The present disclosure provides a method for generating a flame video, including the following step: repeating two or more sub-videos with burning flame images respectively to form corresponding sub-repeating videos, and overlapping the sub-repeating videos to form a total video. At a start time point and/or an end time point of any of the sub-videos in the total video, there exists at least one of the sub-videos that is at a certain time point between a start time point and an end time point. The certain time point between the start time point and the end time point is an intervening time point therebetween, excluding the start time point and the end time point.
A burner for burning gaseous fuel includes a gas intake port, several horizontal portions, and several inclined portions. One end of each inclined portion located at a lower position is connected and fixed to one end of a horizontal portion, and the other ends of all the horizontal portions are connected to each other either directly or by means of a combustion chamber main body. The horizontal portions, the inclined portions, and the combustion chamber main body are in communication with each other. The inclined portions are inclined with respect to the horizontal portions. The gas intake port is provided at the very bottom of the burner. When a gaseous fuel is introduced and ignited, flames burn in each of the combustion chamber main body, the horizontal portions, and the inclined portions, thereby forming a flame effect in a three-dimensional (3D) form.
F24C 3/00 - Poêles ou fourneaux à combustibles gazeux
F23D 14/04 - Brûleurs à gaz avec prémélangeurs, c.-à-d. dans lesquels le combustible gazeux est mélangé à l'air de combustion en amont de la zone de combustion du type à induction, p. ex. becs Bunsen
4.
GASIFICATION DEVICE FOR GASIFICATION COMBUSTION FIREPLACE
A device includes a chamber, a lid, heating elements, a base, and a controller. The chamber is a structure containing a inner cavity, the base is below the chamber, and the heating elements are between a lower surface of the chamber and the base. Cooling fins are in the inner cavity connected to a lower surface of the inner cavity and are close to the heating elements. Channels for liquid circulation are provided between fins and between the fins and an inner wall of the chamber. The lid is above the chamber and seals the inner cavity so that the inner cavity is closed. Gas outlet ports are on the lid. Due to the cooling fins, when the heating elements heat liquid fuel in the inner cavity, the liquid fuel is heated uniformly, and the gasification process is stable and controllable, avoiding explosive boiling of the liquid fuel.
A fireplace includes a housing, a burner, a gasification device, a liquid supply device, a fuel tank, and a controller. The burner includes an intake port, horizontal portions, and inclined portions. Ends of inclined portions are connected to ends of horizontal portions, and the other ends of the horizontal portions are connected to each other. The horizontal portions, the inclined portions, and the main body each have a hollow structure and are in communication. The inclined portions are inclined with respect to the horizontal portions, and the inclined portions and the horizontal portions are combined into a three-dimensional shape. The intake port is below the burner and communicates with the interior of the burner. The horizontal portions include first flame holes, the inclined portions include second flame holes, and the main body includes third flame holes. Flames burn in the main body, the horizontal portions, and the inclined portions.
Disclosed are a device for supplying liquid at a constant amount and a method for controlling the same, and the device for supplying liquid at a constant amount comprises a constant amount chamber, an input pump, an output pump, a liquid level detection device, and a controller; the input pump is provided with an input pump liquid feeding pipe and an input pump liquid discharging pipe; the output pump is provided with an output pump liquid feeding pipe and an output pump liquid discharging pipe; the input pump, the output pump, and the liquid level detection device are each in matched connection with the controller. In the present invention, by cyclic operation, a liquid volume between a high liquid level and a low liquid level is delivered at a constant amount in each cycle, so that liquid fuel is supplied at a constant amount.
Disclosed in the present disclosure is a movably installed ejector pipe for a gas fireplace, the nozzle and the limit seat are fixed to the substrate, the ejector pipe is inserted between the limit seat and the nozzle, the limit seat is provided inside with a first inner bore and a second inner bore of a stepped shape, the first inner bore is below the second inner bore and is larger than the second inner bore, a head of the ejector pipe is provided with a groove. In the gas fireplace provided in the present disclosure, because a limit seat is added, the ejector pipe can swing at a certain angle within the limit seat, so that a placing angle of a burner can be finely adjusted and thereby the burner is in a position that allows for the optimal viewing effect of flame combustion.
Hot air apparatus; heating apparatus; hearths; fireplaces, domestic; stoves (heating apparatus); air reheaters; radiators, electric; pocket warmers; heating apparatus for solid, liquid or gaseous fuels.
Air reheaters; hot air apparatus; heating apparatus;
hearths; fireplaces, domestic; heating apparatus for solid,
liquid or gaseous fuels; stoves [heating apparatus];
radiators, electric; pocket warmers.
A flame simulation projection device including a first light source, a light reflection mechanism, a second light source and a housing, wherein the first light source, the light reflection mechanism and the second light source are separately matched and connected to the housing; the first light source is disposed facing the light reflection mechanism; the housing forms an inner cavity; and the second light source is disposed facing the outside of the inner cavity. Since the first light source, the light reflection mechanism, the second light source and the housing form a standardized, serialized and integrated module, it can not only speed up the progress of production, assembly and maintenance of products, but also be designed by DIY. Users can freely arrange flame imaging screens and/or simulated fuel beds.
Hot air heating apparatus; space heating apparatus; fireplace hearths; fireplaces, domestic; heating apparatus for solid, liquid or gaseous fuels; stoves being heating apparatus; electric radiators; electric pocket warmers for warming hands
Heating apparatus for solid, liquid or gaseous fuels; Ash pits for furnaces; Boilers for heating installations; Electric patio heaters; Electric radiators; Electric warmers for feeding bottles; Fireplace hearths; Fireplaces; Fireplaces, domestic; Furnaces; Portable electric heaters
14.
Flame simulating device and atomizing simulation fireplace including same
The present invention discloses a flame simulating device, comprising a mist generating chamber, an atomizing head, an air orifice and a nozzle. The inside of the mist generating chamber is provided with a liquid and the atomizing head, the atomizing head being capable of atomizing the liquid inside the mist generating chamber, the two sides of the nozzle being set as Coanda curved surfaces, the cross section of the air orifice being in a constricted shape and providing an air flow blown upward such that under the Venturi effect, the air flow blown upward will guide and attract the mist from inside the mist generating chamber to vent out and flow into a nozzle inlet; the upper surface of the mist generating chamber is provided with a breathing port, and the breathing port directly faces the atomizing head. Due to the Coanda curved surface on the side of the nozzle, the mist flows along both sides of the nozzle under the Coanda effect and then vents out of the nozzle.
B05B 7/00 - Appareillages de pulvérisation pour débiter des liquides ou d'autres matériaux fluides provenant de plusieurs sources, p. ex. un liquide et de l'air, une poudre et un gaz
F21S 10/04 - Dispositifs ou systèmes d'éclairage produisant un effet d'éclairage variable simulant des flammes
Coal stoves; Electric radiators; Electric stoves; Fireplace hearths; Fireplaces, domestic; Gas burners; Gas stoves; Heating installations; Oil stoves; Portable electric heaters; Solid fuel burning stoves
16.
Regulating mechanism for regulating the flows from a plurality of gas outlets in a fuel gas valve
The present invention discloses a regulating mechanism regulating the flows from a plurality of gas outlets in a fuel gas valve, comprising an actuator, a push rod, a presser plate assembly, regulating rods and a valve body. Wherein the valve body has a plurality of gas outlets, a regulating rod is provided in each regulating port which exists between the gas inlet and each gas outlet, a resetting device is provided between each regulating rod and the valve body, and the actuator drives the push rod which is around by the regulating ports to move along the axis. The push rod causes the presser plate assembly to move up and down to press or relax the regulating rods and simultaneously change the degree of opening between the head portion of each regulating rod and the corresponding regulating port so that the flow from each gas outlet changes synchronously.
A streamer type flame simulation device includes a casing, some cross-flow fans disposed inside the casing, a first streamer, a second streamer, a supplementary air-supplying device and a light source. The supplementary air-supplying device is arranged in the split joint area between the two cross-flow fans. Since a supplementary air-supplying device is provided between two cross-flow fans for supplying air, the deficiency where air was unable to deliver at the space occupied by the drive motor of the cross-flow fans can be avoided. Various parts of the first streamer and the second streamer can be blown, thus preventing the flame from being cut off and enhancing the overall coordination, which greatly improves the viewing effect of the flame area.
A gas fireplace combustion device structure includes a simulated solid fuel and a combustor under the simulated solid fuel. The combustor has a fire exit hole facing the simulated solid fuel, a combustion air inlet passage under the combustor, and a specific slot at the combustor to define a third combustion air inlet. A partition is installed under the combustor; a second combustion air inlet leading to fire exit hole is formed between the partition and the combustor; the combustion air inlet passage is provided for supplying air to the second and third combustion air inlets; a combustion air slot is formed at the middle of the simulated solid fuel to resupply combustion air to the flame above the simulated solid fuel in order to achieve a two-time sectional combustion. This invention can control and resupply combustion air to the flames in different areas to improve the combustion effect.
A dual coil solenoid valve is disclosed for a fuel gas control valve, which comprises a stationary coil assembly and a moving coil assembly, wherein both the stationary coil assembly and the moving coil assembly consist of a magnetic core and a coil. Grooves are provided on the inside of the magnetic cores and coils are arranged in the grooves of the magnetic cores. The stationary coil assembly and the moving coil assembly have an equal cross-sectional area and are arranged oppositely with their axes coinciding with each other. The coils are arranged in the grooves of the magnet cores in such a way that the leakage flux can be reduced and the electromagnetic forces can be increased.
F16K 31/06 - Moyens de fonctionnementDispositifs de retour à la position de repos électriquesMoyens de fonctionnementDispositifs de retour à la position de repos magnétiques utilisant un aimant
20.
Regulating mechanism for regulating the flows from a plurality of gas outlets in a fuel gas valve
The present invention discloses a regulating mechanism regulating the flows from a plurality of gas outlets in a fuel gas valve, comprising an actuator, a push rod, a presser plate assembly, regulating rods and a valve body. Wherein the valve body has a plurality of gas outlets, a regulating rod is provided in each regulating port which exists between the gas inlet and each gas outlet, a resetting device is provided between each regulating rod and the valve body, and the actuator drives the push rod which is around by the regulating ports to move along the axis. The push rod causes the presser plate assembly to move up and down to press or relax the regulating rods and simultaneously change the degree of opening between the head portion of each regulating rod and the corresponding regulating port so that the flow from each gas outlet changes synchronously.
A multi-outlet channel combination gas valve includes a valve body, a solenoid valve and a flow regulating mechanism. The valve body has a multiple of air outlets, at least two outlet channels formed between each air outlet and an air inlet of the valve body, a regulating port disposed in the at least two outlet channels, and the flow regulating mechanism can regulate the gas flow passing through each regulating port of the valve body at the same time, and a solenoid valve with a dual-coil electromagnet structure. When the valve is opened, a relatively larger current is passed, and then a very small current will be provided thereafter to maintain an operation by low power consumption. Therefore, this gas valve can be used without a mains power, and a low-level regulating structure is provided for presetting a low-level flow of each air outlet.
G05D 16/06 - Commande de la pression d'un fluide sans source d'énergie auxiliaire l'élément sensible étant un organe élastique cédant à la pression, p. ex. un diaphragme, un soufflet, une capsule
F23N 1/00 - Régulation de l'alimentation en combustible
F23N 3/00 - Régulation de l'amenée d'air ou du tirage
The present invention discloses a simulated solid fuel, including a fuel body, a flow guiding device, a mist source and a light source. The fuel body houses a mist distribution chamber and an air directing chamber which are isolated from each other, and the surface of the fuel body includes mist outlets and mist inlets, the mist outlets and the mist inlets all communicating with the mist distribution chamber. The flow guiding device provides an upwardly rising air flow in the air directing chamber. The mist source delivers mist to the mist distribution chamber through the mist inlets, and is then attracted by the air flow injected from the air ejection port to move toward the middle area of the fuel body to form a flame shape, and is irradiated by the light emitted from the light source, thereby truly simulating the realistic effect of solid fuel combustion.
(1) Fireplaces, domestic; light bulbs; LED lighting fixtures; fans for air conditioning units; gas burners; solid fuel burning stoves; water heaters; heaters for baths; heaters for vehicles; portable electric heaters central heating radiators; heating radiators; heating elements; heated towel rails; gas scrubbers.
Fireplaces, domestic; lightbulbs; LED (light emitting diode) lighting fixtures; electric fans; heating apparatus for solid, liquid or gaseous fuels; space heating apparatus; gas scrubbing apparatus
(1) Coal stoves; Electric radiators; Electric stoves; Fireplaces; Hearths; Domestic fireplaces; Gas burners; Gas stoves; Electric space heaters; Oil stoves; Portable electric heaters; Solid fuel burning stoves.
Disclosed is a fireplace of combusting gasified liquid fuel, which includes a fireplace body provided with a fireplace chamber. The fireplace body is provided with a cavity which is capable of accommodating a combustion device and formed at the bottom of the fireplace chamber. A fire viewport is provided at the front of the fireplace body. The combustion device includes a liquid supplying device, gasification chamber and burner. A slot used for exposing the burner is provided at the top of the cavity. A flame jet hole is arranged in the burner. A liquid fuel feeding port and a gas outlet are arranged in the gasification chamber.
F23D 14/10 - Brûleurs à gaz avec prémélangeurs, c.-à-d. dans lesquels le combustible gazeux est mélangé à l'air de combustion en amont de la zone de combustion du type à induction, p. ex. becs Bunsen avec la tête de brûleur tubulaire allongée
F23D 14/28 - Brûleurs pour la combustion d'un gaz, p. ex. d'un gaz stocké sous pression à l'état liquide associés à une source de combustible gazeux, p. ex. générateur d'acétylène ou réservoir de gaz liquéfié
F24C 5/02 - Poêles ou fourneaux à combustibles liquides à brûleurs à vaporisation, p. ex. du type cuvette
F23D 11/44 - Dispositifs de réchauffageDispositifs vaporisateurs
Air conditioning installations; Coal stoves; Electric radiators; Fireplace hearths; Fireplaces, domestic; Gas stoves; Heating installations; Heating pads not for medical purposes; Hot plates; Hot water tanks
(1) Fireplaces; Hot plates; Portable electric heaters; Radiators for heating buildings; Heating pads; Stoves; Hot water heaters; Hot water tanks; Air conditioners
A fireplace with a power generation device comprises a casing (1, 1") and a fireplace body (2, 2"). A firebox (21, 21") is disposed in the fireplace body (2, 2"). An outer wall of the fireplace body (2, 2") is provided with a power generation assembly (5, 5', 5") capable of sensing a temperature difference between the outer wall of the fireplace body (2, 2") and the ambience and converting the temperature difference into power. The power generation assembly (5, 5', 5") has an output terminal capable of providing working power for a load.
F24D 15/02 - Autres systèmes de chauffage de locaux domestiques ou d'autres locaux formés d'éléments chauffants autonomes, p. ex. d'appareils de chauffage à accumulation
H01L 35/28 - DISPOSITIFS À SEMI-CONDUCTEURS; DISPOSITIFS ÉLECTRIQUES À L'ÉTAT SOLIDE NON PRÉVUS AILLEURS - Détails fonctionnant exclusivement par effet Peltier ou effet Seebeck
Disclosed in the present invention is a fireplace of combusting gasified liquid fuel, which comprises a furnace body (6;9') provided with a furnace chamber (61;91'). The furnace body (6;9') is provided with a cavity (63;93') which is capable of accommodating a combustion device and formed at the bottom of the furnace chamber (61;91'). A fire viewport (62;921') is provided at the front of the furnace body (6;9'). The combustion device comprises a liquid supplying device, gasification chamber (1;1') and burner (2;2'). A slot(631;931')used for exposing the burner (2;2') is provided at the top of the cavity (63;93'). A flame jet hole (21;21') is arranged in the burner (2;2'). A liquid fuel feeding port (11) and a gas outlet are arranged in the gasification chamber (1;1'). The liquid fuel feeding port (11) of the gasification chamber (1;1') is connected with the liquid supplying device, and the gas outlet of the gasification chamber (1;1') is connected with the burner (2;2'). The main body of the burner (2;2') is provided higher than the connection port of the burner (2;2') and the gasification chamber (1;1'). An electric heating means (3;3') is also provided in the gasification chamber (1;1'). Using the method of the gasification combustion of the liquid fuel, the fireplace is considered cleaner, more environment friendly and has higher combustion efficiency. As the gasification chamber (1;1') is directly heated by the electric heating means (3;3') to provide the heat required to gasify liquid fuel without preheating, the whole structure is more simple and the gasification process is more simplified.
F24D 15/02 - Autres systèmes de chauffage de locaux domestiques ou d'autres locaux formés d'éléments chauffants autonomes, p. ex. d'appareils de chauffage à accumulation
F24B 1/18 - Poêles à foyers ouverts, p. ex. cheminées à foyers ouverts
F24B 1/199 - Dispositifs de manipulation du combustible
F23D 14/10 - Brûleurs à gaz avec prémélangeurs, c.-à-d. dans lesquels le combustible gazeux est mélangé à l'air de combustion en amont de la zone de combustion du type à induction, p. ex. becs Bunsen avec la tête de brûleur tubulaire allongée
