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Vibraciones Mecanicas Diagnostico De Rectificadora Por Medio De Labview


Enviado por   •  8 de Agosto de 2012  •  1.613 Palabras (7 Páginas)  •  744 Visitas

Página 1 de 7

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

...

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