A spring compression device comprises a spring sleeve configured to receive a spring; a spring adjustment member provided on and engaged with the spring sleeve and configured to abut a spring mounted on the spring sleeve, wherein the spring sleeve and spring adjustment member define an operating length (L) of the spring compression device, and the spring adjustment member is configured to be moved relative to the spring sleeve to adjust the operating length of the spring compression device; and at least one blocking component for blocking movement between the spring sleeve and the spring adjustment member.

A device for the accumulation of elastic energy and converting it into electrical energy, which provides the highest possible efficiency of energy storage and conversion. The device uses a high load capacity and efficiency of the roller screw mechanism and the ability of disc springs to store and release energy with the greatest possible specific elastic deformation. The device is equipped with a brake, which makes it possible to maintain the accumulation of elastic energy for a long time. In the state of energy storage, the motor-generator works as a motor, and to convert the stored elastic energy into electrical energy, it works as a generator.

A device for the accumulation of elastic energy and converting it into electrical energy, which provides the highest possible efficiency of energy storage and conversion. The device uses a high load capacity and efficiency of the roller screw mechanism and the ability of disc springs to store and release energy with the greatest possible specific elastic deformation. The device is equipped with a brake, which makes it possible to maintain the accumulation of elastic energy for a long time. In the state of energy storage, the motor-generator works as a motor, and to convert the stored elastic energy into electrical energy, it works as a generator.

A multi-buffer energy accumulation apparatus comprises: an energy storage cylinder, an oil tank, a first scroll spring mechanism, a second scroll spring mechanism, a hydraulic motor, differential planetary train of gearings, and a generator; wherein the energy storage cylinder comprises a hermetically sealed cylinder body, one end of the hermetically sealed cylinder body being provided with an elastic mobile device, the other end thereof being provided with an energy transmission device, and hydraulic oil is filled in the hermetically sealed cylinder body between the elastic mobile device and the energy transmission device; the hermetically sealed cylinder body, the hydraulic motor, and the oil tank are connected via an oil circuit to form a hydraulic loop; the energy transmission device is connected with the first scroll mechanism; the hydraulic motor is connected with the second scroll spring mechanism.

The present application relates to the technical field of a wheel, and particularly to a stored energy transmission mechanism and stored energy-driven wheel. In particular, a stored energy transmission mechanism is integrated with a rotating component, which is used to drive the rotating component. The stored energy transmission mechanism includes a center shaft, an elastic component, a transmission cover, a flywheel, and a flywheel seat. The elastic component is sleeved outside the center shaft and positioned in the transmission cover, with one end being fixedly connected with the center shaft and the other end being fixedly connected with the transmission. When the transmission cover is rotated and fitted with the center shaft, it can tighten the elastic component to store energy.

The present application relates to the technical field of a wheel, and particularly to a stored energy transmission mechanism and stored energy-driven wheel. In particular, a stored energy transmission mechanism is integrated with a rotating component, which is used to drive the rotating component. The stored energy transmission mechanism includes a center shaft, an elastic component, a transmission cover, a flywheel, and a flywheel seat. The elastic component is sleeved outside the center shaft and positioned in the transmission cover, with one end being fixedly connected with the center shaft and the other end being fixedly connected with the transmission. When the transmission cover is rotated and fitted with the center shaft, it can tighten the elastic component to store energy.

Disclosed is a clock spring-based rotational force generating device capable of allowing a user to freely adjust rotation speed of an output shaft and preventing the output shaft from rotating slowly or never rotating due to an weakened unwinding force of a spiral spring in the late period of an operation span of the spiral spring. The device includes an input shaft, a main drive gear receiving the rotational force of the input shaft, a spiral spring wound around a main drive gear shaft, a speed gear to increase the rotational force of the main drive gear, a power transmission control gear sliding up and down to control transmission of the rotational force of the main drive gear to the speed gear, an output shaft outputting the rotational force increased by the speed gear, and a rotation speed control means for controlling the rotation speed of the output shaft.

Disclosed is a clock spring-based rotational force generating device capable of allowing a user to freely adjust rotation speed of an output shaft and preventing the output shaft from rotating slowly or never rotating due to an weakened unwinding force of a spiral spring in the late period of an operation span of the spiral spring. The device includes an input shaft, a main drive gear receiving the rotational force of the input shaft, a spiral spring wound around a main drive gear shaft, a speed gear to increase the rotational force of the main drive gear, a power transmission control gear sliding up and down to control transmission of the rotational force of the main drive gear to the speed gear, an output shaft outputting the rotational force increased by the speed gear, and a rotation speed control means for controlling the rotation speed of the output shaft.

A safety device that is useful to release load on a spring found in an actuator. In one embodiment, the actuator can have a housing comprising a pair of housing members and a fastening device coupling the pair of housing members to one another. The embodiment can also have an output shaft extending longitudinally in the housing, the output shaft having an end configured to couple with a process device. The embodiment may also have a spring coupled with the output shaft. The embodiment can further have a safety device coupled to the spring and configured to operate to reduce loading of the spring from a first load to a second load. In one example, the safety device is in position to prevent access to the fastening device at the first load and to allow access to the fastening device at the second load so that the pair of housing members can separate to allow access to the spring in the housing.

A safety device that is useful to release load on a spring found in an actuator. In one embodiment, the actuator can have a housing comprising a pair of housing members and a fastening device coupling the pair of housing members to one another. The embodiment can also have an output shaft extending longitudinally in the housing, the output shaft having an end configured to couple with a process device. The embodiment may also have a spring coupled with the output shaft. The embodiment can further have a safety device coupled to the spring and configured to operate to reduce loading of the spring from a first load to a second load. In one example, the safety device is in position to prevent access to the fastening device at the first load and to allow access to the fastening device at the second load so that the pair of housing members can separate to allow access to the spring in the housing.