Ajuste por contracción de un engranaje de acero en el eje del motor
  • Ajuste por contracción de un engranaje de acero en el eje del motor

Las fotos son solo para fines informativos. Ver especificaciones de producto

please use latin characters

Fabricante: Ambrell

Ajuste por contracción de un engranaje de acero en el eje del motor

Shrink fit a steel gear onto a motor shaft

Objective: Heat the bore of a hardened spur steel gear to shrink fit onto a gear motor shaft. This is part of a chair for the disabled.

Frequency: 300 kHz


Equipment:

  • Ambrell 2 kW induction heating system, equipped with a remote workhead containing two 0.66 μF capacitors for a total of 1.32 μF;
  • An induction heating coil designed and developed specifically for this application.

Material: Steel gear 2.5” (63.5mm) OD, .75” (19mm) ID x .625” (16mm) thick, temperature indicating paint

Temperature: 400 ºF (204 ºC)


Process:

A four turn helical internal coil is used to heat the gear bore. The coil is inserted into the gear bore and power is applied for 90 seconds to reach the required 400 ºF (204 ºC) and expand the gear bore. The gear is then placed on the shaft and allowed to cool, creating the shrink fit between the gear and the shaft.


Benefits:

  • No pre-heat cycle, heat is available on demand;
  • Energy efficient, heats only the part, not the atmosphere around it;
  • Controlled, even distribution of heating;
  • Faster production times.

Envíe una consulta

¿Estás interesado en este producto? ¿Necesita información adicional o precios individuales?

Contacta con nosotras
SOLICITA EL PRODUCTO close
Gracias por enviar tu mensaje. Responderemos lo antes posible.
SOLICITA EL PRODUCTO close
Vistazo

Añadir a la lista de deseos

Usted debe estar conectado

Shrink fit a steel gear onto a motor shaft

Objective: Heat the bore of a hardened spur steel gear to shrink fit onto a gear motor shaft. This is part of a chair for the disabled.

Frequency: 300 kHz


Equipment:

  • Ambrell 2 kW induction heating system, equipped with a remote workhead containing two 0.66 μF capacitors for a total of 1.32 μF;
  • An induction heating coil designed and developed specifically for this application.

Material: Steel gear 2.5” (63.5mm) OD, .75” (19mm) ID x .625” (16mm) thick, temperature indicating paint

Temperature: 400 ºF (204 ºC)


Process:

A four turn helical internal coil is used to heat the gear bore. The coil is inserted into the gear bore and power is applied for 90 seconds to reach the required 400 ºF (204 ºC) and expand the gear bore. The gear is then placed on the shaft and allowed to cool, creating the shrink fit between the gear and the shaft.


Benefits:

  • No pre-heat cycle, heat is available on demand;
  • Energy efficient, heats only the part, not the atmosphere around it;
  • Controlled, even distribution of heating;
  • Faster production times.
Comentarios (0)