A solar actuator comprises a top coupler, a bottom coupler, and a plurality of fluidic bellows actuators, wherein a fluidic bellows actuator of the plurality of fluidic bellows actuators moves the top coupler relative to the bottom coupler.

In a solar generator, comprising a reflector and an electrohydraulic sun-position tracking device with at least one hydraulic cylinder and a hydraulic control seat valve, the reflector can be guided via the control seat valve to follow in synchronism with the course of the sun continuously and uninterruptedly. The control seat valve for regulating a pressure medium flow permanently supplied to the hydraulic cylinder comprises a seat surface and a sealing surface permanently pressed against each other with variable contact pressure, with which the pressure medium flow can be generated as controlled leakage. The sealing surface is made of a material that can be deformed by contact pressure. In the control seat valve, the controlled leakage is set in a control position at least substantially without lifting movement exclusively by the relative material deformation of the sealing surface on the seat surface, which deformation is set via the contact pressure.

Broadband reflectors include a UV-reflective multilayer optical film and a VIS/IR-reflective layer. In various embodiments, the VIS/IR reflective layer may be a reflective metal layer or a multilayer optical film. Concentrated solar power systems and methods of harnessing solar energy using the broadband reflectors and optionally comprising a celestial tracking mechanism are also disclosed.

The invention relates to a solar power concentrator (CSP) formed by a series of long flat (Fresnel-type) mirrors oriented in a north-south direction, each mirror having a single east-west axis of rotation, tracking the height of the sun. Together the mirrors reflect the light throughout the day towards a single cylindrical-parabolic mirror which concentrates the solar radiation onto a small area close to the focal line of the parabola on which an absorber is located that heats fluids and/or generates electricity.

A heliostat contained within a mechanical enclosure is described that optimizes the heliostat for domestic applications by emphasizing features of durability, protection from outside weather, low cost of manufacture, self-powering, light-weight, and aesthetics.

An assembly for positioning photovoltaic panels on a structure includes a main frame connectable to the structure, and a subassembly connectable to the main frame to support a photovoltaic panel, in which the subassembly is rotatable with respect to the main frame to place the subassembly in a deployed position. The assembly may further include a stop-arm connectable to the main frame to support the subassembly when in the deployed position.

A solar power generation apparatus with non-equidirectional solar tracking stages. At the beginning of sunrise, a solar power generation module is driven by a link assembly to gradually rotate from an initial position to the sun in a direction reverse to the moving direction of the sun. After the solar power generation module is rotated to a position of first preset elevation and azimuth, where the solar power generation module right faces the sun, the solar power generation module starts pivotally rotating along with the change of the position of the sun. When the sun and the direction of the solar power generation module synchronously move to a position of second preset elevation and azimuth, the solar power generation module is further driven to gradually pivotally rotate back to the initial position in a direction reverse to the moving direction of the sun for next cycle.

The present invention relates to apparatus and methods to provide a closed loop pointing system for the purpose of redirecting light from a source onto a target. In one aspect the present invention relates to a method of redirecting incident light, comprising the steps of: using at least one light redirecting element to redirect the incident light; providing a plurality of optical proxies that are associated with the reflecting element in a manner such that at least two of the optical proxies distribute a portion of the incident light uniquely relative to each other, wherein optical information encoded in the light distributed by the optical proxies cumulatively correlates to the aim of the light redirecting element; observing the optical information distributed by the optical proxies; and using the optical information to controllably actuate the light redirecting element in a manner that aims the redirected light onto a target.

The present disclosure provides systems and methods for the collection and concentration of solar thermal energy and the exchanging of this concentrated solar thermal energy into transportable and usable heat energy in a medium such as water, oil or molten salts.

A fixed-type solar generator with minimally controlled reflector includes: solar collector panel facing culmination of sun, first and second reflectors rotatably provided on east and west sides of the solar collector panel, respectively, sensor module and control module. The sensor module includes a first sensor for detecting greater light amount from sun while in a first section from sunrise to culmination than while in a second section from culmination to sunset, and a second sensor for detecting greater light amount from the sun while in the second section from culmination to sunset than while in the first section from sunrise to culmination. The control module controls a rotation angle of at least one of the first and second reflectors based on a first light intensity value detected by first sensor and a second light intensity value detected by second sensor.