การทดสอบและวิเคราะห์ความ ...FFT Analysis 46 4.2 ˜...

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TESTING AND ANALYSIS OF BEARING DAMAGE WAS EVALUATED BY MEASURING THE VIBRATION FROM FFT ANALYSIS AND

NEURAL NETWORK CASE STUDY: NSK ASIA PACIFIC TECHNOLOGY CENTRE (THAILAND) CO., LTD. A.D.2013

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ASIA PACIFIC TECHNOLOGY CENTRE (THAILAND) CO., LTD. A.D.2013

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1!�� ก�� HUB III �� ก�� !� �" ��!�� FFT ANALYSIS �* �ก��*��+�� ก�,�-.ก/� ��/�� 0 �� 1�� +2�34� �� 20 �5��(+��-7��) 9:�ก�� ;.-. 2556 Testing and Analysis of Bearing Damage was Evaluated by Measuring The Vibration from FFT ANALYSIS and NEURAL NETWORK Case Study: NSK Asia Pacific Technology Centre (Thailand) Co., Ltd. A.D.2013

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Projectds name Testing and Analysis of Bearing Damage was Evaluated by Measuring The

Vibration from FFT ANALYSIS and NEURAL NETWORK Case Study:

NSK Asia Pacific Technology Centre (Thailand) Co., Ltd. A.D.2013

Writer Mr. Thosaporn Chantanachai

Faculty Faculty of Engineering, Automotive Engineering Program

Faculty Advisor Mr. Manop Chomphukaew

Job Supervisor Mr. Sukit Deeyiengyang

Companyds name NSK Asia Pacific Technology Centre (Thailand) Co., Ltd.

Business Type/ Product Bearing for Automotive and Industrial

Summary

This project is to study of the work of engineers. To monitor and analyze the damage of

the bearing' s HUB III using the removable components are inspected for damage . To find ways to

reduce the time and damage analysis step in the analysis by using FFT Analyzer analyzes the signal

frequency. To analyze the damage. In which the project will be used to calculate the frequency with

theory. And how this helps to detect. And damages analysis is fast and efficient. Methods of analysis

with FFT Analyzer with the artificial neural network . Predictable 94 % higher than the predicted

damage from the graphs of FFT is only 6% , then the other cannot predict where the damage was.

Predictable, but only that the damage only.

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�R+�� 2.17 ��SS�,ก�� !� 9�ก��!��9�ก��+}S��;� ��

Crest factor ��+��1 � 1* �n ก��1* � � �9{��m�;��!��m� ��!��9�ก�7�"��*�� 0 ��R+�� 2.16 2.��+Q ��!��9�ก��+}S��ก�� ก�� *� crest factor ��R*�� 6 �� 4.17 n �,�� R+�� 2.17 �+Q ��!��9�ก��+}S��ก�� ก��;� 2.��ก��ก��ก "��ก *�n ��SS�, �� crest factor ��R*�� 1.94 U.��*��7�ก05�� *� crest factor ก07�*7�"�.P ��R*ก�� W ��ก�� !� *�9��ก "��;��n� ��ก�.P ��R*ก��5��* ��*��R��W��SS�,ก��*��{��P��5*��ก

2.7 ��W+ n ก�,��ก��ก� ��U��:�7�*7�"1��9 �� !��9�ก� �� !��ก��ก (impact) ��ก��.P n ��SS�,�� 95"��;�9��,�U.��5W��ก��.P �� U�� P ก��;�9��,�9�กU� ��U�� U��5*��|9:� ��ก+�+ ��R*n ��SS�, �:�n�"��ก��9� � �9{�� ก��;�9��,�9�ก crest factor �� SS�, ��+Q ��:�7�"�*��1* �n�"ก�� 9{��:�7�"�*�� ก��.P � !��9�ก��SS�,��7�*�+Q ��P��!�� :��ก��*��{��9��* ก *��SS�,��+Q ��:�n�"�*��5��* ��ก� �P ��*��R��.P

2.8 ก��:� �, Radial Direction 2.8.1 �R5� Outer ring frequency = zFc Inner ring frequency = zFi ± Fr Ball frequency = 2Fb ± Fc �� z = ball number Fr = 25.000 Hz inner ring speed (1500 rpm) Fi = 14.847 Hz Fr � Fc Fc = 10.153 Hz cage speed

Fb = 54.459 Hz rotation speed of ball (rolling element) 2.8.2 5��*��ก��:� �, Outer ring frequency = zFc = (13) (10.153) = 131.989 Hz Inner ring frequency = zFi ± Fr = (13) (14.847) ± (25.000) = +218.011, -168.011 Ball frequency = 2Fb ± Fc ; 2 ,4,6,8,10... = (2) (54.459) ± (10.153) = +119.071, -98.765

5�� 2.1 ��*�� U��7�"9�กก��:� ,

Outer ring Inner ring Ball

1 131.989 168.011 98.765

218.011 119.071

2 263.978 361.022 207.683

411.022 227.999

3 395.967 554.033 316.601

604.033 336.907

4 527.956 747.044 425.519

797.044 445.825

5 659.943 990.055 534.437

940.055 554.743

6 791.934 1183.066 643.355

1133.066 663.661

7 923.923 1376.077 752.273

1326.077 772.579

��5W: n1"� ��U��U.��* 1000 Hz

2.9 Artificial Neural Network ��*��+��

��*��+�� (Artificial neural network) ��!��ก9��ก��P | *� �*�� +�� (neural network ��!� neural net) �!��,�5-��5�� :��+�� -�" �ก��:� ,�� 1� ��5� (connectionist) �;!��9:��ก��:�� !��*��+��n �� W/�� " � �5UW+��9��"��!��!�2.�� Un ก�� R"ก��9�9:��R+ (Pattern Recognition) ��ก��W+�� R"�1* �� ก�� U��n �� W/�� 5" �� P7�"��9�กก��-.ก/��*�� 733��1� m�; (bioelectric network) n �� 2.��+��ก��" � �2��+�� !� � � �� (neurons) �� 9W�+�� +�� (synapses) 5*��2��+��+��ก��" �+��n ก��ก��+�� ก *� "�� 7��" (Dendrite) 2.��+Q input ��+��n ก��*�ก��+��ก *� "��2� " (Axon) 2.��+Q ��!� output ��2�� 2��*� �P�� " �+��ก��733�� !��ก��ก��5W" �" ��"�m�� ก��!�ก��5W" �" ��2��" �ก� ก��+��9� ��*� �� 7��"��R* � ��2.��9��+Q 5� 5�� *�5"��ก��5W" �2��!� | 5*��!�7�* U"�ก��+��;� � ��ก09�ก��5W" �2��!� | 5*�7+�*� ��2� �� 5�� P�*�� +��ก��9�กก��1!��5*�� *��2��+�� 9 �+Q ��!��*��:�� * �ก�

�R+�� 2.18 �� Model �� Neuron n �� W/��

2.9.1 ��"��

�ก �9��* n�S*n +}99W� ��0 5��ก� *��*�� +��"��5ก5*��9�ก�*�� n �� 5*ก0��!� �� n �*�� *��*�� +�� !�ก�� ก�W*�� * �+�� *�� | ��ก��1!��5*� �P�+Q �* �:��S��n�"�ก��5�+}SS��*�� !��;�9��,�� " �� n�S*ก *��*�� +��*��ก � ��P��2��+�� 2�2"� ก *�� * ��*��*�� *��7�ก0�� "��:��S�� 1* ก�� R"��UURก9��.P ��*��*��" ��*��+�� P

�R+�� 2.19 �� Model �� Neuron n ��;� �5��

2.9.2 ��กก��

�:��n ��;� �5�� Neurons +��ก��" � input �� output ��!� ก� ��9:��n�" input 5*�� weight �+Q 5� ก:�� "�� ก�� input �� neuron 5*�� * �9��*� threshold �+Q 5� ก:�� *� P:�� ก� �� input 5"��ก� ��7� 9.�9��U�*� output 7+�� neurons 5� �!� 7�" ��!�� :� neuron 5*�� * ��5*�ก� n�"�:�� * �ก� ก��:�� Pn ��5��ก��" ก09��!� ก�+��ก��ก��n ��;��5*n ��;� �5��Wก��*��+Q 5� ��*� �P ��

2.9.3 ก��:�� ก��:�� Neural networks �!��!�� input ��"�� network ก0�� input ��R,ก� weight

��5*�� 7�"9�ก input �Wก | �� neuron 9�� ก� �" ก0��ก� threshold ��ก:�� 7 " U"�� *��กก *� threshold �" neuron ก09��*� output ��ก7+ output �Pก09�URก�*�7+�� input �� neuron �!� | ��1!��ก� n network U"��*� "��ก *� threshold ก09�7�*�ก�� output �� ก��7�"�� P

��:��S�!��5"��*� weight �� threshold ��5"��ก��;!��n�"��;� �5��R"9:� 2.��+Q �*��7�* * � 5*��Uก:�� n�"��;� �5��+��*��*� �P 7�"��ก�� n�"�� R"9�ก pattern ��5"��ก��n�"�� R"9� ��ก *� "back propagation" 2.��+Q ก�� ก��"� ก��ก��R"9:� n ก��ก feed-forward neural networks 9��ก��n1"��ก��.� back-propagation �;!��n1"n ก��+��+�W� P:�� ก�� !��*�� (network weight) ��9�กn�*�R+�"��R��กn�"ก*��!��*��n 5*��P��" �*��7�"�� (output) 9�ก��!��*��9�URก :�7+�+��ก�� " �:�ก��:� ,��*�� ;�� 2.��*�� ;�� P9�URก�*�ก��"��R*��!��*��;!��n1"ก"7��*� "�� ก�� 5*�7+ ��*��1* 9��R"9:��R+�� ก��R+�� 9*� input �+Q 9 5� �!��+Q 5�� 3x3 U"� ��R+��!��n�"�50�ก�� 3x3 ;�� 9��* ��R*n 1*�� 1,2,3,4,6,7,8,9 ก0��5�

n�" P:�� ก5��1*��*� �P��*��ก | U"��" ��*� ก0��R,ก� P:�� ก�" ก0�� ก� 5�P��*�n�";��ก09��U�ก�� *��ก��7�" 2.�� !��กก�� neural network

�R+�� 2.20 ��ก��ก�� *��

�R+�� 2.21 ��"�� 9� Neural Network

Output ��5*�� Node

��!�� Xi = input 9�ก�� !� | Wij = "�� ก (weight) ��5*�� (connection)

2.9.4 Back propagation Algorithm

Back-propagation �+Q ��ก��.��n1"n ก�� R"��!��*��n�+�� .�� n1"n multilayer perceptron �;!��+��*� "�� กn ��" �1!��5*�� *�� n�"�� ก��+��*� �P9��.P ก�� 5ก5*��*��5�;W5��:� , 7�"ก��*��5�;W5��5"��ก�� ;�9��,��R+5*�7+ �P+��ก�

�R+�� 2.22 ��R+ Back-propagation neural network

��P 5� �� Back-propagation Algorithm �� P 1. ก:�� *��5��0 n ก�� R" (rate parameter : r) 2. �:��5*��5� ��*�� ;W5n�"��5��P 5� 5*�7+ �P9 ก *�7�"�� performance ��5"��ก��

- �:� ,��*��5�;W5��n1"�*� "�� ก��5" 2.��97�"9�กก��W*� - �:� ,��*� β: � +��1 ��9�7�"��ก��+�� *��5�;W5��5*�� - n 1�P ��5�;W5 (Output Layer)

��!�� dz = �*��5�;W5��5"��ก�� Oz = �*��5�;W5��:� ,7�" - n 1�P 2*� (Hidden Layer)

��!�� wjk = P:�� ก��" �1!�� *��1�P �� j ก� k - �:� ,�*� P:�� ก��+�� +��7+�:��n �Wก P:�� ก �" ��ก��5*�7+ �P

- �;��*� P:�� ก��+�� +�� 5� ��*�� ;W5��P�� +�� *� P:�� ก

2.9.5 Neural Network Taxonomy

2.9.6 ก�� R"�� Neural Network

1. Supervised Learning ก�� ก�� +Q ก�� ก��5� 9�:�5��;!��n�" �9��*��+��5� 1W��"��R��n1"�� 9��*��9��:�5�7 "��5� 9�R *� �9��*��n�"��5��URก��!�7�* U"�5�7�*URก �9��*��ก09�+��5� ��;!��n�"7�"�:�5��.P (�+��ก�� !� ก�ก�� ก�� R�R"�� :�)

�R+�� 2.23 ��ก�� R��ก�� (Supervised Learning)

2. Unsupervised Learning ก�� 7�*��ก�� +Q ก�� 7�*��R" � :� 7�*��ก��5� 9�:�5� *�URก��!�� 9��*��9�9��"��" �5� ��5��ก/,��"��R� ��;��7�" �9��*��9��U9�� R*��"��R�7�" (�+��ก�� 1* ก��U�ก��;� �W�;!1 ;� �W��5 �5��ก/,��R+�*�� 7�"��7�*��n�� )

�R+�� 2.24 ��ก�� R"7�*��ก�� Unsupervised Learning

2.9.7 Network Architecture

1. Feedforward network �"��R��+�� n �9��*��9�URก�*�7+n ��-�� 9�ก Input nodes �*�5*��!�� |

9 U.� output nodes ��7�*��ก��"� ก��"��R� ��!��"5* Nodes n layer �� ก� ก07�*��ก��1!��5*�ก�

�R+�� 2.25 ��U�+}5�ก�� Feedforward network

2. Feedback network �"��R��+�� n �9��*�� 9��ก��+�� ก��"�7+�� 9��*�� | ��P� 9 ก��

7�"�:�5��ก�� (��ก *� Recurrent network)

�R+�� 2.26 ��U�+}5�ก�� Feedback network

3. Network Layer ;!P �� S��:��S�� Artificial Neural Network +��ก�7+�" � 3 �* ��!� 3 layer

7�"ก* 1�P �� input units ��URก�1!��5*�ก�1�P �� hidden units 2.��1!��5*�ก�1�P �� output units - ก��:�� input unit 9��:�� "�� * ��"��R�� 9�URก+�� "��R*��!��*�� - ก��:�� 5*�� hidden units 9�URกก:�� ก��:�� input units ��*�

P:�� ก � ��;� �� *�� input units �� hidden units - ;q5�ก��ก��:�� output units 9��.P ��R*ก�ก��:�� hidden units ��*�

P:�� ก �� *�� hidden units �� output units +��m��!��*�� P�+Q �� *�� n9 �;��Uก:�� ก�� *�n�"ก* input units

7�"��*�� *� "�� ก�� *�� input units �� hidden units 9�URกก:�� !�� hidden unit ก:��:�� {� �P � ��ก"7��*� P:�� ก hidden units 9��U��!�ก *��7��!��*�� "��

Architecture of Layer ��U9:� ก�U�+}5�ก��1�P (layer) ��ก�+Q 2 +��m��!� Single-layer �� Multi-layer

- Single-layer perceptron ��!��*��n�+��+��ก��" �1�P �;��1�P �� 9:� input nodes �.P ��R*ก�9:� components �� input data �� Activation function �.P ��R*ก��ก/,��"��R� �� Output �1* U"� output ��5"��ก��+Q �n1*� ��!� �7�*n1*� ��9�5"��n1" Threshold function

��!�U"� output �+Q �*�5� ��5*�� !�� 5"��n1" continuous function �1* Sigmoid function

�R+�� 2.27 �� Single-layer perceptron

- Multi-layer perceptron ��!��*��n�+��9�+��ก��" ��1�P ��n 5*��1�P 9�+��ก��" �� (nodes) ��!��+��7�"ก�5� �2��+��(neurons) �*� "�� ก��" ��1!��5*� �� *�� 5*��1�P (��ก W), �*� bias vector (b) ��*� output vector (a) �� m

�+Q 5� ��ก �:��1�P ก:�ก�7 "�"� ��!�� p �+Q input vector ก��:� ,�*��5�;W5�:��!��*��n�+�� M 1�P 9��+Q ��ก��

��!�� m = 0, 2, �, M-1

a0 = p a = am �� f �+Q transfer function 4. Perceptrons n �W� 60s �� * n�S*��*�� 7�"��ก�� ;�ก/� �9��,�n �� "��!�� Perceptrons 2.��

�" ;�� Frank Rosenblatt �� perceptron 2.��ก��+Q MCP model ( neuron with weighted inputs ) ;�"��ก��* 5*��5�� 9�ก�R+n �* A1,A2,Aj,Ap ��ก *� association units ก��:�� ;!��!�ก��5ก5*��ก��9�ก�R+m�;��"�7+ �� perceptrons ��U��ก� ��;!P �� m��n ��5 ��P��Rก�" � � ��ก | �" 9�n1"n �R+ recognition ��U��n�"�� U�R�ก *� �P

�R+�� 2.28 ��"�� Perceptrons

n +� �.-.1969 Minskey �� Papert 7�"�� !��ก�� ก��5�� Single-layer perceptrons ��ก��7�"��9�ก� ��!��*� �P �"�� +Q ��5Wn�" �ก �9�� neural network �RS��+��1 � � !��9�ก� ��!��UU*��ก��7�"�� "��R�n �1��:� *� Single-layer persepteons 7�*��U��9��"��R+ก��9�9:�;!P �� (basic pattern recognition operation) 7�" �1* ก��ก:�� "��.��R+�*�� !�ก:�� *��R+�*��n��;� ��ก� ��!�7�* 5*�� ก �9��7�*�R"9 ก��W� 80s �!� ก��7�"��ก��ก� ��URก5"�� 2.�� Multi-layer perceptrons ��U�� ก��ก"7��*� �P7�"

2.9.8 ก��+��Wก5�Z1"�� Neural Network

�*�� +�� (Neural Network) � !��9�ก� ��Un ก��9:��;q5�ก��ก��m�;�� 2�2"� 9�ก�"��R��+�� n�"�� R"ก��+��Wก5�n1"�*�� +��9.��+Q �� !�กn��*n ก�� W� 2.��R" :��+��Wก5�n1"�� +��m� 7�"ก*

1. �� ก��9�9:��R+�� 7�* * � �1* ��!� ��20 5� ��ก/� �R+� "� 2. �� ก��+��,�*�3}�ก�1� ��!�ก��+��,� ��;� �� (�� inputs �� outputs 5*7�*

�� *� inputs ก� outputs �� ;� ��ก� ��*��7�) 3. �� "��+�� +��R*�� ( �9��*�� U+��5� ��7�") 4. �� 9�� R*��ก�� 5. �� :� �� 1* ;��ก�,��ก�- ;��ก�,��W" 6. ก��+��Wก5�n1"�� +�� W�ก�� ก�� ;��ก�,�

9:�� (Model Predictive Control) 7. ก��+��Wก5�n1"�� +��;�*ก��9��ก��n ก��:� ��;��

�"� ��Rn 5� �� 8. ก��n1"�� +��n ก��72��5��ก1�� ก��+��Wก5�n1"��

+�� W�� HVAC

�� 3 \ �� ก��+t ��5 �� P 5� ก��:��

3.1 \ �� +t ��5 ��

5�� 3.1 � �� ก��:��

��"�� !� �� 1 ��!� �� 2 ��!� �� 3 ��!� �� 4

��P �� (P)

1. -.ก/��ก/,�� n ��ก�

2. �� "�� n�"; �ก�� +�.ก/�

3. �� "�� n�"��9��+�.ก/�

4. �� ก��:��

��P �:�� ก�� (D)

1. -.ก/��"��R� Neural network

2. �� W��5�ก��n1"��n ก��

3. �:�� n�";�"��ก��

4. �:�ก��" � �� FFT

5. � �.ก�"��R�� U��*� sound test

6. :��"��R��7�"�� neural network �+��ก�ก��:� ,��q/r�

��P ��W+��+�� (C)

1. ��W+��ก��

��P +��+�W�5��ก��+�� (A)

1. +��+�W�ก"7�

3.2 �� +t ��5 �� ก 9-.ก/� ��!�� 7�"�� U�*��ก�+Q 2 +��[�7�"ก*

3.2.1 �� 7�"��Z�"�:�Z �� 5*��v

3.2.1.1 -.ก/��r/s��ก��"��ก��5��Rก+�

9��+Q ก��-.ก/��q/r�5*��|��ก�� "��ก�5��Rก+o 2.��7�"�:�ก��-.ก/�9�ก��ก��/��7�"�� R"9�ก��R"9��ก��!� �- ก�n � ก ��9�ก1 ��5��Rก+o ��ก/,�� ก��ก�5��Rก+o ��5W��ก�� P� ��5� 9��;!�� m��n 5��Rก+o

3.2.1.2 -.ก/��ก/,��[��Z 5��Rก+�

n ก��5� 9�� m��n 5��Rก+o �P 5"��n1"+��ก��,�n ก��5� 9��+Q ��*��ก �� - ก�9�5� 9�� m��n 5��Rก+o �� 7�"ก* Flaking, Brinelling, Indentation, Cat�s Eye �+Q 5" ��n1"�W+ก�,�5� 9�� 2.��9��:�n�"��U ��7�"�!P��5" *�� ก/,� �P��9�ก��5W��7�

3.2.1.3 -.ก/�� R"ก��Z1"�� !�� Roundness Measurements

��!�� Roundness Measurements �+Q ��!��!� ��m�;�� 5UW ��9�n1" �� 5UW��ก/,��"�ก�� 1* 5��Rก+o ��!�� :�5��Rก+o ��:�ก�� Roundness 5"��ก��25��!��ก*� 2.��n1"� ��;�� n ก��25��!�� !��9��:�ก��25�*�� *�� 5UW��"��9� ��ก�� ก��9��,�5 ��9�7�"5� ��ก��*�� .�� 5� �� P9�*��กU.�� ก�� 9��:�ก�� 5�� , Race-way (�*�� ) �� Ball �;!�� :��*��7�"7+��ก��ก,T��5�� !�� Roundness ��U�:�n�"��5� 9;� ��+ก5� Race-way 7�"�" � �1* ��ก Race-way ��

Brinelling ��7�*��U��0 7�"�" �5��+�*� ก��3��7�"9�ก��!��9��n�"��0 5:�� *�� Brinelling �P |2.��9��:�n�"��U��W5:�� *��ก�� 7�"

3.2.1.4 ก��5��9��"��ก"�� CCD Microscope �+Q ก��-��ก�"��ก:��R�n ก��5� 9�� 5��Rก+o � !��9�ก� ��

�� 0ก��99�7�*��U��0 7�"�" �5��+�*� �� P ��99��+Q ��* ��ก��9�ก��-��ก�"�� CCD Microscope 2.��U��9�� .กm�;7�"�" � 3.2.1.5 ก��0��\ ��"��!�� Hardness Measurement

��!�� Hardness Measurement ��U �� 0�� 7�"��ก�� !��9��:� ,��;��ก��+Q 5� ��*�� .�� 2.��9� :��*� �P7+�+��ก��*��5�� ก�*��7�"��R*n �ก,T��ก:�� U!� *�� 0�� +ก5� 5*��ก7�*��R*n �ก,T��ก:�� 99� ��7�" *�� URกn1"�� n �m� ��7�*��9 ก��:�n�"� ��0�� 0ก�+�� 7+ 3.2.1.6 ��+� ��, P:�Z 9��"��!�� Moisture Meter

�+Q ก��5� 9��n1"��*� �+��20 5�� P:�n Grease (9��) ��5��Rก+o ��!��9��:�ก�� ก�� 9��;�� 5W��:�n�"5��Rก+o �ก�� 2.��9��ก��9�ก P:��"�5��Rก+o ��U��ก57�"�!P��5" 9�ก��9�� ก��*� | ��99��+��2 5� P:� "��5*U"��P:�9��ก��+��, P:��"�7++ ��R*��กก *�+ก5� 3.2.1.7 ก��

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