The invention concerns a valve actuator (1) comprising a housing (2) and a nut and screw arrangement. A first portion (5) of the nut and screw arrangement is operated by an electric motor (7), which is fixed to the housing (2). A means (8) is in contact with a second portion (6) of the nut and screw
The invention concerns a valve actuator (1) comprising a housing (2) and a nut and screw arrangement. A first portion (5) of the nut and screw arrangement is operated by an electric motor (7), which is fixed to the housing (2). A means (8) is in contact with a second portion (6) of the nut and screw arrangement, and a resilient means (9) is acting between the means (8) and the housing (2). A relative rotation between the threaded nut (3) and the threaded screw (4) leads to a translation of the means (8) and an energizing or de-energizing of the resilient means (9). A locking means (10) locks the resilient means (9) in an energized state by locking the relative rotation of the nut and screw arrangement. When the locking means (10) are released, the resilient means (9), when de-energizing, acts on the means (8), leading to a translation of the means (8).
대표청구항▼
1. An electrically powered valve actuator connectable to a source of electricity for providing electricity to the valve actuator, the valve actuator comprising: a housing,a threaded nut,a threaded screw extending through the threaded nut,an electric motor fixed to the housing and configured to rotat
1. An electrically powered valve actuator connectable to a source of electricity for providing electricity to the valve actuator, the valve actuator comprising: a housing,a threaded nut,a threaded screw extending through the threaded nut,an electric motor fixed to the housing and configured to rotate a first one of the nut and the screw,a contact member in contact with a second one of the nut and the screw, the contact member being axially and rotationally fixed to the second one of the nut and the screw when electricity is provided to the valve actuator and when electricity is not provided to the valve actuator and the contact member being locked against rotation in the housing when electricity is provided to the valve actuator and when electricity is not provided to the valve actuator,a resilient member between the contact member and the housing configured to bias the contact member in a first direction relative to the housing and being shiftable between a first state and a second state, a potential energy of the resilient member being higher in the first state than in the second state, andlocking means for locking and unlocking the resilient member, the locking means having a locked condition and an unlocked condition, the locking means being configured to shift automatically to the unlocked condition in response to a stoppage of electricity being provided to the valve actuator, the locking means in the locked condition preventing relative rotation between the threaded nut and the threaded screw and the locking means in the unlocked condition allowing relative rotation between the threaded nut and the threaded screw and allowing the resilient member to shift to the second state,wherein the locking means comprises one of a tooth clutch, a tooth brake, a torque lock, and a friction brake, andwherein the resilient member comprises a spring or a spring washer or a disc spring, andwherein the first one of the nut and the screw comprises the screw and wherein the locking means is configured to prevent relative rotation between the threaded nut and the threaded screw by preventing the threaded screw from rotating relative to the housing. 2. The valve actuator according to claim 1, wherein the second one of the nut and the screw comprises the screw and wherein the contact member is locked against axial movement relative to the screw when electricity is provided to the valve actuator and when electricity is not provided to the valve actuator. 3. The valve actuator according to claim 1, further including an extension member extending from the second one of the nut and the threaded screw and extending through an opening in the housing. 4. An electrically powered valve actuator connectable to a source of electricity for providing electricity to the valve actuator, the valve actuator comprising: a housing,a threaded nut,a threaded screw extending through the threaded nut,an electric motor fixed to the housing and configured to rotate a first one of the nut and the screw,a contact member in contact with a second one of the nut and the screw, the contact member being axially and rotationally fixed to the second one of the nut and the screw when electricity is provided to the valve actuator and when electricity is not provided to the valve actuator and the contact member being locked against rotation in the housing when electricity is provided to the valve actuator and when electricity is not provided to the valve actuator,a resilient member between the contact member and the housing configured to bias the contact member in a first direction relative to the housing and being shiftable between a first state and a second state, a potential energy of the resilient member being higher in the first state than in the second state, andlocking means for locking and unlocking the resilient member, the locking means having a locked condition and an unlocked condition, the locking means being configured to shift automatically to the unlocked condition in response to a stoppage of electricity being provided to the valve actuator, the locking means in the locked condition preventing relative rotation between the threaded nut and the threaded screw and the locking means in the unlocked condition allowing relative rotation between the threaded nut and the threaded screw and allowing the resilient member to shift to the second state,wherein the locking means comprises one of a tooth clutch, a tooth brake, a torque lock, and a friction brake, andfurther including a valve part connected to an extension member, the valve part being movable in a controlled manner in a first direction when the electric motor generates a relative rotation in a first direction between the threaded nut and the threaded screw and being movable in a controlled manner in a second direction when the electric motor generates a relative rotation in a second direction between the threaded nut and the threaded screw and further being movable to a desired position in a controlled manner to control a flow in a pipe. 5. An electrically powered valve actuator connectable to a source of electricity for providing electricity to the valve actuator, the valve actuator comprising: a housing,a threaded nut,a threaded screw extending through the threaded nut,an electric motor fixed to the housing and configured to rotate a first one of the nut and the screw,a contact member in contact with a second one of the nut and the screw, the contact member being axially and rotationally fixed to the second one of the nut and the screw when electricity is provided to the valve actuator and when electricity is not provided to the valve actuator and the contact member being locked against rotation in the housing when electricity is provided to the valve actuator and when electricity is not provided to the valve actuator,a resilient member between the contact member and the housing configured to bias the contact member in a first direction relative to the housing and being shiftable between a first state and a second state, a potential energy of the resilient member being higher in the first state than in the second state, anda lock shiftable between a locked condition and an unlocked condition, the lock being selectively shiftable between the locked and the unlocked condition when electricity is being provided to the valve actuator and remaining in the unlocked condition or shifting automatically to the unlocked condition when electricity ceases to be provided to the valve actuator, the lock in the locked condition preventing relative rotation between the threaded nut and the threaded screw and the lock in the unlocked condition allowing relative rotation between the threaded nut and the threaded screw,wherein, when the resilient member is in the first state and electricity ceases to be provided to the valve actuator, the lock is configured to automatically shift to the unlocked condition and allow the resilient member to shift to the second state and cause a relative rotation between the threaded nut and the threaded screw, andwherein the lock is configured to prevent relative rotation between the threaded nut and the threaded screw by preventing the threaded screw from rotating relative to the housing. 6. The valve actuator according to claim 5, wherein the resilient member comprises a spring or a spring washer or a disc spring and wherein the lock comprises one of a tooth clutch, a tooth brake, a torque lock, and a friction brake. 7. The valve actuator according to claim 6, wherein the second one of the nut and the screw comprises the screw and wherein the contact member is locked against axial movement relative to the screw. 8. The valve actuator according to claim 6, wherein the first one of the nut and the screw comprises the screw. 9. The valve actuator according to claim 5, further including: an extension member extending from the second one of the contact member and the threaded screw and extending through an opening in the housing, anda valve part connected to the extension member, the valve part being movable in a controlled manner in a first direction when the electric motor generates a relative rotation in a first direction between the threaded nut and the threaded screw and being movable in a controlled manner in a second direction when the electric motor generates a relative rotation in a second direction between the threaded nut and the threaded screw and further being movable to a desired position in a controlled manner to control a flow in a pipe. 10. The valve actuator according to claim 5, wherein the lock comprises a clutch or a brake. 11. The valve actuator according to claim 5, wherein the lock comprises one of a tooth clutch, a tooth brake, a torque lock, and a friction brake.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (7)
McGregor Ronald W. ; Madrid Ronn G. ; Mackenzie Roy,GBX ; Weise Stanley A., Actuator assembly.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.