子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | 汽电两用定时温控分屉蒸汽箱 | CN01238488.7 | 2001-03-27 | CN2472063Y | 2002-01-16 | 程力军 |
| 本实用新型涉及一种汽电两用定时温控分屉蒸汽箱,它包括箱体、蒸汽输入口及电加热装置,箱体内分隔有确定数量的抽屉式蒸架,各抽屉式蒸架上都设有定时温控开关装置,抽屉式蒸架上设有蒸汽输入控制阀,定时温控开关装置的控制线与电加热装置和蒸汽输入控制阀相连接;这种根据所需,以每个抽屉为制热单元,既能节约能耗,又可保证食品的蒸制品质。对餐饮业的发展具有十分积极的作用。 | ||||||
| 162 | 多功能流体吸热器 | CN01216014.8 | 2001-01-10 | CN2463681Y | 2001-12-05 | 林钧浩 |
| 本实用新型公开了一种多功能流体吸热器,它包括汽液注入管、汽液导流管,其特点是,它还包括分流循环器,分流循环器设在汽液导流管外侧,它由循环管和外流排出管构成,循环管通过循环入口和循环回流出口跟汽液导流管连通,通过循环外流出口跟外流排出管连通,依靠分流循环器的作用加热流体,加热速度快,热效率高,能够同时产生热水、开水、蒸气、过热蒸气等,是一种多功能的加热装置。 | ||||||
| 163 | 蒸汽发生器 | CN93236356.3 | 1993-03-02 | CN2147424Y | 1993-11-24 | 尤正义 |
| 本实用新型涉及一种蒸汽发生器,它在容器的上端口连接有上封盖,上封盖的底面为一弧形隔板,它与容器的上端口封闭连接,上封盖的弧形隔板上表面一端设有把手,另一端为药盒室,且弧形隔板的作为药盒室底面的位置上开有蒸汽出孔,药盒室内放置有药盒,药盒室的上端口与喷嘴连接。本实用新型可广泛用于沐浴、理疗保健、护肤美容、空气加湿和清洁空气等方面。 | ||||||
| 164 | 真空相变风、水双功能预热器 | CN93227122.7 | 1993-01-14 | CN2147423Y | 1993-11-24 | 程洪达; 屠一茫; 薛伯媞 |
| 真空相变风、水双功能预热器,由烟气腔体、空气腔体、预热水腔体和工质腔体构成。是利用锅炉和窑炉的烟气余热进行预热风和水的热交换装置,用于锅炉的空气和水的预热,可有效地解决预热装置的结露,集灰和酸腐蚀等问题,并且能够自行保持其真空度。可有效地提高中低温烟气的回收率,提高供风和供水温度。 | ||||||
| 165 | A steam power generating system and method thereof | EP14152513.9 | 2014-01-24 | EP2894401B1 | 2016-11-16 | Liu, Guiwen; Yang, Mingjun; Huang, Jinquan |
| The present invention discloses a steam power generating system, which includes thermal receptor with a cavity inside, entrance of liquid and exit of steam connected into the cavity of the thermal receptor and heat source; the said heat source is used to heat the cavity of the thermal receptor; the saturated water generating device and the saturated water explosive device are set inside the cavity of the thermal receptor, and the entrance of liquid, saturated water generating device, saturated water explosive device and exit of steam are connected successively; and a method of generating steam power, which includes the following steps: 1) making high-pressure liquid generate high-temperature saturated water; 2) making the high-temperature saturated water explode instantly when heated, so as to form the high-temperature and high-pressure steam flow. The type and quality of fuel is not strictly required for the device of the present invention, and thermal energy conversion efficiency is high; The scope of applicable engine is enlarged and the exhaust noise of the device is largely decreased than that of fuel internal combustion engine, and characteristic of torque is good, and even may not be required to install the gearbox to enable the automobile continuously variable speed when transportation power output, and less harmful ingredient of the exhausted gas; Simple structure of the device of the present invention, light weight, small size and easy to move. | ||||||
| 166 | SYSTEMS AND METHODS FOR SELECTIVELY PRODUCING STEAM FROM SOLAR COLLECTORS AND HEATERS FOR PROCESSES INCLUDING ENHANCED OIL RECOVERY | EP14735417 | 2014-01-06 | EP2920514A4 | 2016-11-02 | O'DONNELL JOHN SETEL; VON BEHRENS PETER EMERY; NADY ANDRAS; HEISLER STUART M |
| Systems and methods for selectively producing steam from solar collectors and heaters, for processes including enhanced oil recovery. A system in accordance with a particular embodiment includes a water source, a solar collector that includes a collector inlet, a collector outlet, and a plurality of solar concentrators positioned to heat water passing from the collector inlet to the collector outlet, a fuel-fired heater, a steam outlet connected to an oil field injection well, and a water flow network coupled among the water source, the solar collector, the heater, and the steam outlet. The system can further include a controller operatively coupled to the water flow network and programmed with instructions that, when executed, direct at least one portion of the flow through the solar collector and the fuel-fired heater in a first sequence, and direct the at least one portion or a different portion of the flow through the solar collector and the fuel-fired heater in a second sequence different than the first sequence. | ||||||
| 167 | SOLAR HEAT STEAM CYCLE SYSTEM | EP11860400.8 | 2011-03-07 | EP2685101B1 | 2015-09-16 | YOSHIDA, Takuya; NAGAFUCHI, Naoyuki; ONO, Hideki |
| An object of the present invention is to provide a solar heat steam cycle system capable of operating efficiently and stably in keeping with the status of collected or stored heat, and a control method for use with the system. The system includes a heat collector (1) which collects solar thermal energy, a thermal storage device (2) which stores the solar thermal energy collected by the heat collector, a feed water heater (3) which heats feed water, an evaporator (4) which evaporates the feed water supplied from the feed water heater, and a steam turbine (6) driven by steam generated by the evaporator. The system includes a control valve (31) which controls allocations of heating medium supplied from the thermal storage device to the evaporator and the feed water heater. | ||||||
| 168 | A steam power generating system and method thereof | EP14152513.9 | 2014-01-24 | EP2894401A1 | 2015-07-15 | Liu, Guiwen; Yang, Mingjun; Huang, Jinquan |
The present invention discloses a steam power generating system, which includes thermal receptor with a cavity inside, entrance of liquid and exit of steam connected into the cavity of the thermal receptor and heat source; the said heat source is used to heat the cavity of the thermal receptor; the saturated water generating device and the saturated water explosive device are set inside the cavity of the thermal receptor, and the entrance of liquid, saturated water generating device, saturated water explosive device and exit of steam are connected successively; and a method of generating steam power, which includes the following steps: 1) making high-pressure liquid generate high-temperature saturated water; 2) making the high-temperature saturated water explode instantly when heated, so as to form the high-temperature and high-pressure steam flow. The type and quality of fuel is not strictly required for the device of the present invention, and thermal energy conversion efficiency is high; The scope of applicable engine is enlarged and the exhaust noise of the device is largely decreased than that of fuel internal combustion engine, and characteristic of torque is good, and even may not be required to install the gearbox to enable the automobile continuously variable speed when transportation power output, and less harmful ingredient of the exhausted gas; Simple structure of the device of the present invention, light weight, small size and easy to move.
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| 169 | SOLAR HEAT STEAM CYCLE SYSTEM | EP11860400.8 | 2011-03-07 | EP2685101A1 | 2014-01-15 | YOSHIDA, Takuya; NAGAFUCHI, Naoyuki; ONO, Hideki |
An object of the present invention is to provide a solar heat steam cycle system capable of operating efficiently and stably in keeping with the status of collected or stored heat, and a control method for use with the system. The system includes a heat collector (1) which collects solar thermal energy, a thermal storage device (2) which stores the solar thermal energy collected by the heat collector, a feed water heater (3) which heats feed water, an evaporator (4) which evaporates the feed water supplied from the feed water heater, and a steam turbine (6) driven by steam generated by the evaporator. The system includes a control valve (31) which controls allocations of heating medium supplied from the thermal storage device to the evaporator and the feed water heater. |
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| 170 | Verfahren und Anordnung zur Erzeugung von Wasserdampf | EP09007578.9 | 2009-06-09 | EP2199671A1 | 2010-06-23 | Nestler, Walter, Dr.; Oberländer, Steffen; Wobst, Eberhard, Prof. |
Die Erfindung betrifft ein Verfahren, das es ermöglicht, mittels Wärme auf niedrigem oder hohem Temperaturniveau, z. B. aus warmen Industrieabwässern, Wasserdampf mit atmosphärischem oder höherem Druck zu erzeugen. Zur Dampferzeugung wird Wasser, an das eine Gasphase angrenzt mittels Wärmepumpentechnik auf seine Verdampfungstemperatur gebracht. Der so erzeugte Wasserdampf wird anschließend durch Brüdenverdichtung verdichtet. Auf diese Weise kann Abwasser, bei gleichzeitiger Nutzung der abgegebenen Wärme zur Dampferzeugung, gekühlt werden. Mit der Anlage, die aus einer zumindest einer Wärmepumpe und einem Brüdenverdichter besteht, sind Gesamtleistungszahlen von ε ca. 3 möglich.
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| 171 | STEAM GENERATOR | EP95927987 | 1995-08-07 | EP0723112A4 | 1997-01-02 | HIGASHI KENJI |
| A steam generator of small dimensions and weight capable of generating steam efficiently and economically. A vane wheel (2) is provided in the interior of a housing (1), and hot water injected into the interior of the housing (1) through a hot water injection port (11) is diffused as the vane wheel (2) is rotated by the hot water, to generate steam in the same housing (1). The steam generated in the housing (1) is blown out into a shower room (A) by a blast fan operatively connected to the vane wheel (2). The hot water injected into the interior of the housing (1) is discharged into a hot water storage tank (B) through a discharge port (12), and the steam generated in the hot water storage tank (B) is sucked into the housing (1) and blown out into the shower room (A). | ||||||
| 172 | ABSORPTION HEAT PUMPED COGENERATION ENGINE | EP88908598 | 1988-09-07 | EP0382754A4 | 1991-03-13 | ERICKSON, DONALD CHARLES |
| An open-cycle absorption apparatus for compressing steam from a low pressure to a higher useful pressure is disclosed. The apparatus is particularly useful for upgrading low-temperature jacket-cooling heat from an internal combustion engine to useful pressure steam, e.g., at 5 ATA (500 kPa) or higher. Simple heat-exchange apparatus is involved, using the extra temperature availability of the hot exhaust gas as the driving medium. In FIG. 1, hot exhaust gas heats absorbent solution in desorber 7, and then the absorbent solution absorbs low pressure steam from the jacket cooling circuit of engine 1 in absorber 14. Useful pressure steam is withdrawn from desorber 7 and from steam generation coil 16 in absorber 14. | ||||||
| 173 | Verfahren zur Erzeugung von Dampf | EP82101632.6 | 1982-03-03 | EP0061031B1 | 1984-06-27 | Link, Gerhard, Dipl.-Ing.; Jung, Siegfried, Dipl.-Ing.; Zapp, Reinhold; Bär, Helmut, Dipl.-Ing.; Mader, Herbert, Ing. grad. |
| 174 | VAPOR SUPPLY DEVICE AND DRYING SYSTEM | US17394986 | 2021-08-05 | US20210364193A1 | 2021-11-25 | Toru ISHII |
| A vapor supply device includes a sunlight-condensing heat collection unit which condenses sunlight and collects heat to obtain thermal energy, a heat-storage and heat-exchange unit which heats a heat-storage agent stored therein using the thermal energy obtained in the sunlight-condensing heat collection unit and stores thermal energy in the heat-storage agent, and heats a supply medium using the thermal energy stored in the heat-storage agent, and a vapor supply unit which supplies a vapor of the supply medium obtained by heating the supply medium in the heat-storage and heat-exchange unit. | ||||||
| 175 | Steam generator for a microwave oven | US15952339 | 2018-04-13 | US10939510B2 | 2021-03-02 | Byung Cheon Lee; Hyuk-chul Kwon |
| A microwave oven includes a cabinet that defines a cooking chamber and a steam generator within the cooking chamber. The steam generator includes a disk-shaped main body with a water storage volume internal to the main body. The steam generator also includes a connector in operative communication with a motor of the microwave oven. The motor is operable to rotate the disk-shaped main body during a cooking operation of the microwave oven. The steam generator also includes a plurality of vents positioned above the water storage volume. The vents direct steam from the water storage volume into the cooking chamber of the microwave oven appliance during the cooking operation of the microwave oven appliance. | ||||||
| 176 | Updating control software on a network-connected HVAC controller | US16502162 | 2019-07-03 | US10761833B2 | 2020-09-01 | Alastair R. Gourlay; David A. Bourne; Grant M. Erickson; Richard J. Schultz; David Sloo; Jonathan P. Solnit |
| Apparatus, systems, methods, and computer program products are disclosed for providing software updates to client devices. A client device (such as a thermostat) executes software to perform one or more functionalities of the device. Upon receiving an indicating that a software update is available, the device waits to download the software update until pre-download conditions are satisfied. Once the software update is downloaded, the device then waits to install the software update until pre-install conditions are satisfied. If the software update is non-critical and received during an initial installation of the device, the software update may not be installed until after installation of the device is complete. If the device is a thermostat, the device may delay installation of the software update until a controlled HVAC system in inactive. Control of the HVAC system may be disabled during installation of the software update. | ||||||
| 177 | Heating tool | US15745894 | 2016-07-21 | US10677452B2 | 2020-06-09 | Shohei Aikawa; Youichi Endo |
| A heating tool (100) according to the present invention includes a steam generator (10) that a heat generating layer (11) which contains an oxidizable metal, a carbon component, a water absorbent polymer, and water, and a water absorbent sheet (102) which carries water are laminated, and a bag (20) at least a portion of which has an air permeability and accommodates the steam generator (10), in which a mass ratio of the water absorbent sheet (102) is equal to or greater than 0.9 and equal to or less than 15 with respect to the water absorbent polymer contained in the heat generating layer (11). | ||||||
| 178 | HEAT PUMP SYSTEM FOR PRODUCING STEAM BY USING RECUPERATOR | US16472570 | 2017-11-01 | US20190323704A1 | 2019-10-24 | Beom Joon LEE; Gil Bong LEE; Young Jin BAIK; Hyung Ki SHIN; Jun Hyun CHO; Chul Woo ROH; Ho Sang RA; Eun Seok WANG; Young Soo LEE |
| In the present invention, a recuperator is used in a refrigerant cycle to make a heat exchange between a refrigerant generated in a condenser and a refrigerant before flowing into a compressor, thereby supercooling the refrigerant to minimize the quality of the refrigerant introduced into an evaporator, elevating temperatures at an inlet and an outlet of the compressor, and increasing condensed heat of the condenser. In the present invention, a recuperator is used to increase condensed heat of the condenser, leading to increasing the heat which circulation water circulating in a steam producing cycle receives from the condenser, whereby steam production efficiency can be improved. | ||||||
| 179 | ADVANCED FLASH EXHAUST HEAT RECOVERY | US16296577 | 2019-03-08 | US20190203928A1 | 2019-07-04 | James Knight, JR.; Olan Wayne Mitchell |
| Waste heat is extracted in two stages from the exhaust (20) of a biomass dryer (14) in a grain alcohol plant (10). A boiler circuit (56) provides a first steam at high pressure. A first energy recovery circuit (36) extracts heat from the exhaust via a non-contact heat exchanger (24) and provides a second, relatively lower pressure steam (78), thereby bypassing a portion of the boiler circuit. Working fluids in the boiler and first energy recovery circuits are maintained within boiler water quality specifications and are intermixed to allow the production of the second steam without a pressure reduction device. A second energy recovery circuit (44) extracts heat from the exhaust downstream of the first energy recovery circuit using a direct contact heat exchanger (38) and provides a non-boiler quality heated fluid (52), which may be a heated liquid or a third steam. | ||||||
| 180 | Spraying heat preservation vapor supplying device and generator apparatus using such device | US15085576 | 2016-03-30 | US10256636B2 | 2019-04-09 | Chia Ching Luo |
| A spraying heat preservation vapor supplying device comprises: a heat preservation boiler having an inner chamber, an outer chamber surrounding the inner chamber and a compartment layer separating the inner chamber from the outer chamber; a high heat capacity material filled in the outer chamber; a heater connected to the heat preservation boiler and heating the high heat capacity material, heat of the high heat capacity material being transferred to the inner chamber through the compartment layer; a supplier tube having a first end disposed in the inner chamber; a liquid source connected to a second end of the supplier tube and supplying a liquid to the inner chamber through the supplier tube to absorb heat of the inner chamber so that a vapor is generated; and a vapor outlet connected to the inner chamber and outputting the vapor. A generator apparatus using the vapor supplying device is also provided. | ||||||
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