| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 201 | Portable fluid heater | US765253 | 1991-09-25 | US5105799A | 1992-04-21 | Arthur G. Wigdahl |
| A portable fluid heating unit which may be used for supplying warm water to divers which includes a three stage heat exchange system wherein a fluid source, such as sea water, is initially heated as it passes through coils within the heating unit firebox and is subsequently heated in a first heat exchange chamber surrounding the firebox, after which, the fluid is heated by heat exchange with the exhaust gases from the firebox in a second heat exchange chamber. The temperature of the fluid is continuously regulated to insure that the heated fluid being conveyed to a diver is maintained at a substantially constant temperature. | ||||||
| 202 | Method of installing a water heater in a recreational vehicles | US710460 | 1976-08-02 | US4057892A | 1977-11-15 | Donald M. White |
| The water heater includes an open-ended, box-like case fabricated from sheet metal panels and adapted to be pulled through an opening in a vehicle wall after the wall has been erected. Thereafter, the margins of the panels may be bent outwardly by hand to form right angle mounting flanges adapted to lie in face-to-face relation with the wall. | ||||||
| 203 | Rotating heat exchanger | US34338373 | 1973-03-21 | US3799120A | 1974-03-26 | HUETTNER L |
| A heat exchanger comprising a housing, a driven rotor in the housing, said rotor including an annular series of finned radially extending multiple tube water conductors and in combination a new and improved water pump; a cold water inlet, and a hot water outlet directly receiving water from the pump, in combination with an annular heating arrangement (preferably gas) in alignment with the annular water conductors heating the same as the rotor rotates.
|
||||||
| 204 | Boilers | US36934464 | 1964-05-12 | US3259108A | 1966-07-05 | CRAIG SAM N; SEASHOLTZ PETER B |
| 205 | Portable hot water heater | US24966563 | 1963-01-07 | US3192916A | 1965-07-06 | VINCENT VITKAY MICKEY |
| 206 | Hot and cold water supply unit | US50300055 | 1955-04-21 | US2832569A | 1958-04-29 | LEWIS RUSSELL W |
| 207 | Return-flue boiler. | US1902118222 | 1902-08-04 | US739900A | 1903-09-29 | MURPHY DANIEL F |
| 208 | Boiler | US495841D | US495841A | 1893-04-18 | ||
| 209 | Improvement in feed-water heaters | US212936D | US212936A | 1879-03-04 | ||
| 210 | SYSTEMS AND METHODS FOR HEATING WATER USING BIOFUEL | PCT/US2011046973 | 2011-08-08 | WO2012019196A3 | 2012-07-05 | SHARPE DAVID S; KUEHNER MICHAEL R; DENTON DOUGLAS S; LOUVIERE BRYAN J |
| The present invention may be embodied as a biofuel heating system for converting biofuel to heat energy to be delivered to a load comprising a combustion chamber defining a combustion zone, an under-fire zone, and an over-fire zone. A controller operates at least one of a fan, an under-fire damper, and an over-fire damper based on at least one operating parameter such that air flows along a flow path extending from at least one of an under-fire port and an over-fire port, through the combustion chamber, through a burn-out port, through a burn-out chamber, through a heat exchange port, through a heat exchange chamber, and out of an exhaust port. The heat exchange system transfers heat energy from air flowing through the heat exchange chamber to the working fluid. | ||||||
| 211 | OUTDOOR BOILER | PCT/RU2011000190 | 2011-03-25 | WO2011119073A2 | 2011-09-29 | SKOGOREV OLEG IVANOVICH; PAVLENKO ANNA OLEGOVNA; PAVLENKO ALEKSANDR SERGEEVICH |
| The invention relates to water systems for heating and hot water supply, and can be used for heating water in systems with individual heating. The essence of the invention is that the outdoor boiler consists of a thermally insulated fire-tube boiler (1) with a pipe (2) for the removal of combustion products, as well as a return water pipe (3), a supply water pipe (4) and a combustion chamber (5) into which extends a burner (6). The fire-tube boiler (1) is covered with thermal insulation (7) and has portions (8) which are free of thermal insulation (7). The boiler (1) is disposed in a thermally insulated housing (9) that has apertures (10, 11) for the intake of outdoor air, which are provided with shutters (12 and 13 respectively). The return water pipe (3) is provided with a replenishing device (14) and a safety valve (15). A chimney (16), for example, is mounted on the pipe (2) for the removal of combustion products. The housing (9) is provided with a thermally insulated door (17) for boiler maintenance purposes. The technical result consists in making the manufacture of the boiler less labour intensive, in turn lowering the manufacturing cost, by simplifying the design of the boiler. | ||||||
| 212 | A BOILER UNIT | PCT/GB2009002760 | 2009-11-26 | WO2010061190A3 | 2012-09-27 | DEVRIENDT JAMES; EVANS CHRISTOPHER JOHN; MORGAN ROBERT; BARNARD PAUL; GIRVAN BRUCE |
| A boiler unit (100) housed in an enclosure, the boiler unit (100) configured to receive a solid state combined heat and power generating device (130). The boiler unit (100) comprises a heating device (110) to produce heat; and a control unit (120) to independently control each of the heating device (110) and the solid state combined heat and power generating device (130). The boiler unit (100) is operable without the solid state combined heat and power generating device (130) being present. | ||||||
| 213 | MOBILE AUTONOMOUS INDIVIDUAL SHOWER | PCT/FR2007000895 | 2007-05-30 | WO2007141408A3 | 2008-01-31 | BOLZE STEPHANE; BOLZE BERNARD |
| Mobile autonomous sanitary shower device comprising water supply means (13), electricity supply means (15) and water drainage means (17), the device being characterized in that it comprises a single individual shower cabin (1) containing an autonomous heating unit (29) inside a technical compartment (3) that may be incorporated in a hollow compartment (7) underneath the shower cabin (1). Said heating unit (29) is connected functionally to a fuel supply (14), a battery assembly (31) and gas exhaust means (16). Said battery assembly (31) can be recharged by solar panels or solar sensors or by using the electrical mains supply. | ||||||
| 214 | 集成式水箱及包括其的太阳能热水器用供水系统 | CN201020697408.6 | 2010-12-31 | CN202002364U | 2011-10-05 | 张科; 李宏达; 尉永魁; 陈维皓 |
| 本实用新型涉及一种集成式水箱,其设有至少一个进水接口和至少一个出水接口,其上还装设有阀装置和/或泵装置,所述阀装置与所述进水接口和/或所述出水接口流体连通,所述泵装置与所述出水接口流体连通。此外,本实用新型还涉及一种包括上述集成式水箱的太阳能热水器用供水系统。与现有技术相比,通过采用本实用新型能非常显著地降低太阳能热水器安装现场的工作量、缩短安装时间,尤其能够减少例如在发达国家由于复杂、繁琐的安装工作而造成的高昂费用,同时也使得安装现场更为整洁干净,设备整体布置更加美观。此外,采用本实用新型能够更可靠、有效地保证所安装的太阳能热水器长期安全稳定运行。 | ||||||
| 215 | 热水器 | CN200720177804.4 | 2007-10-12 | CN201121974Y | 2008-09-24 | 孙京岩; 赵小勇; 王国芳; 王任华; 孙强 |
| 本实用新型提供了一种热水器,具有储水式加热单元和即热式加热单元。其中,储水式加热单元的出水口和即热式加热单元出水口与热水器出水口连接;在热水器进水口和储水式加热单元进水口以及即热式加热单元进水口之间设有第一流向控制单元。使用本实用新型热水器,可以避免了频繁启动热水器的情况,又保证了足量的热水供应。 | ||||||
| 216 | STEAM GENERATOR | PCT/IB2015000951 | 2015-02-06 | WO2015128742A2 | 2015-09-03 | BARENDREGT JEREMY |
| A steam generator having a channel for circulating heated fluid through a heat exchanger and having a channel for supplying water through the heat exchanger. The steam side of the heat exchanger is maintained at a pressure lower than the outside atmosphere and is heated by the heating fluid to a temperature more than the boiling point of the water at the lowered pressure. The water being introduced to the heat exchanger is heated to a boil. The steam produced is less than the boiling point of water in the atmosphere. A vacuum pump draws the steam from the heat exchanger and ejects the steam through a steam hose into atmospheric pressure. This rise in pressure is accompanied by a rise in temperature of the steam above the boiling point of water at atmospheric pressure. | ||||||
| 217 | HEATING MODULE FOR INTEGRATION IN THE STRUCTURE OF A HOUSE | PCT/AT2009000317 | 2009-08-19 | WO2010019978A3 | 2012-10-18 | GEROLDINGER KLAUS; MAYRHOFER WOLFGANG |
| The invention relates to a heating module for integration in the structure of a house (7). The heating module comprises a completely enclosed energy box (1), the energy box (1) being accessible by means of a provided door (2). A heating unit (11) is provided within the energy box (1), including the corresponding pipework and power supply. A viewing window (12) is arranged in a side wall (4) of the energy box (1). The viewing window (12) is arranged with relation to the heating unit (11) within the energy box (1), such that when the heating unit (11) is in operation a flame seat (8) can be seen through the viewing window (12). | ||||||
| 218 | PORTABLE HEATER FOR A HOT WATER BOILER AND COFFEE POT | PCT/KR2011008917 | 2011-11-22 | WO2012070841A2 | 2012-05-31 | SEO SUNG WAN |
| The present invention relates to a portable heater. The portable heater for a hot water boiler and coffee pot includes: a body receiving a gas tank, wherein the body includes a heater for burning gas supplied from the gas tank to generate heat; a water tank mounted on the body to receive water; and a circulation pipe connected between the inlet and the outlet of the water tank to circulate the water received in the water tank. The circulation pipe includes a hot water pipe formed of a metal material. The hot water pipe is disposed to pass through the heater, thereby heating the water flowing therein. The portable heater may use one heat source to heat an outdoor chair or cushion by providing a heating line within the chair or cushion. In addition, the portable heater may heat a coffee pot or container. | ||||||
| 219 | A BOILER UNIT | PCT/GB2009002760 | 2009-11-26 | WO2010061190A8 | 2010-11-18 | DEVRIENDT JAMES; EVANS CHRISTOPHER JOHN; MORGAN ROBERT; BARNARD PAUL; GIRVAN BRUCE |
| A boiler unit (100) housed in an enclosure, the boiler unit (100) configured to receive a solid state combined heat and power generating device (130). The boiler unit (100) comprises a heating device (110) to produce heat; and a control unit (120) to independently control each of the heating device (110) and the solid state combined heat and power generating device (130). The boiler unit (100) is operable without the solid state combined heat and power generating device (130) being present. | ||||||
| 220 | A CONTROL SYSTEM FOR A PORTABLE INSTANT HOT WATER HEATER | PCT/US2004005796 | 2004-02-26 | WO2004079274A3 | 2005-01-20 | LONG NORRIS RICHARD |
| A portable instant water heater. Water is delivered to a base unit of the instant hot water heater by a pump that draws water from a reservoir through a flow control valve. The water flows into a pre-heater that wraps around a base of the burner and that is heated by the burner. Water is heated in a heat exchanger and then exits the base unit through an outlet spout that swings out from the base unit to dispense water and that may be stored and locked into position in a handle for the base unit. The flow control valve may lower the flow of water through the heat exchanger, so the water has more time to absorb heat and to get hotter. The base unit includes a single control knob that turns on the pump and the burner and operates the flow control valve. | ||||||
QQ群二维码
意见反馈
意见反馈