Vibraciones Mecanicas Diagnostico De Rectificadora Por Medio De Labview
tony198719388 de Agosto de 2012
1.613 Palabras (7 Páginas)783 Visitas
Conexión dentro del programa de labview
Para posteriormente realizar la medición de vibraciones de la maquina
TALADRO
Axial
A = 0.178m/s exp2= 7.00in/s2 (0.178/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 7.0in/s2/59400 cpm)
V = 0.433670033
Horizontal
A = 0.21m/s exp2= 8.26in/s2 (0.21/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 8.26in/s2 /59400 cpm)
V = 0.511730639
Vertical
A = 0.92m/s exp2=36.22in/s2 (0.92/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 36.22in/s2 /59400 cpm)
V = 2.24393266
Conexión dentro del programa de labview
Para posteriormente realizar la medición de vibraciones de la maquina
TALADRO
Axial
A = 0.178m/s exp2= 7.00in/s2 (0.178/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 7.0in/s2/59400 cpm)
V = 0.433670033
Horizontal
A = 0.21m/s exp2= 8.26in/s2 (0.21/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 8.26in/s2 /59400 cpm)
V = 0.511730639
Vertical
A = 0.92m/s exp2=36.22in/s2 (0.92/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 36.22in/s2 /59400 cpm)
V = 2.24393266
Conexión dentro del programa de labview
Para posteriormente realizar la medición de vibraciones de la maquina
TALADRO
Axial
A = 0.178m/s exp2= 7.00in/s2 (0.178/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 7.0in/s2/59400 cpm)
V = 0.433670033
Horizontal
A = 0.21m/s exp2= 8.26in/s2 (0.21/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 8.26in/s2 /59400 cpm)
V = 0.511730639
Vertical
A = 0.92m/s exp2=36.22in/s2 (0.92/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 36.22in/s2 /59400 cpm)
V = 2.24393266
Conexión dentro del programa de labview
Para posteriormente realizar la medición de vibraciones de la maquina
TALADRO
Axial
A = 0.178m/s exp2= 7.00in/s2 (0.178/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 7.0in/s2/59400 cpm)
V = 0.433670033
Horizontal
A = 0.21m/s exp2= 8.26in/s2 (0.21/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 8.26in/s2 /59400 cpm)
V = 0.511730639
Vertical
A = 0.92m/s exp2=36.22in/s2 (0.92/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 36.22in/s2 /59400 cpm)
V = 2.24393266
Conexión dentro del programa de labview
Para posteriormente realizar la medición de vibraciones de la maquina
TALADRO
Axial
A = 0.178m/s exp2= 7.00in/s2 (0.178/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 7.0in/s2/59400 cpm)
V = 0.433670033
Horizontal
A = 0.21m/s exp2= 8.26in/s2 (0.21/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 8.26in/s2 /59400 cpm)
V = 0.511730639
Vertical
A = 0.92m/s exp2=36.22in/s2 (0.92/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 36.22in/s2 /59400 cpm)
V = 2.24393266
Conexión dentro del programa de labview
Para posteriormente realizar la medición de vibraciones de la maquina
TALADRO
Axial
A = 0.178m/s exp2= 7.00in/s2 (0.178/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 7.0in/s2/59400 cpm)
V = 0.433670033
Horizontal
A = 0.21m/s exp2= 8.26in/s2 (0.21/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 8.26in/s2 /59400 cpm)
V = 0.511730639
Vertical
A = 0.92m/s exp2=36.22in/s2 (0.92/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 36.22in/s2 /59400 cpm)
V = 2.24393266
Conexión dentro del programa de labview
Para posteriormente realizar la medición de vibraciones de la maquina
TALADRO
Axial
A = 0.178m/s exp2= 7.00in/s2 (0.178/2.54X100)
F = 990HZ = 59400
V = 3.68exp ( a/f )
V = 3.68 exp3 ( 7.0in/s2/59400 cpm)
V = 0.433670033
Horizontal
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