Title of Invention

A SYSTEM FOR SELECTIVELY ENGAGING AND DISENGAGING AUXILARY EQUIPMENT TO PREVENT GEAR CLASH IN A VEHICLE

Abstract A system and method for selectively engaging and disengaging auxiliary equipment to avoid gear clash in a vehicle is disclosed. The system includes a transmission, a transfer case, and a transmission controller. The transmission has a plurality of gears for establishing a plurality of gear ratios. The transfer case is coupled to the transmission by an output shaft. The transmission controller is in communication with a plurality of control devices for controlling the operation of the transmission. The controller includes control logic for controlling the engagement and disengagement of the auxiliary equipment. The control logic has a first control logic for determining whether an operator has actuated a selector switch, a second control logic for actuating a torque transmitting device to engage or disengage the auxiliary equipment and avoid gear clash, a third logic for monitoring the engagement or disengagement of the auxiliary equipment, and a fourth control logic determining whether the auxiliary equipment has been engaged or disengaged.
Full Text GP309169/PTA/DLT
GEAR CLASH LOGIC
TECHNICAL FIELD
[0001] The present invention relates to systems and methods for preventing gear
clash in vehicles having a transfer case that couples a transmission output shaft to
auxiliary equipment.
BACKGROUND
[0002] Commercial vehicles such as fire truck pumpers, sewer cleaners, and oil
field pumpers include an auxiliary gearbox or transfer case that is connected to the output
shaft of the vehicle's transmission. In auxiliary equipment mode, the transfer case drives
auxiliary equipment, and the transmission controller provides a secondary mode of
operation. A secondary mode of operation could be a single forward range or all ranges
with a shift schedule specific to the auxiliary equipment.
[0003] The process of transfer case engagement and disengagement with
auxiliary equipment takes place with the transmission output shaft locked by applying
locking clutches. The locking clutch application is referred to as Neutral Very Low
(NVL) range. In NVL, auxiliary equipment engagement and disengagement is difficult
to achieve when gear teeth do not line up properly such that a "gear-clash" condition
exists. "Gear-clash" in the transfer case cannot be overcome with a transfer case
actuator. Operators will attempt to eliminate "gear-clash" by selecting drive or reverse.
A high failure rate of transfer case actuators is attributed to "gear-clash".
[0004] Thus, there is a need for a system and method to preventing "gear-clash".
The system and method for preventing "gear-clash" should operate during engagement
and disengaging of the auxiliary equipment.
SUMMARY
[0005] In an aspect of the present invention, a system is provided for selectively
engaging and disengaging auxiliary equipment to avoid gear clash in a vehicle. The
system includes a transmission, a transfer case, and a transmission controller. The
transmission has a plurality of gears for establishing a plurality of gear ratios. The
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transfer case is coupled to the transmission by an output shaft. The transmission
controller is in communication with a plurality of control devices for controlling the
operation of the transmission. The controller includes control logic for controlling the
engagement and disengagement of the auxiliary equipment. The control logic has a first
control logic for determining whether an operator has actuated a selector switch, a second
control logic for actuating a torque transmitting device to engage or disengage the
auxiliary equipment and avoid gear clash, a third logic for monitoring the engagement or
disengagement of the auxiliary equipment, and a fourth control logic determining
whether the auxiliary equipment has been engaged or disengaged.
[0006] In another aspect of the present invention, the second control logic
includes determining whether a transmission output speed is greater than a predefined
output speed threshold.
[0007] In yet another aspect of the present invention, the second control logic
includes engaging a torque transmitting device to lock the transmission output shaft.
[0008] In yet another aspect of the present invention, the second control logic
includes incrementing a first timer after the transmission output shaft is locked.
[0009] In still another aspect of the present invention, the second control logic
includes comparing a first recorded time recorded by the first timer to a first time
threshold.
[0010] In still another aspect of the present invention, the second control logic
includes disengaging the torque transmitting device to allow the transmission output shaft
to rotate.
[0011] In still another aspect of the present invention, the second control logic
includes incrementing a second timer after the torque transmitting device has been
disengaged to allow the transmission output shaft to rotate.
[0012] In still another aspect of the present invention, the second control logic
includes comparing a second recorded time recorded by the second timer to a second time
threshold.
[0013] In still another aspect of the present invention, a method for selectively
engaging and disengaging auxiliary equipment to avoid gear clash in a transfer case of a
vehicle is provided. The method includes determining whether an operator has actuated a
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selector switch, actuating a torque transmitting device to engage or disengage the
auxiliary equipment and avoid gear clash, monitoring the engagement or disengagement
of the auxiliary equipment, and determining whether the auxiliary equipment has been
engaged or disengaged.
[0014] The above features and advantages and other features and advantages of
the present invention are readily apparent from the following detailed description of the
best modes for carrying out the invention when taken in connection with the
accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] FIGURE 1 is a schematic diagram of a system for selectively powering
auxiliary equipment to avoid gear clash in a vehicle, in accordance with an embodiment
of the present invention;
[0016] FIGURE 2 is a flowchart of a method for controlling the engagement of
auxiliary equipment, in accordance with an embodiment of the present invention;
[0017] FIGURE 3 is a flowchart of a method for controlling the disengagement of
the auxiliary equipment, in accordance with an embodiment of the present invention;
[0018] FIGURE 4 is a flowchart of method for engaging the auxiliary equipment
and preventing "gear clash", in accordance with an embodiment of the present invention;
and
[0019] FIGURE 5 is a flowchart of a method for disengaging the auxiliary
equipment and preventing "gear clash", in accordance with an embodiment of the present
invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0020] Referring to the drawings, wherein like reference numbers refer to like
components, in Figure 1 a system 10 for selectively powering a first set of equipment 12
and a second set or auxiliary set of equipment 14 to avoid gear clash is schematically
illustrated. The present invention contemplates that the teachings described herein may
be most useful in vehicles having auxiliary power equipment that require a power transfer
from the transmission. For example, commercial vehicles such as fire trucks, sewer
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cleaners and oil field pumpers all have auxiliary equipment that require a power transfer
from the transmission to operate. Of course, one of ordinary skill in the art will
appreciate that the teachings of the present invention can be applied not only to these
types of vehicles but to other vehicles and systems as well.
[0021] In an embodiment of the present invention, system 10 includes a
transmission 16, a transfer case 18, a transmission controller 20 and control logic
embodied in hardware, software, or a combination of hardware and software within
controller 20. The transmission 16 is a conventional vehicle transmission and, generally,
has a plurality of gears for establishing a plurality of gear ratios. For example,
transmission 16 is the transmission shown and described in US Patent No. 4,070,927,
hereby incorporated by reference. Transmission 16 may have six forward gear speeds or
gear ratios and two reverse gear speeds or gear ratios. Of course, the present invention
contemplates is operable with transmissions having other gear speeds. Transmission 16
typically has a plurality torque transmitting devices (not shown) for selectively
transferring power between the plurality of gears and ultimately to a transmission output
shaft 22. Moreover, at least one of torque transmitting devices is configured to
selectively prevent rotation of the transmission output shaft 22. The torque transmitting
devices are clutches or brakes as well known in the field of transmissions.
[0022] The transfer case 18 includes a plurality of gears to transfer torque or
power from the transmission to auxiliary equipment 14. The transmission output shaft 22
couples the transfer case 18 to transmission 16. The transmission controller 20,
generally, includes a processor (not shown) in communication with electronic memory
storage devices (not shown). Further, control logic is also provided in controller 20 and
may be implemented in hardware, software, or a combination of hardware and software.
For example, a control logic may be in the form of program code that is stored on the
electronic memory storage and executable by the processor. Generally, controller 20
receives transmission speed signals from transmission speed sensors 23 mounted to
transmission 16. Additionally, transmission controller 20 receives other inputs from
other vehicle input devices 24 such as an auxiliary mode selection switch. The auxiliary
mode selection switch provides an output to controller 20 indicative of an operator
requesting auxiliary power mode or the engagement of the auxiliary equipment 14.
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Further, a positive engagement switch or sensor 26 is in communication with the
auxiliary equipment 14 and the transmission controller. The positive engagement switch
26 provides an output to controller 20 indicative of engagement or disengagement of the
auxiliary equipment 14. The controller 20 receives these inputs and selectively activates
a plurality control devices such as the torque transmitting devices to control the operation
of the transmission and the rotation of the transmission output shaft 22.
[0023] For example, a control logic implemented in software program code that is
executable by the processor of controller 20 includes a first control logic for determining
whether an operator has actuated a selector switch, a second control logic for determining
whether a transmission output speed is greater than a output speed threshold, a third
control logic for engaging a torque transmitting device to lock the transmission output
shaft, a fourth control logic for incrementing a first timer after the transmission output
shaft is locked, a fifth control logic for comparing a first recorded time recorded by the
first timer to a first time threshold, a sixth control logic for disengaging the torque
transmitting device to allow the transmission output shaft to rotate, a seventh control
logic for incrementing a second timer after the torque transmitting device has been
disengaged to allow the transmission output shaft to rotate and an eighth control logic for
comparing a second recorded time recorded by the second timer to a second time
threshold.
[0024] Referring now to Figure 2, a flowchart of a method 30 for controlling the
engagement of the second set or auxiliary set of equipment is illustrated, in accordance
with an embodiment of the present invention. The method is initiated at block 32 with
the vehicle having the auxiliary equipment originally being in a normal mode of
operation with the auxiliary equipment disengaged. At block 34, the method determines
whether an auxiliary equipment mode has been selected by a vehicle operator indicative
of a desire to engage the auxiliary equipment. If the method has determined that an
auxiliary equipment mode has been requested, then method enters an engage gear clash
logic routine, as represented by block 36, to prevent gear clash in the transfer case and
engage the auxiliary equipment, as will be described in further detail hereinafter.
However, if the method of the present invention determines that auxiliary equipment
mode has not been requested then the method returns to block 32. At block 38, the
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method determines whether the auxiliary equipment is engaged by monitoring an
auxiliary equipment engagement sensor. If the method determines that the auxiliary
equipment is engaged at block 38, then the method terminates in auxiliary equipment
mode, as represented by block 40. However, if the method of the present invention
determines that the auxiliary equipment has not been engaged then the method returns to
block 36 and re-enters the engage gear clash logic routine.
[0025] Referring now to Figure 3, a flowchart of a method 50 for controlling the
disengagement of the second set or auxiliary set of equipment is illustrated, in accordance
with an embodiment of the present invention. Method 50 is initiated at block 52 with the
vehicle having the auxiliary equipment being in an auxiliary equipment mode of
operation with the auxiliary equipment engaged. At block 54, the method determines
whether normal operation mode has been selected by a vehicle operator indicative of a
desire to disengage the auxiliary equipment. If the method has determined that a normal
operation mode has been requested, then method enters a disengage gear clash logic
routine, as represented by block 56, to prevent gear clash in the transfer case and
disengage the auxiliary equipment, as will be described in further detail hereinafter.
However, if the method of the present invention determines that normal operation mode
has not been requested then the method returns to block 52. At block 58, the method
determines whether the auxiliary equipment is disengaged by monitoring an auxiliary
equipment engagement sensor. If the method determines that the auxiliary equipment is
disengaged at block 58, then the method terminates in normal operation mode, as
represented by block 60. However, if the method of the present invention determines that
the auxiliary equipment has not been disengaged then the method returns to block 56 and
re-enters the disengage gear clash logic routine.
[0026] Referring now to Figure 4, a flowchart of method 70 for engaging the
auxiliary set of equipment and preventing "gear clash" is illustrated, in accordance with
an embodiment of the present invention. Method 70 is initiated at block 72 with the
vehicle operator requesting engagement of the auxiliary equipment. At block 74, the
method determines whether the transmission has been placed in neutral and compares the
transmission output speed with a predefined speed threshold (Enter_NVL_Thresh). If the
method has determined that transmission has been placed in neutral and that the
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transmission output speed is less than the predefined speed threshold then, the torque
transmitting devices are engaged to lock the transmission output shaft and prevent further
rotation, as represented by block 76. However, if method 70 of the present invention
determines that the transmission has not been placed in neutral or that the transmission
output speed is greater than the predefined speed threshold (Enter_NVL_Thresh), then
the method returns to block 72. At block 78, a first timer (NVL_Timer) is incremented
and recorded. The time recorded by the NVL_Timer is compared to a predefined time
threshold (Time_in_NVL_Thresh), as represented by block 80. If at block 80 the method
70 determines that the time recorded by NVL_Timer is greater than
Time_in_NVL_Thresh then, the torque transmitting device (Clutch C4) is disengaged to
allow the transmission shaft to rotate, as represented by block 82. However, if the
method of the present invention determines that the time recorded by NVL_Timer is not
greater than Time_in_NVL_Thresh then the method returns to block 76 and re-enters the
disengage gear clash logic routine. At block 84, a second timer NC5_Timer is
incremented and the time is recorded. The time recorded by the NC5_Timer is compared
to a predefined time threshold (Time_in_NC5_Thresh) and the transmission output speed
is compared to a speed threshold (Irnrned_NVL_Thresh), as represented by block 86. If
at block 86 the method 70 determines that the time recorded by NC5_Timer is greater
than Time_in_NC5_Thresh or if the transmission output speed is greater than
Immed_NVL_Thresh then, the method returns to block 76. However, if method 70 of the
present invention determines that the time recorded by NC5_Timer is not greater than
Time_in_NC5_Thresh or if the transmission output speed is not greater than
Immed_NVL_Thresh then, the method returns to block 82.
[0027] Referring now to Figure 5, a flowchart of method 90 for disengaging the
auxiliary set of equipment and preventing "gear clash" is illustrated, in accordance with
an embodiment of the present invention. Method 90 is initiated at block 92 with the
vehicle operator requesting normal operation mode or disengagement of the auxiliary
equipment. At block 94, the method determines whether the transmission has been
placed in neutral and compares the transmission output speed with a predefined speed
threshold (Exit_NVL_Thresh). If method 90 has determined that transmission has been
placed in neutral and that the transmission output speed is less than Exit_NVL_Thresh
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then, the torque transmitting devices (i.e. clutches) are engaged to lock the transmission
output shaft and prevent further rotation, as represented by block 96. However, if method
90 of the present invention determines that the transmission has not been placed in
neutral or that the transmission output speed is greater than the predefined speed
threshold (Exit_NVL_Thresh), then the method returns to block 92. At block 98, a first
timer (NVL_Timer) is incremented and recorded. The time recorded by the NVL_Timer
is compared to a predefined time threshold (Time_in_NVL_Thresh), as represented by
block 100. If at block 100 the method 90 determines that the time recorded by
NVL_Timer is greater than Time_in_NVL_Thresh then, the torque transmitting device
(Clutch C4) is disengaged to allow the transmission shaft to rotate, as represented by
block 102. However, if the method of the present invention determines that the time
recorded by NVL_Timer is not greater than Time_in_NVL_Thresh, then the method
returns to block 96 and the engaged clutches continue to lock the transmission shaft. At
block 104, a second timer NC5_Timer is incremented and the time is recorded. The time
recorded by the NC5_Timer is compared to a predefined time threshold
(Time_in_NC5_Thresh) and the transmission output speed is compared to a speed
threshold (Immed_NVL_Thresh), as represented by block 106. If at block 106 the
method 90 determines that the time recorded by NC5_Timer is greater than
Time_in_NC5_Thresh or if the transmission output speed is greater than
Immed_NVL_Thresh then, the method returns to block 96. However, if method 90 of the
present invention determines that the time recorded by NC5_Timer is not greater than
Time_in_NC5_Thresh or if the transmission output speed is not greater than
Immed_NVL_Thresh then, the method returns to block 102 and clutch C4 remains
disengaged to allow the transmission output shaft to rotate.
[0028] While the best modes for carrying out the invention have been described
in detail, it is to be understood that the terminology used is intended to be in the nature of
words and description rather than of limitation. Those familiar with the art to which this
invention relates will recognize that many modifications of the present invention are
possible in light of the above teachings. It is, therefore, to be understood that within the
scope of the appended claims, the invention may be practiced in a substantially
equivalent way other than as specifically described herein.
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CLAIMS
1. A system for selectively engaging and disengaging an auxiliary equipment
to avoid gear clash in a vehicle, the system comprising:
a transmission having a plurality of gears for establishing a plurality of
gear ratios;
a transfer case coupled to the transmission by an output shaft;
a transmission controller in communication with a plurality control
devices for controlling the operation of the transmission and wherein the controller
includes control logic for controlling the engagement and disengagement of the auxiliary
equipment, the control logic includes:
a first control logic for determining whether an operator has actuated a
selector switch;
a second control logic for actuating a torque transmitting device to engage
or disengage the auxiliary equipment and avoid gear clash;
a third logic for monitoring the engagement or disengagement of the
auxiliary equipment; and
a fourth control logic determining whether the auxiliary equipment has
been engaged or disengaged.
2. The system of claim 1, wherein the second control logic further comprises
determining whether a transmission output speed is greater than a predefined output
speed threshold.
3. The system of claim 1, wherein the second control logic further comprises
engaging a torque transmitting device to lock the transmission output shaft.
4. The system of claim 3, wherein the second control logic further comprises
incrementing a first timer after the transmission output shaft is locked.
5. The system of claim 4, wherein the second control logic further comprises
comparing a first recorded time recorded by the first timer to a first time threshold.
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6. The system of claim 3, wherein the second control logic further comprises
disengaging the torque transmitting device to allow the transmission output shaft to
rotate.
7. The system of claim 6, wherein the second control logic further comprises
incrementing a second timer after the torque transmitting device has been disengaged to
allow the transmission output shaft to rotate.
8. The system of claim 7, wherein the second control logic further comprises
comparing a second recorded time recorded by the second timer to a second time
threshold.
9. A method for selectively engaging and disengaging auxiliary equipment to
avoid gear clash in a transfer case of a vehicle, the method comprising:
determining whether an operator has actuated a selector switch;
actuating a torque transmitting device to engage or disengage the auxiliary
equipment and avoid gear clash;
monitoring the engagement or disengagement of the auxiliary equipment;
and
determining whether the auxiliary equipment has been engaged or
disengaged.
10. The method of claim 9, further comprising determining whether a
transmission output speed is greater than a predefined output speed threshold.
11. The method of claim 9, further comprising engaging a torque transmitting
device to lock the transmission output shaft.
12. The method of claim 11, further comprising incrementing a first timer
after the transmission output shaft is locked.
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13. The method of claim 12, further comprising comparing a first recorded
time recorded by the first timer to a first time threshold.
14. The method of claim 11, further comprising disengaging the torque
transmitting device to allow the transmission output shaft to rotate.
15. The method of claim 14, further comprising incrementing a second timer
after the torque transmitting device has been disengaged to allow the transmission output
shaft to rotate.
16. The method of claim 15, further comprising comparing a second recorded
time recorded by the second timer to a second time threshold.

11

A system and method for selectively engaging and disengaging auxiliary
equipment to avoid gear clash in a vehicle is disclosed. The system includes a
transmission, a transfer case, and a transmission controller. The transmission has a
plurality of gears for establishing a plurality of gear ratios. The transfer case is coupled
to the transmission by an output shaft. The transmission controller is in communication
with a plurality of control devices for controlling the operation of the transmission. The
controller includes control logic for controlling the engagement and disengagement of the
auxiliary equipment. The control logic has a first control logic for determining whether
an operator has actuated a selector switch, a second control logic for actuating a torque
transmitting device to engage or disengage the auxiliary equipment and avoid gear clash,
a third logic for monitoring the engagement or disengagement of the auxiliary equipment,
and a fourth control logic determining whether the auxiliary equipment has been engaged
or disengaged.

Documents:

01123-kol-2007-abstract.pdf

01123-kol-2007-assignment.pdf

01123-kol-2007-claims.pdf

01123-kol-2007-correspondence others 1.1.pdf

01123-kol-2007-correspondence others 1.2.pdf

01123-kol-2007-correspondence others 1.3.pdf

01123-kol-2007-correspondence others.pdf

01123-kol-2007-description complete.pdf

01123-kol-2007-drawings.pdf

01123-kol-2007-form 1.pdf

01123-kol-2007-form 18.pdf

01123-kol-2007-form 2.pdf

01123-kol-2007-form 3.pdf

01123-kol-2007-form 5.pdf

01123-kol-2007-priority document.pdf

1123-kol-2007-abstract.pdf

1123-kol-2007-amanded claims.pdf

1123-kol-2007-amanded pages of specification.pdf

1123-KOL-2007-ASSIGNMENT 1.1.pdf

1123-kol-2007-cancelled pages.pdf

1123-KOL-2007-CORRESPONDENCE 1.1.pdf

1123-KOL-2007-CORRESPONDENCE OTHERS 1.4.pdf

1123-kol-2007-description (complete).pdf

1123-kol-2007-drawings.pdf

1123-KOL-2007-FORM 1 1.1.pdf

1123-kol-2007-form 1-1.2.pdf

1123-kol-2007-form 2.pdf

1123-kol-2007-form 3.pdf

1123-kol-2007-form 5.pdf

1123-KOL-2007-FORM 6-1.1.pdf

1123-KOL-2007-FORM 6.pdf

1123-KOL-2007-OTHERS.pdf

1123-KOL-2007-PA.pdf

1123-KOL-2007-PETITION UNDER RULE 137.pdf

1123-kol-2007-reply to examination report.pdf

abstract-01123-kol-2007.jpg


Patent Number 250640
Indian Patent Application Number 1123/KOL/2007
PG Journal Number 03/2012
Publication Date 20-Jan-2012
Grant Date 16-Jan-2012
Date of Filing 14-Aug-2007
Name of Patentee GM GLOBAL TECHNOLOGY OPERATIONS, INC.
Applicant Address 300 RENAISSANCE CENTER, DETROIT, MICHIGAN 48265-3000, USA
Inventors:
# Inventor's Name Inventor's Address
1 SCOTT E. MUNDY 10835 INDEPENDENCE WAY CARMEL, INDIANA 46032
2 JEFFREY E SHULTZ 7950 E. 400 SOUTH ZIONSVILLE, INDIANA 46077
3 JILL ANN HAMPTON 11369 CLARKSTON ROAD ZIONSVILLE, INDIANA 46077
PCT International Classification Number F16H61/00,F16H63/00
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 11/561,948 2006-11-21 U.S.A.