Abstract: There is provided a vibration wave motor that includes a plurality of pressing parts separated by slits and can prevent an intervention member from protruding from the slits. The vibration wave motor includes a vibrator, a driven body configured to be brought into pressure contact with the vibrator and to move relative to the vibrator, a pressing member configured to move together with the driven body and to bring the driven body into pressure contact with the vibrator, and an intervention member intervening between the driven body and the pressing member, and configured to be pressed together with the driven body when the pressing member brings the driven body into pressure contact with the vibrator. The pressing member includes a plurality of pressing parts that is separated by slits and presses the intervention member. The intervention member is firmly fixed to the driven body.

Abstract: A vibration-type actuator, which achieves high accuracy and durability, includes a vibrating body, a contact body, a supporting member, and at least one positioning and holding member. The vibrating body includes an elastic body with grooves and projecting portions alternately formed in a direction of relative movement of the vibrating body and the contact body, and further includes an electromechanical transducer mounted on the elastic body. The at least one positioning and holding member restrains movement of the vibrating body with respect to the supporting member in the relative movement direction, and includes an interposing portion interposed between a plurality of the projecting portions and a mounting portion mounted on the supporting member. The supporting member includes a receiving portion onto which the mounting portion is mounted with a clearance formed between the mounting portion and the receiving portion in the relative movement direction.

Abstract: A vibration wave motor includes a vibrator, a contact body to be brought into contact with the vibrator, a shaft fixed to the contact body, and a fixing member configured to fix the contact body and the shaft from the shaft side.

Abstract: A vibration-type actuator which achieves high accuracy and durability. The vibration-type actuator includes a vibrating body, a contact body, a supporting member, and at least one positioning and holding member. The vibrating body includes an elastic body with grooves and projecting portions alternately formed in a direction of relative movement of the vibrating body and the contact body, and further includes an electromechanical transducer mounted on the elastic body. The at least one positioning and holding member restrains movement of the vibrating body with respect to the supporting member in the relative movement direction, and includes an interposing portion interposed between a plurality of the projecting portions and a mounting portion mounted on the supporting member. The supporting member includes a receiving portion onto which the mounting portion is mounted with a clearance formed between the mounting portion and the receiving portion in the relative movement direction.

Abstract: A vibration-type drive apparatus, which increases productivity and also prevents undesired vibration from occurring during operation, includes an elastic body, a vibrating body having an electro-mechanical energy conversion element mounted on the elastic body, a driven body that is brought into pressure contact with the vibrating body, and a pressurizing member that brings the driven body into pressure contact with the vibrating body. Relative positions of the vibrating body and the driven body change due to vibrations excited in the vibrating body. The pressurizing member has a positioning portion, and the driven body has a fitting-receiving portion that is to be fitted onto the positioning portion. During operation, the positioning portion and the fitting-receiving portion are not in contact with each other.

Abstract: There is provided a vibration wave motor that includes a plurality of pressing parts separated by slits and can prevent an intervention member from protruding from the slits. The vibration wave motor includes a vibrator, a driven body configured to be brought into pressure contact with the vibrator and to move relative to the vibrator, a pressing member configured to move together with the driven body and to bring the driven body into pressure contact with the vibrator, and an intervention member intervening between the driven body and the pressing member, and configured to be pressed together with the driven body when the pressing member brings the driven body into pressure contact with the vibrator. The pressing member includes a plurality of pressing parts that is separated by slits and presses the intervention member. The intervention member is firmly fixed to the driven body.

Abstract: A vibration actuator, which is capable of being miniaturized or obtaining stable drive performance, moves a vibration body and a contact body relatively. The vibration actuator includes a support member that supports the vibration body. The support member includes a vibration section joined to the vibration body, a first fixing section and a second fixing section that are provided on opposite sides of the vibration body for fixing the support member at a predetermined position, a first support section that connects the vibration section with the first fixing section to support the vibration body, a second support section that connects the vibration section with the second fixing section to support the vibration body, and conduction members that extend from the vibration body to the first fixing section, extend from the vibration body to the second fixing section, and supply electric power to the vibration body.

Abstract: Provided is a vibration wave motor including: a vibrator; a contact body to be brought into contact with the vibrator; a shaft fixed to the contact body; and a fixing member configured to fix the contact body and the shaft from the shaft side.

Abstract: A vibration actuator can be reduced in manufacturing cost and size thereof without using a magnet. An elastic body of a vibration element includes a base portion joined to an electromechanical energy conversion element, and a pair of contact portions extending from the base portion. The contact portions are brought into pressure contact with a driven element, by elastic deformation, in a third direction orthogonal to both of a first direction of relative motion of the vibration element and the driven element and a second direction as a thickness direction of the conversion element. When driving vibration is excited in the vibration element by applying a predetermined AC voltage to the conversion element, the contact portions apply frictional driving forces to the driven element, for moving the vibration element and the driven element relative to each other in the first direction.

Abstract: A vibration-type actuator that is capable of reducing an unnecessary vibration during driving includes a vibration body configured by connecting an electro-mechanical energy conversion element and an elastic body. A driven body is in pressure contact with the vibration body. A controller moves the vibration body and the driven body relatively by a vibration that is excited in the vibration body by applying driving voltage to the electro-mechanical energy conversion element so that a difference between a resonance frequency in a natural vibration mode of the vibration body that is higher than an upper limit frequency of a predetermined driving frequency range and that is nearest to the upper limit frequency and a frequency of the driving voltage is greater than a difference between a resonance frequency in a natural vibration mode used for moving the vibration body and the driven body relatively and the frequency of the driving voltage.

Abstract: A vibration type actuator including a vibrator having an electro-mechanical energy conversion element and an elastic member fixed to the electro-mechanical energy conversion element; a base unit configured to fix the vibrator; a moving body configured to come into press contact with the vibrator and capable of being moved by the vibration; a press member configured to bring the vibrator and the moving body into press contact with each other and transmit a drive force of the moving body to an output unit; and a bearing unit configured to rotatably support the output unit with respect to the base unit, wherein the bearing unit is arranged on an outer peripheral side of the vibrator and the moving body in a direction orthogonal to a direction of rotation axis of the output unit.

Abstract: A vibration actuator that is capable of miniaturizing or obtaining stable drive performance. The vibration actuator moves a vibration body and a driven body relatively. The vibration actuator includes a support member that supports the vibration body. The support member includes a vibration section joined to the vibration body, a first fixing section and a second fixing section that are provided on both sides of the vibration body for fixing the support member at a predetermined position, a first support section that connects the vibration section with the first fixing section to support the vibration body, a second support section that connects the vibration section with the second fixing section to support the vibration body, and conduction members that extend from the vibration body to the first fixing section, extend from the vibration body to the second fixing section, and supply electric power to the vibration body.

Abstract: A vibration-type drive apparatus which increases productivity and also prevents undesired vibration from occurring during operation. The vibration-type drive apparatus has an elastic body, a vibrating body having an electro-mechanical energy conversion element mounted on the elastic body, a driven body that is brought into pressure contact with the vibrating body, and a pressurizing member that brings the driven body into pressure contact with the vibrating body. Relative positions of the vibrating body and the driven body change due to vibrations excited in the vibrating body. The pressurizing member has a positioning portion, and the driven body has a fitting-receiving portion that is to be fitted onto the positioning portion. During operation, the positioning portion and the fitting-receiving portion are not in contact with each other.

Abstract: A vibration actuator reduced in the manufacturing cost and size thereof without using a magnet. An elastic body of a vibration element includes a base portion joined to an electromechanical energy conversion element, and a pair of contact portions extending from said base portion. The contact portions are brought into pressure contact with a driven element, by elastic deformation, in a third direction orthogonal to both of a first direction of relative motion of the vibration element and the driven element and a second direction as a thickness direction of the conversion element. When driving vibration is excited in the vibration element by applying a predetermined AC voltage to said conversion element, the contact portions apply frictional driving forces to the driven element, for moving the vibration element and the driven element relative to each other in the first direction.

Abstract: A vibration-type actuator that is capable of reducing an unnecessary vibration during driving. A vibration body is configured by connecting an electro-mechanical energy conversion element and an elastic body. A driven body is in pressure contact with the vibration body. A controller moves the vibration body and the driven body relatively by a vibration that is excited in the vibration body by applying driving voltage to the electro-mechanical energy conversion element so that a difference between a resonance frequency in a natural vibration mode of the vibration body that is higher than an upper limit frequency of a predetermined driving frequency range and that is nearest to the upper limit frequency and a frequency of the driving voltage is larger than a difference between a resonance frequency in a natural vibration mode used for moving the vibration body and the driven body relatively and the frequency of the driving voltage.

Abstract: A rotary type vibration wave driving apparatus which is capable of reducing local wear of a contacting member and of reducing performance deterioration due to long term operation is provided. The apparatus includes a electro-mechanical energy conversion element, an vibration member fixed to the electro-mechanical energy conversion element and vibrated by a voltage being supplied to the electro-mechanical energy conversion element, and a moving member being brought into contact with the vibration member and frictionally driven by the vibration, and is configured such that the moving member includes a supporting portion extended from the main body portion of the moving member, and a contacting portion extended from the supporting portion and being brought into contact with the vibration member, and such that each of the supporting portion and the contacting portion is configured to be elastically deformable in the rotation axis direction of the moving member.

Abstract: A vibration type actuator including a vibrator having an electro-mechanical energy conversion element and an elastic member fixed to the electro-mechanical energy conversion element; a base unit configured to fix the vibrator; a moving body configured to come into press contact with the vibrator and capable of being moved by the vibration; a press member configured to bring the vibrator and the moving body into press contact with each other and transmit a drive force of the moving body to an output unit; and a bearing unit configured to rotatably support the output unit with respect to the base unit, wherein the bearing unit is arranged on an outer peripheral side of the vibrator and the moving body in a direction orthogonal to a direction of rotation axis of the output unit.

Abstract: A vibration-type driving apparatus includes a vibration member, to which an electrical-mechanical energy conversion element is fixed and which is vibrated when a driving voltage is applied to the electrical-mechanical energy conversion element; and a moving member that comes into contact with the vibration member and rotates relative to the vibration member in accordance with the vibration. The moving member includes a body portion and a contacting portion with a friction surface that comes into frictional contact with the vibration member and, in an area extending from a rotation axis in a radial direction, a line connecting a centroid of a shape of the moving member to an arbitrary point of the contacting portion of the moving member is parallel to a direction of the vibration trajectory of the vibration member.

Abstract: Provided is a vibration-type driving apparatus including: a vibration member to which an electrical-mechanical energy conversion element is fixed and which is vibrated when a driving voltage is applied to the electrical-mechanical energy conversion element; and a moving member that comes into contact with the vibration member and rotates relative to the vibration member in accordance with the vibration, wherein the moving member includes a body portion and a contacting portion with a friction surface coming into frictional contact with the vibration member, and wherein a line connecting a centroid in a cross-sectional shape of the moving member determined from the rotation axis direction of the rotation and the radial direction to an arbitrary point of the contacting portion of the moving member is parallel to direction of the vibration trajectory of the vibration member.

Abstract: A rotary type vibration wave driving apparatus which is capable of reducing local wear of a contacting member and of reducing performance deterioration due to long term operation is provided. The apparatus includes a electro-mechanical energy conversion element, an vibration member fixed to the electro-mechanical energy conversion element and vibrated by a voltage being supplied to the electro-mechanical energy conversion element, and a moving member being brought into contact with the vibration member and frictionally driven by the vibration, and is configured such that the moving member includes a supporting portion extended from the main body portion of the moving member, and a contacting portion extended from the supporting portion and being brought into contact with the vibration member, and such that each of the supporting portion and the contacting portion is configured to be elastically deformable in the rotation axis direction of the moving member.