Home > Aimco Brakes > Monitors > Aimco Brakes Monitor ATM11 Tightening Monitor Operations Manual

Aimco Brakes Monitor ATM11 Tightening Monitor Operations Manual

Add to Favourites
    Download as PDF

    Here you can view all the pages of manual Aimco Brakes Monitor ATM11 Tightening Monitor Operations Manual. The Aimco Brakes manuals for Monitors are available online for free. You can easily download all the documents as PDF.

    Overview View all the pages Comments

    Page 21

    Page 21 20 Programming (Thresholds): Three thresholds exist within the ATM. These thresh- olds govern when the unit starts and stops collecting data, when the unit is in cycle, and when the unit deter- mines that the signal is “clutched out”. Threshold 1 (THR1) acts as a cycle start level for all types of ATMs. When the analog signal on either chan- nel is above THR1, the unit collects that data and stores it in memory. This data is used during the AutoCal TM process or it can also be transmitted via the... 
    20
Programming (Thresholds):
Three thresholds exist within the ATM.  These thresh-
olds govern when the unit starts and stops collecting
data, when the unit is in cycle, and when the unit deter-
mines that the signal is “clutched out”.
Threshold 1 (THR1) acts as a cycle start level for all
types of ATMs.  When the analog signal on either chan-
nel is above THR1, the unit collects that data and stores
it in memory.  This data is used during the  AutoCal
TM
process or it can also be transmitted via the...

    Page 22

    Page 22 21 21 Programming (Thresholds continued): All three thresholds can be adjusted through the program menu. However, there is a software application avail- able that makes this process much easier and much more visual. In order to adjust a threshold’s value, turn the key- switch to PROG and press the MODE button until thedesired threshold abbreviation is in view (THR1, THR2, or THR3). While the threshold abbreviation is on the display, press the SET button. After the SET button is pressed, the value for... 
    21 21
Programming (Thresholds continued):
All three thresholds can be adjusted through the program
menu.  However, there is a software application avail-
able that makes this process much easier and much more
visual.
In order to adjust a threshold’s value, turn the key-
switch to PROG and press the MODE button until thedesired threshold abbreviation
is in view (THR1, THR2, or
THR3).  While the threshold
abbreviation is on the display,
press the SET button.
After the SET button is pressed, the value for...

    Page 23

    Page 23 22 Programming (Firmware Versions): The final two elements in the program menu are the firmware versions. There are two microcontrollers inside the AIM Tightening Monitor (on the front board and one on the back board). Over time, new code releases may be issued to add cus tomer requested functionality or to fix an occasional bug. If new firmware is released, it is given another version number.To determine the firmware versions that are running in any given AIM Tightening Monitor, turn the key to PROG... 
    22
Programming (Firmware Versions):
The final two elements in the program menu are the
firmware versions.  There are two microcontrollers
inside the AIM Tightening Monitor (on the front board
and one on the back board).
Over time, new code releases may be issued to add cus
tomer requested functionality or to fix an occasional
bug.  If new firmware is released, it is given another
version number.To determine the firmware
versions that are running in
any given AIM Tightening
Monitor, turn the key to PROG...

    Page 24

    Page 24 23 23 Examples: The following examples were captured using the AIM Tightening Monitor and the Cyber Q software. Direct Drive Pneumatic Tool: The pneumatic signature was downloaded from a AIM Tightening Monitor that was monitoring a pneumatic direct drive tool. The analog curve has two distinct phases; the rundown phase, and the clutch out phase. If either of the phases were to be missing (or too short as determined by a timer), the fastening cycle would be considered a reject. During the rundown... 
    23 23
Examples:
The following examples were captured using the AIM
Tightening Monitor and the Cyber Q software.  
Direct Drive Pneumatic Tool:
The pneumatic signature was downloaded from a AIM
Tightening Monitor that was monitoring a pneumatic
direct drive tool.  The analog curve has two distinct
phases; the rundown phase, and the clutch out phase.  If
either of the phases were to be missing (or too short as
determined by a timer), the fastening cycle would be
considered a reject.
During the rundown...

    Page 25

    Page 25 24 Examples(Pneumatic Direct Drive continued): In order to properly qualify this process, THR1 is set around 7 psi. So, once the pressure rises above 7 psi, the ATM starts collecting data. Once the pressure drops back down below 7 psi, the ATM stops collecting data. THR2 in this example is set to 25 psi. Once the pres sure rises above 25 psi, the ATM considers the tool to be running and will either give an accept or some form of reject at the end of the cycle. THR3 is set to approximately 65 psi in... 
    24
Examples(Pneumatic Direct Drive continued):
In order to properly qualify this process, THR1 is set
around 7 psi.  So, once the pressure rises above 7 psi,
the ATM starts collecting data.  Once the pressure drops
back down below 7 psi, the ATM stops collecting data.
THR2 in this example is set to 25 psi.  Once the pres
sure rises above 25 psi, the ATM considers the tool to be
running and will either give an accept or some form of
reject at the end of the cycle. 
THR3 is set to approximately 65 psi in...

    Page 26

    Page 26 25 25 Example (Direct Drive Double Hit): In the example above, a direct drive pneumatic tool was used to retighten a fastener that had previously been tightened. In this curve no rundown phase exists. The clutch immediately turns the tool off and therefore TMIN is violated. A reject occurs upon the completion of a run like this one. Example (Direct Drive No Clutch): In the example above, a direct drive pneumatic tool was not allowed to tighten its fastener completely. The process was stopped prior to... 
    25 25
Example (Direct Drive Double Hit):
In the example above, a direct drive pneumatic tool was
used to retighten a fastener that had previously been
tightened.  In this curve no rundown phase exists.  The
clutch immediately turns the tool off and therefore
TMIN is violated.  A reject occurs upon the completion
of a run like this one.
Example (Direct Drive No Clutch):
In the example above, a direct drive pneumatic tool was
not allowed to tighten its fastener completely.  The
process was stopped prior to...

    Page 27

    Page 27 Examples (Pneumatic Pulse Tool):The example above is a curve from a pneumatic pulse type tool. This curve has three phases. The first phase is the run down of the fastener prior to the head of the fastener seating. This initial phase occurs around 40 psi. The second phase of this fastening process is the pulsing phase. The pulsing phase occurs around 53 psi. During this phase, the tool is incrementally adjusting the fasten- er’s torque slightly upward. The final phase occurs when the clutch shuts... 
    Examples (Pneumatic Pulse Tool):The example above is a curve from a pneumatic pulse
type tool.  This curve has three phases.  The first phase
is the run down of the fastener prior to the head of the
fastener seating.  This initial phase occurs around 40 psi.
The second phase of this fastening process is the pulsing
phase.  The pulsing phase occurs around 53 psi.  During
this phase, the tool is incrementally adjusting the fasten-
er’s torque slightly upward.  The final phase occurs
when the clutch shuts...

    Page 28

    Page 28 In this example, THR2 is set between the run-down phase and the pulsing phase. THR2 could be set below the run-down phase, however, a reject will be generated each time the trigger on the tool is pulled. If THR2 is set between the run down phase and the pulsing phase, the tool will have to pulse before any sta- tus (such as an accept or reject) is generated. THR3 is set between the upper peaks of the pulsing phase and the shut-off pressure. Once the pressure rises above this level, the tools is... 
    In this example, THR2 is set between the run-down
phase and the pulsing phase.  THR2 could be set below
the run-down phase, however, a reject will be generated
each time the trigger on the tool is pulled.  
If THR2 is set between the run down phase and the
pulsing phase, the tool will have to pulse before any sta-
tus (such as an accept or reject) is generated.
THR3 is set between the upper peaks of the pulsing
phase and the shut-off pressure.  Once the pressure rises
above this level, the tools is...

    Page 29

    Page 29 Example (Pulse Tool No Clutch): In the example above a pneumatic pulse tool was not allowed to tighten its fastener completely. The process was stopped prior to the tool clutching out and therefore the pressure never rose above THR3. TCLU was violat ed and a reject occurred Example (Pulse Tool Double Hit): In the example above a pneumatic pulse tool was used to retighten a fastener that had previously been tight ened. This curve spends a very brief period between THR2 and THR3 (the rundown phase).... 
    Example (Pulse Tool No Clutch):
In the example above a pneumatic pulse tool was  not
allowed to tighten its fastener completely.  The process
was stopped prior to the tool clutching out and therefore
the pressure never rose above THR3.  TCLU was violat
ed and a reject occurred
Example (Pulse Tool Double Hit):
In the example above a pneumatic pulse tool was used
to retighten a fastener that had previously been tight
ened.  This curve spends a very brief period between
THR2 and THR3 (the rundown phase)....

    Page 30

    Page 30 I/O (RS232): Below the parameter selection knob is a 9pin D sub miniature connector. Through the use of this connector and a NULL MODEM cable (see diagram below), a computer or another serial device can communicate with the AIM Tightening Monitor. Pin 2 on this connector is the RX or receive pin. Pin 3 is the TX or transmit pin. Pin 5 is at ground potential. The ATM communicates asynchronously through this port at 9600 baud using an 8 bit, no parity, one stop bit structure. A windows based program is... 
    I/O (RS232):
Below the parameter selection knob is a 9pin D sub
miniature connector.  Through the use of this connector
and a NULL MODEM cable (see diagram below), a
computer or another serial device can communicate with
the AIM Tightening  Monitor.
Pin 2 on this connector is the RX or receive pin.  Pin 3
is the TX or transmit pin.  Pin 5 is at ground potential.
The ATM communicates asynchronously through this
port at 9600 baud using an 8 bit, no parity, one stop bit
structure.
A windows based program is...
    Start reading Aimco Brakes Monitor ATM11 Tightening Monitor Operations Manual

    Related Manuals for Aimco Brakes Monitor ATM11 Tightening Monitor Operations Manual

    All Aimco Brakes manuals