A blower wheel for a blower motor assembly includes a plurality of annularly arranged blades and an annular structure coupled to each of the blades. A counterweight including a base layer having an adhesive coated thereon is adhered to the blower wheel to correct an imbalance of the blower wheel relative to an axis of rotation of the blower wheel. A method of balancing the blower wheel is also disclosed, wherein the method includes the steps of determining an imbalance of the blower wheel relative to a rotational axis thereof and adhering a counterweight to the blower wheel to correct the imbalance of the blower wheel.

A blower wheel for a blower motor assembly includes a plurality of annularly arranged blades and an annular structure coupled to each of the blades. A counterweight including a base layer having an adhesive coated thereon is adhered to the blower wheel to correct an imbalance of the blower wheel relative to an axis of rotation of the blower wheel. A method of balancing the blower wheel is also disclosed, wherein the method includes the steps of determining an imbalance of the blower wheel relative to a rotational axis thereof and adhering a counterweight to the blower wheel to correct the imbalance of the blower wheel.

A vibration damping device equipped with a resonator mechanism comprising at least one resonator, the at least one resonator having a first beater extending from an embedded end to a free beating end. The resonator consists of an elastically deformable base equipped with a first branch and a second branch connected by a central section, the embedded end being embedded at the first branch, the first branch extending from a first end to a second end each rigidly fastened to a mount, the second branch extending from a first end section to a second end section each rigidly fastened to a vibration source.

A vibration damping device equipped with a resonator mechanism comprising at least one resonator, the at least one resonator having a first beater extending from an embedded end to a free beating end. The resonator consists of an elastically deformable base equipped with a first branch and a second branch connected by a central section, the embedded end being embedded at the first branch, the first branch extending from a first end to a second end each rigidly fastened to a mount, the second branch extending from a first end section to a second end section each rigidly fastened to a vibration source.

A propeller shaft (1) that is a power transmission shaft has a shaft member (2) as a tubular body made of iron-based metal and a balance weight (3) made of iron-based metal and welded to an outer peripheral surface of this shaft member (2). At least a part of the balance weight (3) of the propeller shaft (1) is covered with a sacrificial metal coating (4) made of sacrificial corrosion prevention material that contains metal whose ionization tendency is higher than that of metal forming the shaft member (2). With this, it is possible to suppress local progression of corrosion at a periphery of the balance weight (3) and improve durability of the propeller shaft (1).

A propeller shaft (1) that is a power transmission shaft has a shaft member (2) as a tubular body made of iron-based metal and a balance weight (3) made of iron-based metal and welded to an outer peripheral surface of this shaft member (2). At least a part of the balance weight (3) of the propeller shaft (1) is covered with a sacrificial metal coating (4) made of sacrificial corrosion prevention material that contains metal whose ionization tendency is higher than that of metal forming the shaft member (2). With this, it is possible to suppress local progression of corrosion at a periphery of the balance weight (3) and improve durability of the propeller shaft (1).

A balance system for an assembled engine includes a rotor mounted on a shaft for rotation within an engine casing having an inner case and an outer case; and a weight system mounted on the shaft of the rotor and having at least one weight positionable relative to the rotor around a circumference of the shaft; wherein the inner case has an inner access port, the outer case has an outer access port, and the inner access port, the outer access port and the weight system are positioned on the same radial plane of the rotor, whereby the weight system can be accessed through the outer port and the inner port to adjust circumferential position of the at least one weight relative to the rotor.

A balance system for an assembled engine includes a rotor mounted on a shaft for rotation within an engine casing having an inner case and an outer case; and a weight system mounted on the shaft of the rotor and having at least one weight positionable relative to the rotor around a circumference of the shaft; wherein the inner case has an inner access port, the outer case has an outer access port, and the inner access port, the outer access port and the weight system are positioned on the same radial plane of the rotor, whereby the weight system can be accessed through the outer port and the inner port to adjust circumferential position of the at least one weight relative to the rotor.

A balancing assembly for a rotating component of a gas turbine engine includes a balance pin configured for insertion into an opening in the rotating component, a balance clip configured for installation to the rotating component over the balance pin to retain the balance pin in the opening via exertion of a retention force on the balance pin. A method of correcting an imbalance of a rotating assembly includes inserting a balance pin into a balancing opening in a rotating component of the rotating assembly, and installing a balance clip at the balancing opening over the balance pin to retain the balance pin in the balancing opening via exertion of a retention force by the balance clip on the balance pin.

A wheel balancing tool includes a body member, an attachment member and an alignment member. The body member includes a notch configured to be aligned with a balancing mark on a rim of a vehicle wheel. The attachment member is connected to the body member. The attachment member includes at least one hook configured to attach the tool to the wheel rim. The alignment member extends outwardly from the body portion and is configured to indicate an attachment position on the wheel for a balancing weight.