Abstract:
A reflection-type light-emitting assembly is provided. The reflection-type light-emitting assembly includes a reflector and a plurality of light-emitting elements. The reflector has a concave-shape body and a supporter. The supporter is formed by extending the rim of the concave-shape body toward the center thereof, so as to form a light-emitting opening of the reflector. The light-emitting elements are arranged on the supporter. Light rays emitted by the light-emitting elements fall on a reflecting surface of the reflector and then reflect off the reflecting surface to thereby exit the light-emitting opening. The light rays reflected off the reflecting surface and out the reflector are relatively soft rather than glaringly uncomfortable to the human eyes.
Abstract:
A foldable solar energy apparatus is provided. The foldable solar energy apparatus includes a frame, a first solar energy module, an actuation module, and a power module. A photovoltaic panel is coupled to a first holder of the first solar energy module, and electricity generated by the photovoltaic panel is stored in the power module. The first holder is rotatably coupled to the frame so that the first holder is collapsible via the actuation module, which is disposed at the frame and connected to the first holder. The first holder and the actuation module provide the solar energy apparatus with a foldable function. Thus, the solar energy apparatus can be folded in response to changes in weather conditions, thereby preventing the photovoltaic panel from being damaged by bad weather.
Abstract:
A light-emitting diode (LED) light source assembly with a heat dissipation base is provided. The LED light source assembly includes the heat dissipation base and a light bar. The light bar includes a flexible printed circuit (FPC) board and at least one LED unit which is disposed on the FPC board and electrically connected to the FPC board. The heat dissipation base has two retaining recesses for lodging the side portions of the FPC board, so the FPC board can be thermally conductively connected to the heat dissipation base. Because of the flexibility of the FPC board, it is easy to lodge the FPC board in the heat dissipation base via the retaining recesses. Thus, the cost for arranging the light bar can be economized.
Abstract:
The present invention discloses a solar energy lamp having a fiber display. The solar energy lamp includes a lamp support, a photovoltaic panel, a lighting module, a fiber display module and a power module. The photovoltaic panel is disposed on the lamp support and the lighting module is disposed on a housing of the lamp support for lighting. The fiber display module is located at an appropriate location of a pole set of the lamp support for watching. Besides, the power module can save the electrical power generated by the photovoltaic panel and the power module also can control the lighting module and the fiber display module to turn on or turn off. Because of the usage of the photovoltaic panel, the solar energy can be the power source of the lighting module and the fiber display module. Thus, it can achieve the purpose of saving energy.
Abstract:
An LED light source device with color temperature adjustment capability includes at least one light-emitting diode and a color temperature conversion element. A front end of the light-emitting diode has a light-emitting end. The color temperature conversion element is disposed in front of the light-emitting end of the light-emitting diode. The color temperature conversion element includes a light-transmitting substrate and color temperature conversion materials. The color temperature conversion materials are provided on/in the light-transmitting substrate. The color temperature conversion materials include high refractive index materials and low refractive index materials. The high refractive index materials that are selected from the group consisting of TiO2, Ti3O5 or Ta2O5. The low refractive index materials that are selected from the group consisting of SiO2 or MgF2. The light beam emitted by the light-emitting diode passes through the color temperature conversion element to change its color temperature.
Abstract translation:具有色温调节能力的LED光源装置包括至少一个发光二极管和色温转换元件。 发光二极管的前端具有发光端。 色温转换元件设置在发光二极管的发光端的前方。 色温转换元件包括透光基板和色温转换材料。 色温转换材料设置在透光衬底上/中。 色温转换材料包括高折射率材料和低折射率材料。 选自TiO 2,Ti 3 O 5或Ta 2 O 5的高折射率材料。 选自SiO 2或MgF 2的低折射率材料。 由发光二极管发射的光束通过色温转换元件以改变其色温。
Abstract:
A solar and wind power generator capable of tracking sunlight automatically is provided. The solar and wind power generator includes a base, a revolving column, a generator, a plurality of wind-collecting portions, a plurality of photovoltaic panels, and a secondary cell. The generator is disposed in the base. A wind-collecting element of each wind-collecting portion is coupled to the revolving column by a rotor brake. The revolving column is coupled to the generator. The wind-collecting elements, when driven by wind, rotate the revolving column so as for the generator to generate electric power. The photovoltaic panels are arranged on the wind-collecting elements to absorb sunlight and thereby generate electric power. Electric power generated by the generator and the photovoltaic panels is stored in the secondary cell. Inclination angles of the wind-collecting elements are adjustable by the rotor brakes, allowing the photovoltaic panels to face the sun and track sunlight automatically.
Abstract:
The present invention discloses a regular circuitry for reducing ripple resulting from a line voltage transmitting to a secondary side of a power transformer. The regular circuitry electrically connected in parallel with the power transformer includes a ripple sampling circuit, a proportional amplifier circuit, and a reversing amplifier circuit. The ripple sampling circuit selects a sampling ripple from the input port of the power transformer, which is electrically connected in series between a primary side rectification circuit and a secondary side rectification circuit. The proportional amplifier circuit receives the sampling ripple to generate an amplified sampling ripple. The amplified sampling ripple transmits to the reversing amplifier circuit so that a reversed sampling ripple is generated. Thus, the reversed sampling ripple can be input to the output port of the power transformer to superimpose on the signal output from the power transformer to reduce the ripple resulting from the line voltage.
Abstract:
A flexible light-emitting apparatus including a side light-emitting flexible light guide rod, two light emitting diodes, and two lenses is provided. The side light-emitting flexible light guide rod has a first end, a second end opposite to the first end, and a light-emitting surface connecting the first and the second ends. The LEDs are respectively disposed beside the first end and the second end and adapted for emitting light beams toward the side light-emitting flexible light guide rod, respectively. One of the lenses is located between the first end and the LED disposed beside the first end, and the other lens is located between the second end and the LED disposed beside the second end. Each of the light beams enters the side light-emitting flexible light guide rod through the corresponding lens and is transmitted to the outside of the side light-emitting flexible light guide rod through the light-emitting surface.
Abstract:
A solar energy street lamp structure with an adjustable angle is provided. The solar energy street lamp structure includes a lamp holder, a lighting unit, a photovoltaic panel, an electric power storage portion, and an actuation portion. A frame and a holder of the lamp holder are movably coupled by pivot units. The electric power storage portion is placed inside the lamp holder. An actuation unit of the actuation portion is connected between the frame and the holder for adjusting an angle between the frame and the holder such that the lighting unit and the photovoltaic panel, both disposed on the holder, are adjustable synchronously. The photovoltaic panel and the lighting unit are rotatable according to an incident angle of sunlight by adjusting the holder. Thus, the solar energy street lamp structure generates power at enhanced efficiency and can emit light in various directions so as to have wide applicability.
Abstract:
A solar energy street lamp structure with an air passageway is provided. The solar energy street lamp structure includes a lamp support, a photovoltaic panel, a lighting unit, and a power module. The photovoltaic panel and the lighting unit are coupled with the street lamp, respectively. The power module stores power generated by the photovoltaic panel and provides the stored power to the lighting unit. Moreover, the air passageway is formed between a first body and a second body of the lamp support to enable air circulation. Thus, heat generated by the photovoltaic panel and the lighting unit in operation can be dissipated by air circulating through the air passageway. The solar energy street lamp structure with the air passageway is capable of effective heat dissipation and therefore has an extended service life.