A drive mechanism for a medication delivery device is presented having a housing, a rotation member that rotates in a first direction with respect to the housing during setting of a dose of a medication and rotates in a second direction with respect to the housing during delivery of the dose, the second direction being opposite to the first direction. The device also has a piston rod that is displaced in a distal direction with respect to the housing for delivering the dose, a drive member which follows rotational movement of the rotation member in the second direction during delivery of the dose, and a stop member which prevents rotational movement of the drive member with respect to the housing in the first direction during setting of the dose.

A reciprocating action drive having an elastically extensible reversing mechanism is disclosed in which drive levers are connected to a driven shaft by overrunning clutches such that when the levers are moved in a first direction, the shaft is driven, but when moved in a counter-rotating direction, it is not. The extensible reversing mechanism links the levers such that, when not extended, it causes the two levers to counter-rotate, only allowing one to drive the shaft. However, when the lever being moved in the non-driving direction changes direction, the reversing mechanism extends and does not immediately cause the other lever to change direction, but allows it to continue to move in the driving direction. Both levers may, therefore, simultaneously drive the driven shaft for as long as the extensible reversing mechanism extends, allowing latitude for unsynchronized reciprocating motions to be applied without them competing against each other.

A manually operated propelling method for skateboard or longboard skating comprising of an attachable foot pedal mechanism. The mechanism translates linear motion from the user to rotational motion at the wheel of the skateboard. This mechanism allows the rider to propel the skateboard forward without having to remove a foot from the skateboard deck. This is achieved by pushing a spring loaded pedal mounted on the board, which moves a bracket containing a unidirectional ratchet styled gear, which then drives a driving gear that is clamped to the one of the skateboard trucks, which in turn interacts with a driven gear attached to one or more wheels of the skateboard.

This invention is a method in which large waves are separated from a floating platform unit by using a partition plate unit so that the floating platform unit enclosed by the partition plate unit is in a state of almost no wave. These large waves outside the partition plate unit are to move many floating ball units up and down so that the racks provided on each of the floating ball units are capable of rotating the power gears extending from the floating platform unit, and the rotational forces of power gears are regulated through ratchets and consolidated to produce a single direction rotating power, and then to drive external generators. The racks on the floating ball units and the power gears on the floating platform unit are pulled together by using springs. The resilient force of the two springs simultaneously helps the rack's up and down in smooth reciprocating motion. Then the power gears directly and indirectly drive the multiple coaxial gear to output a single-direction spinning force to drive the external generators. The invention has the advantages of super high-efficiency, simple structure, easy to set up, able to be fixed or not fixed on the shore, and able to be set up offshore, and the size of the entire mechanism can be easily extended or adjusted linearly in terms of power demand. It can fully utilize the available sea area.

A device for rotating a toothed wheel, including a linear piezoelectric motor including: a passive element having an elongated shape, a piezoelectric actuator capable of axially moving the passive element in a bidirectional manner, a transmission member fastened to the passive element, meshing with a toothing of the wheel in such a way as to rotate the wheel by one tooth in a first direction of rotation when the passive element is moved axially in a first direction of movement, a jumper mobile between two end positions, including a lowered position in which it blocks a rotation of the wheel in a second direction of rotation opposite to the first direction of rotation.

The present disclosure relates to a speed bump and a speed bump transportation system. The speed bump comprises: a base; a cover disposed opposite to the base and configured to be movable relative to the base; an electric-power generation device associated with the cover to scavenge energy through the cover and convert the energy into electrical energy; a first detection device for detecting a force condition of the cover and sending a first detection signal to a communication device when the cover is pressed; the communication device electrically connected to the first detection device and for sending a first communication signal when receiving the first detection signal, wherein the electric-power generation device is electrically connected to the communication device and the first detection device respectively to supply electric-power to the communication device and the first detection device.

A wave energy converter deep sea mounting system consists of a floatable platform, an enclosure, a wave energy converter mechanism, a generator, a float arm, and a float. The enclosure is mounted atop the floatable platform by an enclosure support axle, about which the enclosure can rotate. The wave energy converter mechanism and the electrical generator are mounted within the enclosure. The float arm is connected between the enclosure and a stationary float, and as the floatable platform rises and falls due to wave action, the enclosure is thus rotated. The wave energy converter mechanism has a stationary input pulley connected through at least one pulley system to a generator output pulley, multiplying input rotations from the float arm action to the electrical generator in order to generate electricity. As the enclosure rotates about the stationary input pulley, the remaining pulleys are forced to spin through rotation about the stationary input pulley.

A wave energy converter deep sea mounting system consists of a floatable platform, an enclosure, a wave energy converter mechanism, a generator, a float arm, and a float. The enclosure is mounted atop the floatable platform by an enclosure support axle, about which the enclosure can rotate. The wave energy converter mechanism and the electrical generator are mounted within the enclosure. The float arm is connected between the enclosure and a stationary float, and as the floatable platform rises and falls due to wave action, the enclosure is thus rotated. The wave energy converter mechanism has a stationary input pulley connected through at least one pulley system to a generator output pulley, multiplying input rotations from the float arm action to the electrical generator in order to generate electricity. As the enclosure rotates about the stationary input pulley, the remaining pulleys are forced to spin through rotation about the stationary input pulley.

An operating mechanism is provided for a screen assembly having an elongate endless pull cord hanging from the screen assembly in a loop. The operating mechanism has a housing having an opening at an upper end thereof. At least a lower portion of the pull cord can pass into the housing to be enclosed therein. A guide means for guiding passage of the pull cord through the housing. The guide means has a locking means adapted to selectively restrain first or second sides of a loop defined by the pull cord. The guide means includes a cord-retaining member engaging a lower end of the looped pull cord. The cord-retaining member is moveable within the housing between vertically spaced first and second positions, the second position being above the first position, the cord-retaining member being biased towards the first position by biasing means. The housing may be displaced downwardly with respect to the pull cord by upward movement of the cord-retaining member between the positions against the force of the biasing means.

An antenna transmission apparatus includes: a housing including an upper cover and a lower cover, and an input shaft and at least two sets of output shafts that are rotatably mounted between the upper cover and the lower cover; and further includes a planetary gear position selection assembly and a unidirectional control assembly. Each set of output shafts includes an output shaft and an auxiliary shaft in transmission fit with the output shaft; the planetary gear position selection assembly includes a planetary gear; the unidirectional control assembly can control the planetary gear to implement position selection and positioning; and the position selection and bidirectional rotation output of the output shafts may be implemented by using only one motor. The antenna transmission apparatus of the present invention is simple in structure, light in weight, stable, and easy to operate.