signal to cavitation solenoid
valve 38.
Conduit 26 also directs hydraulic fluid to stabilizing cylinders 48 and 50
which relate to the function of the work-performing apparatus and will not
be discussed in detail herein. A switch 52 associated with the
work-performing apparatus sends an electronic signal to a solenoid valve
54 to control the delivery of hydraulic fluid to the stabilizing cylinders
48 and 50.
Conduit 22 branches to conduit 56 where the hydraulic fluid is directed
through filtration strainer 58, and orifice 60 to a directional control
solenoid valve 62. Orifice 60 is, in the preferred embodiment, about 0.027
inches in diameter, but may vary depending on the requirements of the
particular hydraulic system. In all cases, the flow path through orifice
60 is narrower than the flow path through the system conduits in general,
and specifically through conduits 22 and 23 which direct hydraulic fluid
to the main apparatus control valve means 70 and the operator controlled
means 72 for controlling the main apparatus control valve means 70.
Orifice 60 restricts the flow of hydraulic fluid from the pilot pump 14 to
the directional control solenoid valve 62 to a level below that of the
flow to the main apparatus control valve means 70 or the associated
operator controlled means 72. As shown in FIG. 1A, orifice 60 is
positioned intermediate pump 14 and directional control solenoid valve 62
but remote from the flow of hydraulic fluid from the pumps 12, 14 to the
main apparatus control valve means 70 and the operator controlled means
72. Orifice 60 is a fixed orifice so that the flow to directional control
solenoid valve 62 will always be restricted relative to the flow through
the system conduits to other components.
Directional control solenoid valve 62 is operative in first, second or
third gear when the front drive transmission is placed in reverse and in
first or second gear when the front drive transmission is placed in
forward. When either first or second gear is selected, an electrical
signal passes through a diode 64 and a forward drive switch 66 to the
right side of directional control solenoid valve 62. When the vehicle is
placed in reverse, the reverse switch 68 sends an electrical signal to the
left side of directional control solenoid valve 62. For safety
considerations, a back-up alarm 74 is preferably also sounded when the
vehicle is in reverse.
The forward and reverse switches, 66 and 68, control the direction of
travel by diverting pilot pressure from the appropriate port of the
directional control solenoid valve 62 to the forward-reverse valve 76 (see
FIG. 1B) in the appropriate direction. The direction of flow of hydraulic
fluid to the series-parallel valve 36 is changed as needed to coordinate
the rear drive with the front drive.
A fine inch valve 88 is fluidly connected to the directional control
solenoid valve 62 to selectively drain hydraulic fluid from valve 62 so
that the flow available to the rear drive motors 35 and 37 through the
forward-reverse valve 76 is progressively reduced. The fine inch valve 88
is selectively actuated by the operator of the vehicle by depressing brake
pedal 78 in the cab of the vehicle. When the vehicle is in first or second
gear, an electrical signal passes through diode 64 to a transmission
disconnect switch 80. When the pedal 78 is depressed, it contacts and
moves a roller contact switch 82 to close the circuit in the transmission
disconnect switch 80. The electrical signal from the diode 64 is then
passed to the low torque inching solenoid valve 84. Pilot pressure is then
directed through the orifice check valve 86, then to the transmission 40
to disconnect the main drive transmission by throwing it into neutral.
Prior to this point, when the pedal 78 is at rest, in a first position,
both the rear drive and the front drive systems are operative. Once the
main drive transmission is disconnected by moving the pedal 78 to a second
position, only the rear drive system is operative for effecting inching
control.
Further depression of the pedal 78 moves it through a third position in
which the pedal 78 rotates a spool in the variable fine inch valve 88 to
open the valve 88 and drain hydraulic fluid from the directional control
solenoid valve 62 and pass the fluid to a low pressure tank 90. A passage
through the valve 88 becomes increasingly larger as the spool rotates,
preferably in proportion to the depression of pedal 78 through the range
that constitutes the third position. The increasingly larger passage
drains the directional control solenoid valve 62 at an increasingly
greater rate.
Due to the metered drainage of fluid from valve 62 through the fine inch
valve 88 and the restricted flow to the valve 62 through orifice 60, the
fluid pressure to the forward-reverse valve 76 is capable of being
modulated or reduced to 0 pressure.
During the movement of pedal 78 through the third position, the brakes
preferably become operative to effect a smooth transition from the inching
travel to stopping the vehicle. When the pedal 78 is moved into a fourth
or final position, the inching travel ceases and the braking system alone
is operative. When the pilot pressure to the forward-reverse valve 76
falls below a predetermined level, for example 60 psi in the preferred
embodiment, the forward-reverse valve 76 is thrown into neutral. The flow
of hydraulic fluid from pump 12 is diverted to the low pressure tank 90.
The rear drive motors 35 and 37 are shut off and the brakes alone are
operative. In another embodiment, a second pedal is provided in the cab of
the vehicle which will permit inching control but which will not actuate
the brakes. Alternatively an independent means for operating the brakes
may be provided. Finally, two redundant, totally functional pedals for
actuating the fine inch valve 88 from its first position through its
fourth position may be provided.
The inching control system of the present invention employs the combination
of the directional control solenoid valve 62 and the forward-reverse valve
76 to control the fluid pressure to the rear drive motors 35 and 37. The
inching system progressively squeezes off the flow of hydraulic fluid to
the rear drive motors 35 and 37 by means of the metered drainage through
fine inch valve 88 and the restricted flow through orifice 60 to valve 62.
The pedal 78 provides a means for selectively actuating the fine inch
valve 88 to permit operator control of the modulation and/or reduction of
fluid pressure to the rear drive motors 35 and 37.
The inching control system of the present invention can be incorporated
into any suitable fluid powered system for operating a vehicle and its
work-performing apparatus. While the vehicle hydraulic flow system
illustrated in FIGS. 1A and 1B represent the best mode of achieving
inching control in a vehicle of the type discussed herein, those skilled
in the art will recognize that variations of the relevant vehicle
hydraulics and of the types of valves, pumps and electrical switches
employed can be made without exceeding the scope of the present invention.
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Description |
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