ez slam v7
TRANSCRIPT
The World’s First Dedicated Closure Measurement System.
EZSLAM
Index:
1. Introduction.
2. EZSLAM Concept.
3. Technology.
4. C.I.M.
5. Key Metrics.
6. Energy Balance.
7. Troubleshooting Using EZSLAM.
8. EZSLAM Software.
9. Your EZSLAM.
EZSLAM:
1.Introduction.2.EZSLAM Concept.3.Technology.4.C.I.M.5.Key Metrics.6.Energy Balance.7.Troubleshooting Using EZSLAM.8.EZSLAM Software.9.Your EZSLAM.
1. Introduction:
A. Closure Challenge:
WHAT is a GOOD door?HOW does that TRANSLATE to your quality?HOW do you BENCHMARK your door?HOW do you CHECK your door?
1. Introduction:
B. Closure Solution:
Until now, it took hours and days of testing to obtain a handful of metrics on 1 single door.
EZSLAM:
1.Introduction.2.EZSLAM Concept.3.Technology.4.C.I.M.5.Key Metrics.6.Energy Balance.7.Troubleshooting using EZSLAM.8.EZSLAM Software.9.Your EZSLAM.
2. EZSLAM Concept:
A. The Basics of EZSLAM:
2. EZSLAM Concept:
B. Configurations:
a. Real Time:
Immediate detailed results as you go
b. Off Line:
Fast, pre-programmed procedures
2. EZSLAM Concept:
C. Standard Test Procedure:
EZSLAM:
1.Introduction.2.EZ SLAM Concept.3.Technology.4.C.I.M.5.Key Metrics.6.Energy Balance.7.Troubleshooting using EZSLAM.8.EZSLAM Software.9.Your EZSLAM.
3. Technology:
A. Bundle of Technology collects all sensor data at minimal 3600Hz:
3. Technology:
B. Example 1: YZ Trajectory:
-10 0 10 20 30 40 50 60 70-0.3
-0.2
-0.1
0
0.1
0.2
0.3
0.4
0.5
Y (mm)
Z (
mm
)
Door drop
Over slam
Door motion
Latch – Striker interaction
Latched position
Initial Speed
End of Pulse
-10 0 10 20 30 40 50 600
200
400
600
800
1000
1200
1400
Angular Position (degrees)
Speed (
mm
/sec)
3. Technology:
C. Example 2: Speed in function of Angle:
Impact Speed
Door Motion Acceleration
OpenClosed
90mm from Latch
Impact
3. Technology:
D. Example 3: Force in function of Y:
-10 0 10 20 30 40 50 60-50
0
50
100
150
200
250
Y (mm)
For
ce (
N)
Static Force to Latch (N)
Compression Energy (J)
Door motion (Slow)
Latch Point orMinimum requiredover slam to latch (mm)
Closed: Flush (0mm)
EZSLAM:
1.Introduction.2.EZSLAM Concept.3.Technology.4.C.I.M.5.Key Metrics.6.Energy Balance.7.Troubleshooting using EZSLAM.8.EZSLAM Software.9.Your EZSLAM.
4. C.I.M.: Combined Integrated Model:
A. Definition:
C.I.M.
Combined Integrated Model:
In the analysis to determine key values or
characteristics, EZSLAM tests are
undergoing a mathematical iteration
where results from one test will be used
in other test and the other way around.
4. C.I.M.: Combined Integrated Model:
B. Principle:
4. C.I.M.: Combined Integrated Model:
C. Example: Minimum Closing Speed - Step 1:
0 200 400 600 800 1000 1200 1400 16000
1
2
3
4
5
6
Speed (mm/sec)
Ove
rsla
m (
mm
)
Actual SamplesSpeed vs.. Over slam
Minimal Speed to latch.
Latch Point orMinimum requiredover slam to latch(Push test)
Curve Fit Regression
4. C.I.M.: Combined Integrated Model:
C. Example: Minimum Closing Speed - Step 2:
-10 0 10 20 30 40 50 600
200
400
600
800
1000
1200
1400
Angular Position (degrees)
Spe
ed (
mm
/sec
)
Minimal Closing Speed Curve
Minimal Closing Speed
Door Check Linearity
Closing Speed Curves
Closing Speed
Door Check Slope
4. C.I.M.: Combined Integrated Model:
D. Other Examples:
EZSLAM:
1.Introduction.2.EZSLAM Concept.3.Technology.4.C.I.M.5.Key Metrics.6.Energy Balance.7.Troubleshooting using EZSLAM.8.EZSLAM Software.9.Your EZSLAM.
5. Measured Key Metrics:
5. Measured Key Metrics:
Define Your New Standard:
“Quantify the Quality withA Standard User independent Procedure.”
EZSLAM:
1.Introduction.2.EZSLAM Concept.3.Technology.4.C.I.M.5.Key Metrics.6.Energy Balance.7.Troubleshooting using EZSLAM.8.EZSLAM Software.9.Your EZSLAM.
6. Energy Balance:
A. Energy Input:Energy Input from
Pulse from User Gravity Hinge System
6. Energy Balance:
B. Energy Output –single configuration-:Energy Dissipation through
Drag Static Latching Dynamic Latching
Drag 1: 6.0%53%
Drag 2: 1.1%9%
Dynamic 1: 0.9%8%
Dynamic 2: 2.5%22%
Static 1: 0.9%8% Static 2: 0.0%0%E300 Total :11.4J
1:Full2:Door Open
6. Energy Balance:
C. Energy Output –multi configuration- :Energy Dissipation, decomposed
according to modified components:
Drag Static Latching Dynamic Latching
EZSLAM:
1.Introduction.2.EZSLAM Concept.3.Technology.4.C.I.M.5.Key Metrics.6.Energy Balance.7.Troubleshooting Using EZSLAM.8. EZSLAM Software.9. Your EZSLAM.
7. Troubleshooting Using EZSLAM:
A. Important Time Saving:
CMM 2
Seals?
Striker aligned?CMM 1
Force 3
Seal gap?
General classic method requires Hours or even Days: EZSLAM requires ONLY 10 MINUTES :
7. Troubleshooting Using EZSLAM:
B. Examples:
EZSLAM:
1.Introduction.2.EZ SLAM Concept.3.Technology.4.C.I.M.5.Key Metrics.6.Energy Balance.7.Troubleshooting using EZSLAM.8.EZSLAM Software.9.Your EZSLAM.
8. EZSLAM Software:
A. Main Screen:
6 button user interface. Customizable Logos.
8. EZSLAM Software:
B. Result Screen:
1 Page overview. Automatic reporting. Numerical and Graphical Support. Nominal & Tolerance Color.
8. EZSLAM Software:
C. Comparison Screen:
Compare a selection of results. Overlay graphics. Compare Key Metrics.
EZSLAM:
1.Introduction.2.EZ SLAM Concept.3.Technology.4.C.I.M.5.Key Metrics.6.Energy Balance.7.Troubleshooting using EZSLAM.8.EZSLAM Software.9.Your EZSLAM.
9. Your EZSLAM:
A. Hardware Levels:
9. Your EZSLAM: B. Maintenance Levels:
Thank you