Patents
Literature
Hiro is an intelligent assistant for R&D personnel, combined with Patent DNA, to facilitate innovative research.
Hiro

323results about "Collector sealing means" patented technology

Support system for solar panels

An array of photovoltaic panels is supported in rows and columns spaced from one another using a foldable bi-directional span of support members. The support members include a plurality of support joists and support rails braced at an incline. Each support rail is tubular and generally rectangular, having a lower wall section with a T-slot channel for acceptance of the head of a bolt for adjustable attachment with the support joist. Also, the support rail may have a C-slot channel for retaining electrical wires. Clips are used to secure each panel to upper wall portions of underlying support rails. Each clip has a generally U-shaped gasket and is retained to a corresponding support rail through a threaded hole in a top wall of the support rail that receives a bolt or similar threaded fastener.
Owner:NORTHERN STATES METALS

Support system for solar panels

An array of photovoltaic panels is supported in rows and columns spaced from one another using a foldable bi-directional span of support members. The support members include a plurality of support joists and support rails braced at an incline. Each support rail is tubular and generally rectangular, having a lower wall section with a T-slot channel for acceptance of the head of a bolt for adjustable attachment with the support joist. Also, the support rail may have a C-slot channel for retaining electrical wires. Clips are used to secure each panel to upper wall portions of underlying support rails. Each clip has a generally U-shaped gasket and is retained to a corresponding support rail through a threaded hole in a top wall of the support rail that receives a bolt or similar threaded fastener.
Owner:NORTHERN STATES METALS

Skirt for Photovoltaic Arrays

A skirt for photovoltaic arrays provides a screen portion, a groove portion, and a separate coupling adapted to couple the skirt to the skirt of an adjacent photovoltaic array and to a photovoltaic module. Another embodiment provides a screen portion comprising an angled louver and is adapted to partially obscure an area substantially beneath a PV module in a PV array. A further embodiment provides an edge blocking skirt for a PV array comprising a screen portion adapted for mounting a bottom of the screen portion substantially close to a roof.
Owner:TESLA INC

Solar panel

A solar panel according to the present invention includes a solar cell module body (12), a gasket part (6A to 6F), and a frame structure (13). The gasket part includes a substantially U-shaped structure, having an upper side part, a lower side part, and a connecting part connecting an end of the upper side part and an end of the lower side part, in which the upper side part and the lower side part on the open side abut the peripheral edge part of the solar cell module body and sandwiches the solar cell module body by an elastic force. The frame structure (13) has a female fitting part (13-1), and fitting of the gasket part with the female fitting part supports the solar cell module body via the gasket part. The female fitting part has a drain hole (13-3) which can drain the water in the female fitting part.
Owner:MITSUBISHI HEAVY IND LTD

Clamp for a plate element, especially for a photovoltaic module

A clamp for at least one plate element, with a first clamp part and a second clamp part, the clamp parts adjustable relative to each other between an open position and a clamping position for the plate element, and with at least one elastomer profile that is arranged between the two clamp parts and that has an area with a U-shaped cross section for gripping the plate element. The elastomer profile has a clamping section that is clamped between the two clamp parts when the clamp parts are in the clamping position.
Owner:HILTI AG

Flashable rooftop solar collector enclosure

A flashable, rooftop enclosure with a solar radiation transmissive glazing suitable for holding solar energy collector of a solar power system includes an insulated base section with sidewalls which is secured to the roof sheathing and flashed all around, and a removably attachable glazed top section with full skirt, that is secured to and over the base unit after the interior components and connections are made, so as to seal the enclosure, overlap the flashing, and admit solar radiation. The internal components may include any or all of photovoltaic and thermal converters, with electrical and thermal fluid means of removing energy from the enclosure to respective energy distribution systems.
Owner:SOUCY PAUL B

Solar battery module device and method of installing the same

A solar battery module device (14), wherein an bottom-side end part (22) is fixed onto a placing surface (23) by fitting the top-side end part (19) as one-side of a rectangular shape of a rectangular flat plate-like solar battery module (16) to the engagement part (20) of an upper frame (21) forming a frame (17) from the lower side of a roofer and by fitting a fixing cover (27) to a lower frame (24) in a state in which the bottom-side end part (22) as the opposite-side of the rectangular shape of the solar battery module (16) is placed on the placing surface (23) of the lower frame (24) forming the frame (17). According to the solar battery module device of the present invention, operations such as installation work and maintenance and inspections for the device can be easily and safely performed without damaging the solar battery module (16).
Owner:KYOCERA CORP

Framing system for solar panels

The invention relates generally to framing systems and more particularly is concerned with systems adapted to mount panels or laminates in an array (12) on a supporting roof structure (10) of a building exemplified with the mounting of solar electric photovoltaic (PV) panels. The framing system described uses extruded elongate elements with a sealing element (37) to frame the PV panel as a weatherproof PV solar roof tile. Individual frame element profiles effectively embody the PV building integration (BiPV), or mounting method, of the solar tile within the frame itself. Only a few additional flashing components are needed to complete the PV tile array as part of the roof, or with minor variations, as a PV wall cladding. Full BiPV panel mounting methods show potential to be used for co-generation (PV / T) of solar thermal energy capture in buildings. The batten support structures (11) of the solar tile permit variation in roof batten spacing to be tolerated in retro-fit situations, make trafficable roof with the tiles possible and provide long term weather-ability as a building element through moisture reduction by air flow and smaller surface contact. Draining of internal roof condensate from the back of the tiles to the exterior is another feature of the frame system described.
Owner:彼得 S 厄林

Solar panel roof surface

A system for a solar panel roof surface effectively uses a roof support substructure having a series of parallel hollow support beams extending downwardly from a roof peak to a roof edge. These parallel hollow beams not only provide support for solar panels but also allow for drainage in channels provided in the beams. A series of solar panels are secured to hollow support beams and collectively define a closed sloped roof surface. The series of solar panels are positioned on the beams to define elongate segments of abutting panels where each elongate segment is one panel wide and supported between adjacent hollow support beams. The abutting panels include a sealing arrangement between panels to allow flow of water along the length of the elongate segments. Preferably, the series of hollow support beams include a top surface with a central securing slot positioned between panel segments and panel segment support surfaces either side of said securing slot for supporting edges of the solar panels with at least one drainage channel in the top surface and extending the length of the support beam for draining of water received in the channel to the roof edge.
Owner:2192780 ONTARIO OA GALAXY ENERGY AMERICAS

High-temperature solar thermal-collecting tube and manufacturing process thereof

A high temperature solar heat collecting tube and its producing technology mainly applies to tank type solar high temperature heat electric power generation field. The heat collecting tube includes external glass tube and coaxial metal internal tube, corrugated pipe with expansion compensation function is joined with the metal tube by connecting parts, the other end of the corrugated pipe is welded with metal-glass transition parts kovar ring, then the kovar ring is sealed-in with the glass tube, in order to protect glass and glass sealing-in part against radiation, a sunshade hood is mounted at the outer side of sealing-in part, a thin-wall lightproof ring is welded on the corrugated tube. The said glass tube is made of DM308; DM305 or DM320 molybdenum group glass, the kovar ring is made of 4j29 or 4j30 iron-nickel-cobalt low expansion alloy.
Owner:INST OF ELECTRICAL ENG CHINESE ACAD OF SCI

Method and Apparatus For Mounting Solar Panels

Solar panel array with a plurality of solar panels on support system attached at corners or off such corners for foundation structure needs and irregularities secured to roof by lag bolt with mount channel and flashing pre-assembled into mount by crimp for positive seal and mount riser height adjustable can include bilateral or quadrilateral mounts, a coupler seat to affix panel to mount and lateral movement seat for solar panel. An intercalative junctionpiece, nut, or washer has tines for grounding, a dissociation guide and flexture and keeps off the surface for association and perforation to clamp panel firmly via different clamps including wedge clamps, top restraints, lip end clamps, side support clamps, compression clamps, etc.
Owner:IRONRIDGE

Solar panel roof surface

A solar panel roof surface effectively uses solar panels supported by an open roof support substructure having a series of parallel hollow support beams. These hollow beams support the solar panels on a top surface and accommodate drainage along the beams. The solar panels are secured to an upper surface of the hollow support beams and in combination therewith define a closed sloped roof surface. The series of solar panels are positioned on the beams to define elongate segments of abutting panels. The abutting panels include a sealing arrangement between panels to allow flow of water along the length of the elongate segments. The hollow support beams include a top surface with a central securing slot positioned between panel segments and panel segment support surfaces either side of said securing slot for supporting edges of the solar panels. Fasteners engage the securing slot and the upper edge of the panels to secure the panels to the upper surface of the support beams.
Owner:2192780 ONTARIO OA GALAXY ENERGY AMERICAS

Solar panel system and method utilizing unframed solar panels

A solar panel system and method wherein unframed solar panels are positioned on support beams above a support structure in a configuration that leaves two of the edges of the solar panels unframed. This avoids trapping of water and dirt and the like, which occurs with prior art, framed panels. A liner comprised of a compliant material may be interposed between the support beams and the two panel edges so as to protect those two edges, while leaving the remaining two edges in their original, unframed condition.
Owner:FOREFRONT INNOVATIVE TECH

Solar energy collecting system and method

A solar energy collecting system and method suitable for hot water generation using solar energy. The system includes multiport tubes between inlet and outlet manifolds. The tubes are formed of a metallic material, each tube has oppositely-disposed first and second flat surfaces between lateral edges thereof, longitudinally-opposed first and second ends, and multiple fluid channels between the first and second ends that are in fluidic parallel to each other. The inlet and outlet manifolds are coupled to the first and second ends of the tubes so that chambers within the inlet and outlet manifolds are fluidically connected to the fluid channels of the multiport tubes. During operation of the system, a fluid flowing through the fluid channels of the tubes is heated by direct solar radiation impinging the first flat surfaces of the tubes and optionally by reflected solar radiation impinging the second flat surfaces of the tubes.
Owner:MILL MASTERS

Skirt for photovoltaic arrays

A skirt for photovoltaic arrays provides a screen portion, a groove portion, and a separate coupling adapted to couple the skirt to the skirt of an adjacent photovoltaic array and to a photovoltaic module. Another embodiment provides a screen portion comprising an angled louver and is adapted to partially obscure an area substantially beneath a PV module in a PV array. A further embodiment provides an edge blocking skirt for a PV array comprising a screen portion adapted for mounting a bottom of the screen portion substantially close to a roof.
Owner:TESLA INC

Energy transfer system and associated methods

An energy transfer system includes an energy transfer device, a water inlet pipe and a water outlet pipe. The water inlet pipe may be connected to a water inlet of the transfer device to extract water from a water source. The water outlet pipe may be connected to a water outlet on the energy transfer device to discharge water to the water source. The water inlet pipe may extract water from a predetermined extraction depth, and the water outlet pipe may discharge water into the water source at a predetermined discharge depth.
Owner:COTHERM OF AMERICA CORP

Solar cell panel

A solar cell panel comprises a solar cell module body (12), gasket parts (6A to 6F), and a frame structure (13). Each of the gasket parts has a generally U-shaped structure, and the opening side thereof is abutted onto the peripheral edge part of the solar cell module body so as to hold the solar cell module body by an elastic force. The frame structure (13) includes a female fitting part (13-1). The female fitting part is fitted to the gasket parts thereby supporting the solar cell module body through the gasket parts. A drain hole (13-3) is formed in the female fitting part whereby the water in the female fitting part can be exhausted.
Owner:MITSUBISHI HEAVY IND LTD

Evacuable flat panel solar collector

The present invention relates to an evacuable flat panel solar collector (1) wherein the transparent planar wall (4) and the housing (2) are sealed by a soft metal ribbon (32) which is soft soldered at least with a first portion (34) to the housing (2) and at least with a second portion (36) to a metallized area of the transparent planar wall (4). The present invention also relates to a method for the preparation of said flat panel solar collectors (1) as well as to a flat panel solar collector system (56) comprising said flat panel solar collector (1) and at least one external mirror (54).
Owner:EUROPEAN ORGANIZATION FOR NUCLEAR RESEARCH

Solar energy collecting system and method

A solar energy collecting system and method suitable for hot water generation using solar energy. The system includes multiport tubes between inlet and outlet manifolds. The tubes are formed of a metallic material, each tube has oppositely-disposed first and second flat surfaces between lateral edges thereof, longitudinally-opposed first and second ends, and multiple fluid channels between the first and second ends that are in fluidic parallel to each other. The inlet and outlet manifolds are coupled to the first and second ends of the tubes so that chambers within the inlet and outlet manifolds are fluidically connected to the fluid channels of the multiport tubes. During operation of the system, a fluid flowing through the fluid channels of the tubes is heated by direct solar radiation impinging the first flat surfaces of the tubes and optionally by reflected solar radiation impinging the second flat surfaces of the tubes.
Owner:MILL MASTERS

Method for producing a solar power receiving tube and resulting tube

The invention relates to a method for producing a solar power receiving tube and to the resulting tube, which is of the type that includes: an outer glass tube, an inner metal absorber through which a heat-transfer fluid flows, and an intermediate area in which the vacuum is produced. The method comprises the following steps:i. Production of the metal tubesii. Production of the glass tubes: namely a longer central glass tube and two shorter glass tubes for the ends.iii. Process for the production of the Kovar rings or glass-metal transition elementsiv. Process for the welding of the Kovar rings to the tubesv. Process for the production of the bellows or expansion compensating devices assembliesvi. Assembly of the products obtained in the preceding operationsvii. Creation of the vacuum and anodising of the welds
Owner:ABENGOA SOLAR NEW TECH SA

Solar water heater with self-cleaning function

The invention relates to a solar water heater with a self-cleaning function. The solar water heater comprises a water tank, a mounting plate, at least two sealing sleeves, at least two heat collectiontubes, a first cleaning mechanism and at least two second cleaning mechanisms, wherein the first cleaning mechanism comprises a power assembly, a driving shaft, two first bearings and two cleaning assemblies, the cleaning assemblies comprise cleaning strips, two support sleeves, two springs and two support rods, the two second cleaning mechanisms comprise connecting lines, cleaning blocks, elastic ropes, collecting drums, buckles and at least two through holes, and the power assembly comprises a second bearing, a rotating shaft, a half gear, a first gear and a wind cup. According to the solarwater heater with the self-cleaning function, the water tank can be cleaned by the first cleaning mechanism, so that the water quality in the water tank is increased; the heat collection tubes can becleaned by the second cleaning mechanisms, so that the heat conduction efficiency of the heat collection tubes is improved, and the heating efficiency of the solar water heater is improved.
Owner:JIANGSU SUNNIC SOLAR ENERGY INDAL

Adhesive tape and solar module and product made of same

Provided is a frameless optical energy module. The frameless optical energy module comprises an optical energy converter, the edge of the optical energy converter is sealed by adhesive tape, the adhesive tape comprises a bonding layer with the bonding and buffering function and an ageing resisting protection layer, the bonding layer is used for being in contact with the edge of an article, the bonding layer comprises a base material layer, a freely-selected first glue layer and a freely-selected second glue layer, the first glue layer and the second glue layer are freely selected and are oppositely located on the two sides of the base material layer, and the first glue layer is in contact with the article. The protection layer is arranged on the bonding layer and comprises a freely-selected priming coat on the bonding layer and a film layer on the priming coat or the second glue layer or the base material layer. The invention further provides the adhesive tape and a product made of the module.
Owner:3M INNOVATIVE PROPERTIES CO

Adaptive re-use of waste insulated glass window units as thermal solar energy collection panels

A method of repurposing dual-paned insulated glass window units (IGUs) that would otherwise be put to waste into thermal solar panels capable of generating hot water for a residence or other structure. The method includes the steps of removing an existing IGU, disassembling and cleaning the IGU, and reassembling the IGU with a new silicon seal and fluid channels for connection to a looped solar heating system. The space between the panes may be filled with a liquid to be heated by solar radiation, or alternatively by a conduit which transports the liquid through the panel.
Owner:MILLS GREGORY B

Thermal solar energy collector

Thermal solar energy collector, in which a solar radiation absorption panel, inside which the heat-conducting fluid flows, is situated inside a parallelepipedal box, with an opening having a transparent cover at the front, which may be doubled so as to leave an atmospheric space in the middle. The rear wall of the box has a system of seals and reservoirs which are inset in the wall so that they accommodate the expansion and contraction of vertical tubes of the panel and horizontal connections by means of gentle changes in curvature of the tube bends and slight rotations of the reservoirs, with the addition of a system for filling the box with an inert gas, the pressure of which may be chosen from a range of between a thousandth of an atmosphere and one atmosphere, there being provided for this purpose an external gas circuit, with low- and high-pressure tanks, an intermediate compressor.
Owner:UNIV MADRID POLITECNICA
Who we serve
  • R&D Engineer
  • R&D Manager
  • IP Professional
Why Patsnap Eureka
  • Industry Leading Data Capabilities
  • Powerful AI technology
  • Patent DNA Extraction
Social media
Patsnap Eureka Blog
Learn More
PatSnap group products