1. An ink-jet recording apparatus comprising:
a recording head configured to eject droplets of an ink;
a carriage on which the recording head is mounted;
a support portion configured to support the carriage such that the carriage is reciprocally movable in a first direction;
a drive power source;
a power transmission mechanism configured to transmit a drive force from the drive power source to the carriage; and
a vibration damping device disposed on the support portion,
and wherein the vibration damping device has mutually different resonance frequency values at respective at least two different positions in the first direction.
2. The ink-jet recording apparatus according to claim 1, wherein the at least two different positions in the first direction are a first-carriage position and a second-carriage position spaced from the first-carriage position in the first direction, and the mutually different resonance frequency values are a resonance frequency value when the carriage is located at the first-carriage position, and a resonance frequency value when the carriage is located at the second-carriage position.
3. The ink-jet recording apparatus according to claim 1, wherein the vibration damping device includes a first vibration damper located at a first position in the first direction, and a second vibration damper which is located at a second position spaced from the second position in the first direction and the resonance frequency value of which is different from that of the first vibration damper.
4. The ink-jet recording apparatus according to claim 3, wherein the resonance frequency value of the first vibration damper is equal to that of the support portion when the carriage is located at a first-carriage position, and the resonance frequency value of the second vibration damper is equal to that of the support portion when the carriage is located at a second-carriage position.
5. The ink-jet recording apparatus according to claim 4, wherein the support portion includes a first support portion and a second support portion which are spaced apart from each other in a second direction intersecting the first direction,
and wherein the power transmission mechanism, and the first and second vibration dampers are disposed on the first support portion.
6. The ink-jet recording apparatus according to claim 3, wherein the power transmission mechanism includes an endless belt member disposed on the support portion and rotated with the drive force transmitted thereto from the drive power source,
and wherein the carriage is connected to the endless belt member and reciprocally movable in the first direction by a rotary motion of the endless belt member, and the first and second vibration dampers are disposed between the endless belt member and the support portion.
7. The ink-jet recording apparatus according to claim 3, wherein each of the first and second vibration dampers consists of a weight member and an elastic member,
and wherein at least one of the weight and elastic members of each of the first and second vibration dampers is provided by a one-piece member commonly used for the first and second vibration dampers.
8. The ink-jet recording apparatus according to claim 3, wherein each of the first and second vibration dampers are spaced apart from each other in the first direction.
9. An ink-jet recording apparatus comprising:
a recording head configured to eject droplets of an ink;
a carriage on which the recording head is mounted;
a support portion configured to support the carriage such that the carriage is reciprocally movable in a first direction;
a drive power source;
a power transmission mechanism configured to transmit a drive force from the drive power source to the carriage; and
a vibration damping device disposed on the support portion and including a first vibration damper located at a first position in the first direction, and a second vibration damper which is located at a second position spaced from the first position in the first direction and the resonance frequency value of which is different from that of the first vibration damper,
and wherein the resonance frequency value of the first vibration damper is equal to that of the support portion when the carriage is located at a first-carriage position, and the resonance frequency value of the second vibration damper is equal to that of the support portion when the carriage is located at a second-carriage position,
and further wherein each of the first and second vibration dampers consists of a weight member and an elastic member, and at least one of the weight and elastic members of each of the first and second vibration dampers is provided by a one-piece member commonly used for the first and second vibration dampers.
10. An ink-jet recording apparatus comprising:
a recording head configured to eject droplets of an ink;
a carriage on which the recording head is mounted;
a support portion configured to support the carriage such that the carriage is reciprocally movable in a first direction;
a drive power source;
a power transmission mechanism configured to transmit a drive force from the drive power source to the carriage; and
a vibration damping device disposed on the support portion and including a first vibration damper located at a first position in the first direction, and a second vibration damper which is located at a second position spaced from the first position in the first direction and the resonance frequency value of which is different from that of the first vibration damper,
and wherein the resonance frequency value of the first vibration damper is equal to that of the support portion when the carriage is located at a first-carriage position, and the resonance frequency value of the second vibration damper is equal to that of the support portion when the carriage is located at a second-carriage position,
and further wherein each of the first and second vibration dampers are spaced apart from each other in the first direction.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. A wiper blade assembly, comprising:
an elongated wiper blade of a flexible material;
a carrier element biasing said wiper blade into a pre-curved condition;
a connecting device including first and second parts detachably coupled with one another through a protrusion and hole connection;
said first part being operably coupled to said wiper blade; and
said second part having a generally U-shaped cross-section at the location of said protrusion and hole connection between said first and second parts and wherein each leg of said U-shaped cross-section is bendable outwardly in response to insertion of an oscillating arm into said second part to interconnect said first and second parts.
2. The wiper blade assembly according to claim 1, wherein each leg of said U-shaped cross-section is bendable between a first position, wherein said first and second parts are connected together in response to insertion of the oscillating arm into said second part, and a second position, wherein said first and second parts are released from each other in response to removal of the oscillating arm from said second part.
3. The wiper blade assembly according to claim 1, wherein said first part is provided with opposite abutting surfaces for abutting against the legs of said U-shaped cross-section, and wherein a protrusion extends laterally outwardly from each leg of said U-shaped cross-section into a hole provided on an abutting surface abutting against a respective leg.
4. The wiper blade assembly according to claim 1, wherein said second part is positioned at least substantially within said first part.
5. The wiper blade assembly according to claim 1, wherein said carrier element includes a pair of longitudinal strips.
6. The wiper blade assembly according to claim 5, wherein said longitudinal strips of said carrier element are disposed in opposing longitudinal grooves on longitudinal sides of said wiper blade.