241 |
the tracking system structure for photovoltaic power generation |
KR20090055272 |
2009-06-22 |
KR100918260B1 |
2009-09-18 |
|
본 발명은 지지기둥(10)의 상부면에 정착된 지지기둥상부플랜지(12)에 조립된 스윙모듈(200)은 워엄기어하부플랜지(280a)와 워엄기어(280),선회륜베어링(270)과 같이 전체 조립 높이가 낮고 결합도 다수개의 조립볼트로 체결된 방식으로 풍압과 육중한 태양전지모듈(300)의 중량에 대하여 매우 안정적이며, 지지기둥의 외경에 따라 적합한 워엄기어 외경을 최대로 키울 수 있어, 태양전지모듈(300)을 지지기둥상에서 스윙시키는 최소마력의 모터를 채택케 하는 효과를 내며, 스윙동작에 따른 진행의 감지는 1차 좌우스윙진행센서(290)로,2차 좌우스윙정지근접스위치(134),3차는 스윙모듈티이브래킷이 좌우스윙스톱바와 같은 여러단계로 스윙동작의 안정성과 정밀한 제어가 제공되였고, 상하 요잉동작은 제1요잉브래킷축 외연부에 설치된 상하요잉센서에 의해 조절되고,2차로 상하요잉정지센서돌편을 감지한 상하요잉정지센서에 의해 조처되고,최종적으로는 기계적으로 제1요잉하브래킷과 제1요잉상브래킷의 접촉에 의해, 그리고 스크루잭의 정지에 의해 요잉이 제어되는 정밀한 요잉각도로 동작 되는 태양광 발전용 추적장치구조에 관한 것이다.
태양광,발전,추적장치,구조 |
242 |
Multi Purpose Rain Water Storage Tank |
KR20090064245 |
2009-07-13 |
KR20090093909A |
2009-09-02 |
JUNG TAE SEUNG; SEO JAE YUN |
A multipurpose rainwater storage tank is provided to prepare for flood and drought and to protect the subsurface water from reckless subsurface water development. A multipurpose rainwater storage tank comprises a storage tank(1) storing the rainwater, a rainwater circulation pump(2) circulating the rainwater, a rainwater collection tank(3) in which a filter is embedded, a geothermal heat pump(4) which uses the rainwater as a heat source, a closed underground heat exchanger(5) for preparing for disaster or peak load, a bedding diffuser(6) in the rainwater storage tank, 3-way valves(a,b) for switching the position of the rainwater supply according to the indoor cooling and heating change over, a 3-way valve(c) which is a switchover valve for lowering the water level inside the rainwater storage tank in heavy raining, a 3-way valve(d) which switches over a water level control valve when storing the rainwater in the rainwater storage tank and a sewer pipeline when the storage tank is full, 3-way valves(e,f) which are a switchover valve for preparing for disaster generation or peak load, and a motor-driven valve and electromagnetic flow meter, and a motorized valve(g) for plant cultivation. |
243 |
SOLAR CONCENTRATING DEVICE AND PHOTOCATALYST FILTER PROCESS OF MANUFACTURE |
KR20090040187 |
2009-05-08 |
KR100913556B1 |
2009-08-21 |
KIM JU SU |
A sun light concentration system and a manufacturing method for a photocatalyst filter used for the same are provided to make the warm water by heating the water using the filtered infrared ray. A sun light concentration system comprises a condensing lens(10), a condensing photo-pipe(20), a reflection mirror(30), an optical division unit(40), a radiator(50) and an air cleaner(60). The condensing lens is arranged to the width and lengthwise with multiple in order to condense sunlight. The condensing photo-pipe collects the condensed light from the condensing lens. The reflection mirror is installed in the lower part of the condensing lens. The reflection mirror sends the light condensed from the condensing lens to an optical inlet(21) of the condensing photo-pipe. The optical division unit is installed in order to be corresponded to an optical outlet of the condensing photo-pipe. The radiator is connected to the optical division unit. The radiator delivers the infrared ray in order to heat the water. |
244 |
A solar photovoltaic cleaning and cooling system |
KR20070139832 |
2007-12-28 |
KR20090071895A |
2009-07-02 |
LEE CHAN JAE |
A system for cleaning and cooling a solar power generator is provided to maximize energy efficiency by stopping water sprayed on a surface of a light concentrating panel after sensing around wind speed. Water sprayed on a surface of a light concentrating panel(120) is stopped in case a present wind speed is more than a set wind speed after sensing around wind speed. The water sprayed on the surface of the light concentrating panel is stopped in case the wind blows into an opposite direction of a water sprayed direction after sensing around wind direction. The water sprayed on the surface of the light concentrating panel is stopped in case a water temperature is more than a set reference temperature value. The water is sprayed on the surface of the light concentrating panel in case a surface temperature of the light concentrating panel is more than a set reference temperature value. The water inside a water supply pipe(191) is discharged into a discharge pipe in case an outdoor air temperature is lower than a temperature in which the water inside the water supply pipe is frozen. |
245 |
FIXATION MEANS AND DEVICE OF SOLAR CELL PLATE |
KR20070136763 |
2007-12-24 |
KR20090068949A |
2009-06-29 |
RHEE JU HUN; SONG WOON HYUNG; LEE SANG EUI; KIM KYUNG WON; KIM SUN WON; LIM JAE HYUK; HWANG DO SOON |
A fixation tool of solar cell plate and fixation apparatus are provided to support big load generated when launching and developing by accurate assembly of panel and yoke. A fixation tool of solar cell plate comprises a first fixation device(140) and a second fixation device(150). The first fixation device arranges a first connection fitting(120) binded to the panel of the solar cell plate. The first fixation device is connected to the first connection fitting. The second fixation device supports the second connection fitting(130) connecting the panel and yoke. |
246 |
SOLAR TRACKING DEVICE WITH DRIVE SYSTEM |
KR20080094482 |
2008-09-26 |
KR20080098473A |
2008-11-10 |
CHOI SUNG OH |
A system utilizing the sun which is the origin of the environmental energy for the solar power generation including the sun power generation of the ship for the solar power plant. A solar tracking device with drive system comprises a flag(110) is positioned in the center of hemisphere and ellipse hemisphere(100); an optical sensor(120) adhered around shaft in ellipse; a sensor housing(160) forming the fixing unit fixing on one side of the solar collector or the solar energy concentration; a CDs cell(optical sensor) which senses that the shade generated in one side of the flag; a programming IC in which the hydraulic cylinder operates the CDs cell to the opposite direction getting shaded; and a main circuit part(130) which it does so that the vertex of shaft and sun be straight to the operation of the hydraulic cylinder is included. |
247 |
HEATING SYSTEM USING SUN'S HEAT |
KR20060047094 |
2006-05-25 |
KR100772479B1 |
2007-11-01 |
PARK JONG CHI |
A heating system using solar heat is provided to improve heating efficiency with simple construction, and to remarkably reduce building and maintenance costs by including a unit housing, an inflow unit, a discharge unit, a plurality of convex lens and a heating plate. A heating system using solar heat comprises a unit housing(10), an inflow unit(16), a discharge unit(18), a plurality of convex lens(20) and a heating plate(22). The unit housing is provided with a reflecting plate in at least any one surface of an inner wall surface, and includes an air heating room in the inside. The inflow unit is disposed in one side of the unit housing, and allows external air to be flowed into the air heating room. The discharge unit is disposed in the other side of the unit housing and discharges air heated in the air heating room. The plurality of the convex lens are disposed in any one surface of the unit housing, and collects solar light. The heating plate is disposed in the air heating room, heated by the solar heat collected by the convex lens, and consisted of a copper plate heating inside the air heating room. |
248 |
Control system of stall |
KR20060012413 |
2006-05-10 |
KR200422342Y1 |
2006-07-25 |
|
본 고안은 축사 내외부를 통한 냉난방 및 가축 급수를 전체적으로 관리하고 통제할 수 있도록 한 축사용 관제 설비에 관한 것이다.
이를 위하여, 본 고안은 펌프에 의해 지하수를 품어 올리기 위한 지하수 관과, 지하수 관과 연통 되고 축사 지붕에 길이 방향으로 설치되어 수압에 의해 지하수를 지붕 면에 분사하기 위한 외측 냉난방 관과, 지하수 관과 개폐밸브를 매개로 연통 되고 급수된 지하수를 가열하기 위한 보일러와, 보일러로부터 연장형성되되 축사 내측 벽을 따라 순환구조로 배열된 내측 냉난방 관과, 지하수 관과 개폐밸브를 매개로 연통 되고 약품이나 영양제를 투여할 수 있도록 개폐가능한 덮개가 구비된 급수통과, 급수통과 연통 되고 축사 내측 벽을 따라 연장형성되되 일정 간격으로 급수기가 마련된 급수관으로 이루어진 것을 특징으로 한다.
축사 냉난방, 가축, 기화열, 지하수 |
249 |
LIGHTWEIGHT, LOW-COST HELIOSTAT MIRROR FOR CONCENTRATING SOLAR POWER |
EP15776061 |
2015-03-09 |
EP3129725A4 |
2018-04-11 |
GRESCHIK GYULA; PALISOC ARTHUR L |
Systems and methods are described herein that may be used to form a heliostat. Various reflective surfaces and support structures are described that permit lightweight construction of configurable heliostats. |
250 |
UTILITY POLE MOUNTED SOLAR PANELS AND SECURING BRACKETS |
EP15826605 |
2015-07-28 |
EP3175548A4 |
2018-03-28 |
KORNOVICH LONNIE L |
An electrical transmission system has solar electrical generation stations mounted directly to existing utility poles along a transmission line. Solar panels and securing brackets define each solar electric generation station. Each station has at least one generally East facing panel, at least one generally South facing panel, and at least one generally West facing panel. A power coupling conducts electricity generated by the solar electric generation station into the transmission lines. In one embodiment, a plurality of spacer members support the separate and distinct solar collector surfaces in a fixed position relative to the utility pole and have a plurality of clamp passages. A plurality of clamps pass through the clamp passages to guide and retain the clamps. In another embodiment, a plurality of adjustable brackets affix with the spacer members adjacent a first end and to the utility pole adjacent a second end distal to the first end. |
251 |
SOLAR PANEL MECHANICAL CONNECTOR AND FRAME |
EP15818553 |
2015-07-02 |
EP3167233A4 |
2018-03-28 |
CINNAMON BARRY; BAKER DAVID |
A bracket for coupling frames of solar panels includes a spacer for positioning between frames. An elongated body passes through a slot in the spacer and is positionable within channels formed in the frames. A clamp secures to the spacer and is biased toward the slot and elongated body, such as by means of a spring. The clamp defines seats for receiving portions of the frames of the solar panels. Sloped portions on end portions of the clamp facilitate insertion of the frames between the elongated body and the clamp. Another type of bracket includes a spacer and clamp, the spacer having protuberances for insertion into channels in the frames. A flange extends from the spacer such that it extends between the frames when the protuberances are positioned within the channels. An L-foot or other fixture may secure to the flange to secure the solar panels to a structure. |
252 |
A HYBRID SUPPLEMENTAL SOLAR ENERGY COLLECTION AND DISSIPATION SYSTEM WITH ONE OR MORE HEAT PUMPS |
EP15755838 |
2015-02-25 |
EP3111485A4 |
2018-03-28 |
INTRIERI MICHAEL; NUNEZ ALBERT |
A hybrid supplemental solar energy collection and dissipation system with one or more heat pumps is featured. The system includes one or more commercially available photovoltaic panels configured to convert incident radiation to electricity. One or more supplemental solar energy collectors having a flow of fluid therein are selectively coupled to the one or more photovoltaic panels. The one or more supplemental solar energy collectors are configured to collect thermal energy from the one or more photovoltaic panels, radiate thermal energy to space, collect thermal energy from the environment and/or dissipate thermal energy to the environment to heat or cool one or more loads. One or more heat pumps are coupled to the one or more supplemental solar energy collectors and the one or more loads and are configured to amplify heating and/or cooling of the one or more loads. |
253 |
ENERGY-EFFICIENT INTEGRATED LIGHTING, DAYLIGHTING, AND HVAC WITH ELECTROCHROMIC GLASS |
EP15777781 |
2015-09-23 |
EP3295261A1 |
2018-03-21 |
CASCIA MARK A |
Methods for integrated room management in a building management system and corresponding systems and computer-readable mediums. A method includes determining (702) a solar heat gain coefficient (SHGC) for a room (400) in a building and determining (704) predicted open-loop room (400) temperatures at a plurality of time intervals based on the SHGC and a plurality of electrochromic glass (ECG) (408) tint levels. The method includes determining (706) illumination heat and illumination energy for the room (400) and determining (708) climate energy for the room (400). The method includes determining (710) a total room energy at each of the time intervals as a function of the ECG (408) tint levels based on the climate energy, illumination energy, and predicted open-loop room temperatures. The method includes determining (712) an optimal ECG (408) tint level that minimizes the total room energy at each of the time intervals and controlling (714) the ECG (408) tint levels according to the optimal ECG tint level. |
254 |
SYSTÈME DE FIXATION D'UN PANNEAU SUR UN LONGERON ET STRUCTURE PORTEUSE LE COMPRENANT |
EP16726620.4 |
2016-05-04 |
EP3292354A1 |
2018-03-14 |
PRAT, Alexandre; PAPONNEAU, François |
The invention relates to a system (3) for attaching at least one panel (1) to a supporting structure that comprises at least one girder (5) extending in a first direction, the girder comprising a holding rim (52) and a surface for bearing the panel thereon, includes a flange (6), a clamp (4) and a clamping assembly (7) linking the flange to the clamp, which are arranged so as to sandwich, during assembly, the holding rim of the girder with the panel so that they bear on the bearing surface of the girder. The clamp comprises a first series of teeth projecting towards the flange in a manner substantially parallel to an axis of the clamping assembly. The teeth are to engage, via gripping, with the holding rim of the girder during assembly. |
255 |
SOLAR HEAT COLLECTING DEVICE |
EP15827831 |
2015-06-23 |
EP3176519A4 |
2018-03-07 |
KATO YOSHINOBU; SATAKE KIYOSHI |
A solar heat collecting device with high heat collecting efficiency is provided. A single-axial solar tracking type reflection mirror group 20 is disposed with each long axis facing in the same direction. A first dual-axial solar tracking type reflection mirror group 30 and a second dual-axial solar tracking type reflection mirror group 40 are disposed side by side in a direction orthogonal to the long-axis direction of a single-axial solar tracking type reflection mirror 21. The single-axial solar tracking type reflection mirror group 20 is disposed sandwiched between the first dual-axial solar tracking type reflection mirror group 30 and the second dual-axial solar tracking type reflection mirror group 40. Each mirror group sends to a heat collecting unit 10, the solar heat received while tracking the position of the sun single-axially or dual-axially. |
256 |
OPTICS AND STRUCTURE FOR SPACE APPLICATIONS |
EP16784044 |
2016-04-22 |
EP3286504A1 |
2018-02-28 |
SERCEL JOEL C |
An optical mining apparatus comprising: a light weight solar reflector; optics for controlling the delivery of concentrated sun light onto the surface of a target; and a temperature controlled gas enclosure that contains the target; wherein said solar reflector is oriented to reflect sun light onto said optics. |
257 |
VERRE TEXTURE POUR SERRE |
EP16722290 |
2016-04-19 |
EP3286149A1 |
2018-02-28 |
SCHIAVONI MICHELE; BERARD MATHIEU; MIMOUN EMMANUEL; MAZOYER SIMON |
The invention relates to a transparent sheet comprising a three-dimensional texture on a first of its main faces, the texture being such that if n is the refractive index of the material containing said texture, P
m is the average slope in degrees of the textured face and Y(q) is the percentage of the textured surface of slope steeper than q/(n-1) in degrees, then the following two cumulative conditions are met Y(q) > 3% + f(q)%.P
m.(n-1) and Y(q)>10%, where f(q)=24-(3.q) and q = 2 or 3. |
258 |
CLOSURE SYSTEM FOR CONTAINERS |
EP16749820 |
2016-02-10 |
EP3286098A1 |
2018-02-28 |
COFFEY BRENDAN; WARRENBURG WILLIAM L |
A modular heating system and method is presented that automatically dissipates thermal energy from a heater or heated package if the energy cannot be assimilated without excessive temperature increase. A heater containing reactants that generate heat when combined is placed in thermal contact with a passive thermal control material which is in thermal contact with a container configured to contain a substance to be heated. The passive thermal control material allows the transmission of heat between the heater and the container as long as the temperature of the heat passing through the passive thermal control material does not exceed the activation temperature of the material. If the temperature of the heat passing through the passive thermal control material exceeds the material's decomposition temperature, the passive thermal control material decomposes and thereby dissipates heat. |
259 |
STAND-ALONE ENERGY SUPPLY FACILITY EQUIPPED WITH VEHICLE HYDROGEN FUEL SUPPLY UNIT AND ELECTRIC VEHICLE CHARGER HARNESSING SUNLIGHT |
EP15805809 |
2015-02-04 |
EP3157166A4 |
2018-02-28 |
ISHIHARA TATSUMI; YAMAYOSHI TETSU; KOIDE SHIGENORI; KOSEKI JUNICHI |
A self-contained energy supply facility can supply an automotive hydrogen fuel that has been produced by utilizing solar energy, and can also supply electrical energy for an electric vehicle that has been produced by utilizing solar energy. The self-contained energy supply facility is characterized in that a concentrator panel for solar energy that includes a solar tracker is installed on a roof or the like within the energy supply facility, the concentrator panel separately concentrates infrared light whereby the solar energy can be easily converted into heat, and visible light whereby the solar energy can be easily converted into electricity, the infrared light is removed in the form of heat, introduced into a medium-temperature steam electrolyzer to produce hydrogen, the hydrogen is supplied to a hydrogen-fueled vehicle that uses hydrogen as a fuel through an automotive hydrogen fuel supply unit, and the visible light is converted into electricity using a concentrator cell of the concentrator panel, and supplied to an electric vehicle. |
260 |
HEAT EXCHANGING STRUCTURE FOR POWER GENERATING EQUIPMENT |
EP14883584 |
2014-02-28 |
EP3112790A4 |
2018-01-31 |
WADA YASUTAKA; KUBOTA HARUHITO; YAMAMURA YUKIMASA; UCHIYAMA ICHIRO; OYAMA KEIJI; YAMASAKI TOSHIKI |
A heat exchange structure of a power generation facility including a piping system that is embedded in a reinforced concrete underground structure that is integrally formed with the power generation facility, and a heat medium that is fluid and is stored in the piping system, the piping system being configured to circulate the heat medium used for heat exchange in the power generation facility. |