| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Vehicle and in particular transportation vehicle with emergency central heating plant installed on it | EP90810708.9 | 1990-09-18 | EP0419417A2 | 1991-03-27 | Castelletti, Luciano |
A complete central heating plant, comprising all the necessary safety systems, is installed on a transportation vehicle. It has the means necessary for being connected to the plumbing network for distribution of hot water for heating and for sanitary use of a building, replacing in operation the original central heating plant. The burners (3 fig. 1 -- 4 fig. 2), connected to the boilers (1 fig. 1 -- 2 fig. 2), have connecting means for being supplied by a tank (5) installed on the vehicle itself, or by a tank of the building or by a tank trunk parked nearby. A television camera transmits to a monitor (8 fig. 1) the images of the elements for measuring pressures and temperatures on premises of the original central heating plant, making possible a continuous and effective checking. Safety systems (9 fig. 1) stop the central heating plant when preset temperature and pressure values are reached. If the stacks (6 fig. 1 -- 7 fig. 2) for evacuation of fumes are not correctly positioned and connected, current does not reach the central heating plant, thus preventing its operation. |
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| 42 | Heizung | EP88106365.5 | 1988-04-21 | EP0290833A2 | 1988-11-17 | Dammers, Dieter; Dammers, Helmut |
Die Erfindung betrifft eine insbesondere für Fahrzeuge sowie für Wochenendhäuser bestimmte Heizung (1) mit einer Brennkammer, die durch offene Flammen eines aus festem, flüssigem oder gasförmigem Brennstoff erzeugten Brenngases beheizt wird und die die Wärme an einen Wärmeträger abgibt, der zur mittelbaren oder unmittelbaren Wärmeabgabe an den zu beheizenden Raum (3) mittels einer von einem Elektromotor angetriebenen Strömungsmaschine transportiert wird. Der Strom für diesen Elektromotor wird unmittelbar durch mindestens einen thermo-elektrischen Generator aus der durch die Flamme in der Brennkammer erzeugten Wärme gewonnen. Dieser Generator ist als plattenförmiges Halbleiter-Element (8) ausgebildet, dessen aufzuheizende Seite entweder im Strahlungsbereich der Flamme oder im Abgasstrom und dessen kalte Seite im Eintrittsbereich des noch kalten Wärmeträgers bzw. im Bereich der Umgebungsluft liegt. |
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| 43 | Apparatus to circulate and heat liquid | EP87850274.9 | 1987-09-08 | EP0260242A2 | 1988-03-16 | Ekman, Heinz |
Apparatus to circulate and heat liquid, such as water, which apparatus includes an incorporated or separate source of heat (2) and a liquid inlet pipe (10) and a liquid outlet pipe (12), and inside which apparatus is arranged, connected to the outlet pipe (12), a preferably spiral pipe (11) for heating the liquid to its final temperature. In known heating systems, it is not enough to heat the water, also a circulation water pump is needed. With this invention, the need for a circulation water pump is eliminated by that the inlet pipe (10) and the outlet pipe (12) are each equipped with a back-pressure valve (13, 14), and that inside the apparatus, between the inlet pipe (10) and the spiral pipe (11) is installed an element (7) comprising a liquid space (8) with a direct connection to the inlet pipe (10) and the spiral pipe (11) and, connected with said space, a vaporizing space (9) which quickly vaporizes the liquid. |
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| 44 | USER-POWERED WATER HEATER | PCT/US2012033283 | 2012-04-12 | WO2012142258A3 | 2013-07-25 | ISKRENOVIC ZORAN |
| Water heaters are described that are user-powered, such that external sources of power are unnecessary. The water heaters include a heating device and a generator coupled to a crank such that power is generated as the crank is rotated, which can be used to power the heating device. | ||||||
| 45 | PORTABLE BOILER FOR HOT MAT | PCT/KR2010000844 | 2010-02-11 | WO2010095828A3 | 2010-11-18 | CHO HOYONG |
| The present invention relates to a portable boiler for a hot mat, which comprises: a water reservoir, which has an inlet pipe at one side thereof for introducing water circulating through the hot mat, and which stores the water; an electric heating unit in which the water discharged from the water reservoir flows along a water pipe to be heat exchanged and the water is discharged to the hot mat via an outlet pipe formed at one side of the electric heating unit; a heating unit which burns the fuel gas fed from a fuel tank to heat the water in the electric heating unit; and a housing which defines the exterior portion of the boiler. | ||||||
| 46 | Water Supply and Heating System with Flexible Tank and Heating Carpet | US16027013 | 2018-07-03 | US20180347853A1 | 2018-12-06 | Alex Harel |
| A water supply and heating system that includes a flexible water tank, a flexible heating carpet and an electrical connection mechanism. The water tank includes a flexible outer layer and separable inflatable and collapsible water bag. The water bag is equipped with a water inlet and outlet hoses for receiving supplying water. The water bag is positioned inside the outer layer and is designed to remain collapsed when and to inflate when filled with water. The outer layer too is designed to inflate when the water bag is filled with the water and to deflate when the water is drained from the water bag. A dry space is defined between the outer layer and the water bag in which the heating carpet is positioned. The heating carpet includes flexible flat electrical heating strips that are connected to the electrical connection mechanism. | ||||||
| 47 | Snow melting and removal vehicle | US15607112 | 2017-05-26 | US10024012B1 | 2018-07-17 | Vyvyan G. Williams |
| A snow melting and removal vehicle includes a vehicle body that is drivable. A primary chamber is situated inside the vehicle and defines an open area. A collection assembly includes an auger configured to collect the snow from the ground surface and deposit the snow into the primary chamber. A heating assembly surrounds the primary chamber for imparting heat to the primary chamber when energized so as to melt the snow therein. The primary chamber and the vehicle body define outlet openings for releasing the melted snow away from the primary chamber and vehicle body. A filter assembly intermediate the collection assembly and primary chamber includes a filter grate rotatably coupled to the primary chamber and configured to rotate to block debris from entering the primary chamber. A collection chamber is downwardly adjacent the grate and is configured to collect solid debris blocked by the filter grate. | ||||||
| 48 | PORTABLE HEATER WITH ENVIRONMENTAL SENSORS | US15623959 | 2017-06-15 | US20170363326A1 | 2017-12-21 | Brian Vandrak; Michael Mullins |
| One or more techniques and/or systems are disclosed for a portable heater that may be used in an area used for human occupancy, to provide heat to that area. Such a heater can be portable, and comprise an environmental detector that senses ambient air conditions, and may provide data used to shut down the heater in threshold conditions. In one implementation, a portable heater for use in high altitudes can comprise a housing configured for portability, in which a combustion region and a fuel supply component are disposed. The heater can comprise an environmental detector with a flameless sensor configured to detect an ambient level of a constituent of the atmosphere, and generate a signal indicative of the constituent level; and a sensor interface that can control flow of fuel from the fuel supply, based at least upon a signal received from the sensor. | ||||||
| 49 | Heat Source Apparatus | US15598437 | 2017-05-18 | US20170350617A1 | 2017-12-07 | Takashi Ojiro |
| In a heat source apparatus in which an electric component having an electrode and an insulator is mounted on a side plate of a combustion box, in a state in which a packing is interposed between a flange portion of the insulator and the side plate, by fastening to the side plate a clamp which overlaps with an outer surface of the flange portion, the packing is prevented from getting spread when compressed, thereby securing good sealing properties.Upper and lower water tubes constituting a part of a water jacket are disposed on a side plate on upper and lower sides of the mounting position of the electrode component. In case the upper and lower water tubes are disposed on an inside surface of the side plate, upper and lower side edge portions of the packing are in contact with those upper and lower swelled-out portions formed in the one-side side plate which are swollen outward for respectively receiving into recesses the upper and lower water tubes; and that, in case the upper and lower water tubes are disposed on an outside surface of the side plate, upper and lower side edge portions of the packing are in contact with the upper and lower water tubes. | ||||||
| 50 | Portable open-loop wellwater source heat pump for standalone and duct-connected installation | US13789249 | 2013-03-07 | US09441859B2 | 2016-09-13 | Dennis A. Schultz; Michael G. Dilling |
| A portable, open-loop, water source geothermal heat pump unit adapted to be connected with non-permanent, non-plumbed connections to convenient water supply/discharge points such as multi-use faucets and drains in a home supplied with well water. The unit is further adapted to be supplied with power from an electrical outlet using a simple plug-in cord. The heat pump unit may be installed independently of any existing furnace system, for direct or “space” heating of a room from which it draws intake air and directly vents heated air. The heat pump unit may also be ducted to heat another room from the one in which it is installed, and may further be ducted in parallel to an existing furnace ductwork for a duct-connected heating combination with the furnace. | ||||||
| 51 | HEATING CIRCULATOR | US14907533 | 2014-07-23 | US20160209077A1 | 2016-07-21 | Jeff WU |
| A fluidic temperature control device (100) for lab, industry, home and commercial use is disclosed. The fluidic temperature control device (100) can contain a motion tracking to modulate a display (114) of the device (100). The device (100) also includes a multi adapter pump tube outlet that can interface with multiple styles of connectors. The display (114) of the device (110) can change background color based on temperature and can synchronize with other nearby systems for control. The device (100) can utilize a wireless infrared thermometer (124) to take temperature readings of an apparatus (132) that the device (100) is controlling. The device (100) can record and track heat used or evolved from an apparatus (132) the device (100) is controlling. | ||||||
| 52 | LIQUID HEATER | US14840093 | 2015-08-31 | US20160206505A1 | 2016-07-21 | Jennifer Ann Gallo; William T. White, IV |
| Disclosed herein is a representative liquid heater that maintains a liquid temperature at a consistent and desirable temperature. The liquid heater includes a housing, a liquid pump, a temperature controller, and a mounting structure. The housing houses a power supply and a heating element that receives power from the power supply. The liquid pump receives power from the power supply and pumps liquid from a liquid container to the heating element, which heats the water. The temperature controller turns on or off the heating element to increase and/or decrease the temperature of the liquid from the liquid container. The mounting structure includes an inlet structure and an outlet structure, both of which are connected to the housing. The inlet structure receives liquid from the liquid container and the outlet structure ejects the liquid from the housing. The inlet structure and the outlet structure are configured to be in a “U” shape such that the inlet structure and the outlet structure can be mounted on the edge of the liquid container. A base of the U-shaped inlet structure and outlet structure rests on the top edge of the liquid container and the two arms of the U-shaped inlet structure and outlet structure are adjacent to a wet side and a dry side of the liquid container. The base of the U-shaped inlet structure and the outlet structure are configured to be telescopic that expands to accommodate various thicknesses of at least one liquid container. | ||||||
| 53 | Portable water heater | US12980086 | 2010-12-28 | US09351611B1 | 2016-05-31 | Trevor Adrian |
| A portable water heater is described. The portable water heater may include a housing. A base may be mounted to said housing. The base may include a plurality of base members that may be pivotably and/or slidably mounted to the base. At least one thermal source may be disposed within the housing. The thermal source may be configured to produce thermal energy in the housing. A thermal transfer conduit may be disposed within the housing. | ||||||
| 54 | MOBILE WATER HEATING APPARATUS | US14706785 | 2015-05-07 | US20160097561A1 | 2016-04-07 | James Alan Cooper; Gerald Wayne Lind; Justin Lydell Mason; Noland Harper Critchfield; Jeffery K. Cooper |
| Mobile water heating systems for producing hot water are disclosed herein. In one embodiment, a mobile water heating system includes a water heater having an oval-cylindrical shape. The water heater includes a shell, a lid and a water reservoir having a screen. A first heating coil and a second heating coil can extend between the screen and a first cone and a second cone, respectively. A first burner and a second burner can be configured to mix and combust fuel and air and direct the resulting flames through the heating coils. Pall rings can at least partially fill an interior volume of the water heater and the combustion of the fuel and air can heat the heating coils and the pall rings. Water can be heated by being directed through the heating coils and through a water manifold positioned to spray water on the pall rings. | ||||||
| 55 | HEATING SYSTEM FOR HEATING FLUID IN A TANK | US14249784 | 2014-04-10 | US20150292806A1 | 2015-10-15 | Vince Rottinghaus |
| A heating system for heating fluid in a tank includes a heating device for heating and pumping water to a tank heater via a hose. The tank heater has a pump connected to a heat exchanger. The heat exchanger has a plurality of tubes disposed in a housing that receive fluid from the tank. The heating device pumps hot water through the heat exchanger to transfer heat to fluid in the tubes and the back to the heating device. The pump circulates fluid within the heat exchanger. | ||||||
| 56 | REMOTELY CONTROLLED PORTABLE HEATER | US14226261 | 2014-03-26 | US20150276269A1 | 2015-10-01 | Hope D. Paolini |
| A system and method for controlling a portable space heater is presented. The portable space heater includes a housing, a heating unit and a control processor. The heating unit is contained in the housing. The control processor receives a wireless message from a wireless network and then decodes the wireless message and controls the portable space heater based on the wireless message. | ||||||
| 57 | OUTDOOR HEATER | US14435165 | 2012-12-29 | US20150253036A1 | 2015-09-10 | Jianping Wang; Jing Wang |
| An outdoor heater having a frame (1), a control cabinet (2), a glass tube (3), an inflammation cover (4) and a reflect assembly (5). The frame (1) has a middle plate (6) having a through hole (6-1). The control cabinet (2) is below the middle plate (6) and has an inflammation assembly (10) contained therein right under the through hole (6-1). The frame (1) has side panels (7) installed thereon. Protective shield (9) is provided around the frame (1). A linking pole (9-2) is respectively provided at each corner of the protective shield (9). The linking pole (9-2) is able to be inserted in “L” shaped installation holes (1-1) and be locked with respect to the frame (1) by, a first positioning plate (11). | ||||||
| 58 | Method for hydraulically fracturing a well using an oil-fired frac water heater | US14067592 | 2013-10-30 | US08960564B2 | 2015-02-24 | Ronald L. Chandler |
| The present invention provides a method for utilizing an oil-fired heat exchange system to fracture a subterranean formation at a remote work site to produce oil and gas. The method of the present invention includes using a single-pass tubular coil heat exchanger contained within a closed-bottom firebox having a forced-air combustion and cooling system to heat the treatment fluid. The rig also includes integral fuel tanks, hydraulic and pneumatic systems for operating the rig at remote operations in all weather environments. In a preferred embodiment, the method of the present invention includes using an oil-fired heat exchanger system to heat water on-the-fly (i.e., directly from the supply source to the well head) to complete hydraulic fracturing operations. The method of the present invention also includes adding chemical additives and proppants to the heated treatment fluid prior to injection into the formation. | ||||||
| 59 | Outdoor shower device | US13246970 | 2011-09-28 | US08919665B2 | 2014-12-30 | Chia-Lin Chang |
| An outdoor shower device, comprising a water storage module, a power supply module, a heating module, a control module, a water supply module and an alarm module, wherein the water storage module is employed for water source storage, the control module controls the heating module to heat the water based on the water temperature, and then the water supply module provides the heated water for use. Furthermore, the power supply module provides electric power required for integral operations and enables the alarm module to determine the water level; in case the water level is exceedingly low, it is possible to present blinking display signal and audio alarm sound to inform the user of such a low water level thereby allowing the user to more effectively apply the outdoor shower device of the present invention. | ||||||
| 60 | Flameless Heating System | US14285292 | 2014-05-22 | US20140290754A1 | 2014-10-02 | Rusty Lamb; James B. Crawford; John Bibaeff, JR. |
| A system for flameless heating, wherein the system includes a modular flameless heating unit located on a singular skid. The modular flameless heating unit includes an internal combustion engine, a dynamic heat generator operatively connected to the internal combustion engine. Further, the system includes a pump being responsive to the operation of the internal combustion engine, whereby the pump is configured to provide a discharged fluid to the dynamic heat generator. Further still, the system includes a process outlet transfers the heat into a wellbore in order to affect removability of one or more deposits disposed within the wellbore. | ||||||
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