An actuator for a rear view device of a vehicle, a rear view device and a vehicle with such an actuator includes a body defining a folding axis for a rear view device of a vehicle, an actuator housing being rotatably and axially displaceably borne by the body and a drive assembly being supported by the actuator housing and being configured for automatically rotating the actuator housing relative to the body about the folding axis between a first angular position and a second angular position and for axially displacing the actuator housing relative to the body along the folding axis between a first axial position and a second axial position.

An actuator for a rear view device of a vehicle, a rear view device and a vehicle with such an actuator includes a body defining a folding axis for a rear view device of a vehicle, an actuator housing being rotatably and axially displaceably borne by the body and a drive assembly being supported by the actuator housing and being configured for automatically rotating the actuator housing relative to the body about the folding axis between a first angular position and a second angular position and for axially displacing the actuator housing relative to the body along the folding axis between a first axial position and a second axial position.

A system for adjusting penetration depth settings of seed planting units of an agricultural implement, the system may include a plurality of seed planting units and a common drive assembly. Each of the seed planting units may have a depth adjustment assembly. The common drive assembly may be configured to drive the depth adjustment assemblies of the plurality of seed planting units so as to simultaneously adjust a penetration depth setting of each respective seed planting unit.

A system for adjusting penetration depth settings of seed planting units of an agricultural implement, the system may include a plurality of seed planting units and a common drive assembly. Each of the seed planting units may have a depth adjustment assembly. The common drive assembly may be configured to drive the depth adjustment assemblies of the plurality of seed planting units so as to simultaneously adjust a penetration depth setting of each respective seed planting unit.

Systems and methods disclosed herein are directed to a deployable field lighting apparatus that meets the requirements of a class 1, division 1 hazardous environment. All aspects of the electrical and mechanical components of the deployable field light are spark-resistant and impact resistant such that the raising, lowering and powering of the deployable field light may be accomplished in hazardous environments. Further, the deployable field light includes additional safety features that are suited to ensure that raised lighting components are prevented from crashing down during deployment or retrieval operations. The filed light prevents accidental falls and maintenance failures because all potential energy is controlled by vertical shaft screws with fixed and engaged screw nuts that prevent rapid vertical/linear motion in any direction. The deployable field light utilizes worm-gear mechanisms along with idler gear translational properties to exert safe control of vertical motion during any deployment operation.

Steerable catheters include cam and follower mechanisms that provide independent control of catheter flex magnitude and catheter flex direction to provide improved steerability of an attached catheter. In certain embodiments, the steerable catheter assemblies include two or more pull wires that flex the catheter, and a control handle coupled to the catheter having a direction control and a magnitude control, both of which are operably coupled to the two or more pull wires by the cam and follower mechanism. In embodiments disclosed herein, the cam and follower system can be modified to achieve particular catheter control.

Steerable catheters include cam and follower mechanisms that provide independent control of catheter flex magnitude and catheter flex direction to provide improved steerability of an attached catheter. In certain embodiments, the steerable catheter assemblies include two or more pull wires that flex the catheter, and a control handle coupled to the catheter having a direction control and a magnitude control, both of which are operably coupled to the two or more pull wires by the cam and follower mechanism. In embodiments disclosed herein, the cam and follower system can be modified to achieve particular catheter control.

Provided is a power transmitting device including an input side gear assembly that includes a single power input terminal and two power output terminals, an output side gear assembly that includes two power input terminals and a single power output terminal, the two power input terminals configured to operate using power received from the two power output terminals of the input side gear assembly, respectively, and a stopper module configured to block power to be transmitted through one of two power transmitting paths connecting the two power output terminals of the input side gear assembly and the two power input terminals of the output side gear assembly.

Provided is a power transmitting device including an input side gear assembly that includes a single power input terminal and two power output terminals, an output side gear assembly that includes two power input terminals and a single power output terminal, the two power input terminals configured to operate using power received from the two power output terminals of the input side gear assembly, respectively, and a stopper module configured to block power to be transmitted through one of two power transmitting paths connecting the two power output terminals of the input side gear assembly and the two power input terminals of the output side gear assembly.

Disclosed herein are steerable catheter assemblies and methods of steering catheters that utilize ball and socket mechanisms to accomplish independent control of catheter flex magnitude and catheter flex direction. Some embodiments include a catheter with two or more pull wires that flex the catheter, a first ball, a socket coupled to the first ball to form a ball and socket assembly, and an adjustment member coupled to the ball and socket assembly, such that the adjustment member is movable axially and rotationally relative to the ball and socket assembly. Two or more pull wires are connected to the socket, and the adjustment member engages the socket such that movement of the adjustment member adjusts the position of the socket relative to the first ball to thereby flex the catheter with the pull wires.