RU185017U1 - Electronically controlled biofireplace - Google Patents

Abstract

The utility model relates to devices for space heating, namely to bio-fireplaces that run on liquid fuel. The device comprises a housing in which two tanks are located - a fuel and a metering tank, and a burner connected by fuel lines, the fuel tank being located in the lower part of the housing and connected to the burner bottom by the fuel line through an electromagnetic valve, and a metering tank, the bottom, is located in the upper part of the device which is connected by a fuel line through an electromagnetic valve to the bottom of the burner, and the metering tank is also connected by a spiral-shaped pipeline through an electromagnetic valve and heat energy a heater with an ignition device including an ignition coil connected to the ignition plug inserted in the pre-ignition chamber, which is connected to the burner, the fuel tank being connected to the metering tank by an air pipe and comprising a fuel level sensor, and the metering tank contains an upper fuel level sensor and a low fuel level sensor, the fuel tank being connected to an electric pump for pumping fuel into the metering tank, while the control unit connected to the wire Strongly with fuel level sensors, to the solenoid valves, with teploenergonagrevatelem and an electric pump, with the ignition coil and spark ignition, and the tanks and the burner made of stainless steel. The inventive biofireplace has a simple design, has high performance characteristics, such as reliability, durability, increased security.

Description

The utility model relates to devices for heating rooms, namely, bio-fireplaces that run on liquid fuel.

A device for heating with liquid fuel is known, comprising a housing, inside of which there is a combustion chamber with a perforated bottom, an evaporation plate and a mixing perforated disk, a system for exhausting combustion products, a fuel supply system, a system for removing combustion products, a blowing system equipped with fans, a blowing system equipped with a fan, a viewing window, a fuel storage tank, a thermal monitoring sensor and an operation control panel. The device further comprises a casing with a removable cover located with a gap relative to the housing, the fuel storage tank is autonomous, and the combustion chamber is removable in the form of a hollow cylinder with a removable reflector cover and is installed with a gap relative to the walls of the casing in the through hole of the annular partition fixed from the inside in the lower part of the casing, while the upper part of the combustion chamber is made with through holes, windows, and the casing is equipped with a deflector fixed coaxially through m openings, while the blowing system, made in the form of a through channel in the upper part of the housing, is coaxial to the deflector equipped with a thermal control sensor, the blowing system is made in the lower part of the casing in the form of a through channel, located with its axis tangent to the outer surface of the combustion chamber , the exhaust system of the combustion products is made in the form of a discharge channel-chimney connected to the casing by two channels, one of which is located not lower than the level of the reflector cap, and the other - not lower than the annular burnout the fuel supply system is made in the form of a supply pipe, one end located at the bottom of the combustion chamber and in a guide fixed to the casing wall, and the other end connected with the possibility of adjustable fuel supply with a driving submersible pump installed in the fuel storage tank, and the viewing window is made in a removable cover of the casing (patent RU66008, IPC F23D 5/00, publ. August 27, 2007).

A known device for heating, operating on bioethanol, containing a burner, a reservoir for storing bioethanol and means for supplying fuel to the burner (patent EP3211304, IPC F23D5 / 02).

A disadvantage of the known devices is a complex design and insufficient reliability and safety.

The objective of the utility model is to create a biofireplace of a simple design with high performance characteristics, such as reliability, durability, and a high level of security.

The technical result is to increase the reliability of the device while ensuring safety during operation.

The problem is solved, and the technical result is achieved by a device for heating with liquid fuel, comprising a housing in which two tanks are located - a fuel and a metering tank, and a burner connected by fuel lines, the fuel tank being located in the lower part of the body and connected to the burner bottom through the fuel line solenoid valve, and in the upper part of the device there is a metering tank, the bottom of which is connected by a fuel line through an electromagnetic valve to the bottom of the burner, and the metering tank is also with it is a single spiral-shaped pipeline through an electromagnetic valve and a heat heater with an ignition device that includes an ignition coil connected to an ignition plug inserted into the pre-ignition chamber, which is connected to the burner, while the fuel tank is connected to the metering tank by an air pipe and contains a fuel level sensor, and the metering tank comprises a fuel upper level sensor and a lower fuel level sensor, the fuel tank being connected to an electric pump for pumping fuel to iruyuschy tank, wherein the device is a control unit connected with wire bond fuel level sensors, to the solenoid valves, with teploenergonagrevatelem and an electric pump, with the ignition coil and spark ignition, and the tanks and the burner made of stainless steel.

The essence of the utility model is illustrated in the figure, which shows the inventive device.

The device comprises a housing in which two tanks are located - a fuel 1 and a metering 2, and a burner 3 connected by fuel lines. The fuel tank is located in the lower part of the housing and is connected by the fuel line to the bottom of the burner through the solenoid valve 4, and in the upper part of the device there is a metering tank, the bottom of which is connected by the fuel line through the solenoid valve 5 to the bottom of the burner, and the metering tank is also connected by a spiral pipe through solenoid valve 6 and heat energy heater (TEN) 7 with an ignition device including an ignition coil 8 connected to an ignition plug 9 inserted into the chamber ignition 10, which is connected to the burner 3, while the fuel tank is connected to the metering tank by an air pipe 11 and contains a fuel level sensor 12, and the metering tank contains a high fuel level sensor 13 and a low fuel level sensor 14, the fuel tank being connected to an electric a pump 15 for pumping fuel into a metering tank, the device comprising a control unit 16 connected by wire communication with fuel level sensors 12, 13 and 14, with solenoid valves 4, 5, 6, with a heat energy heater 7 and an electric asosos 15, with an ignition coil 8 and an ignition plug 9. Position 17 denotes the fuel lines, position 18 - remote control device.

The device operates as follows.

From the main fuel tank 1 by an electric pump 15, fuel is pumped into the metering tank 2. The amount of fuel in the tank 2 is regulated by the sensors of the upper 13 and lower 14 levels.

Tank 2 is a metering tank, the volume of fuel in which determines the burning time.

The operation of the device is controlled using the remote control 18. When the "network" button on the control panel 18 is turned on, the fireplace is activated and switches from the "sleep" mode to the operating mode. The “ignition”, “timer automatic”, “climate control” buttons on the remote control select the appropriate combustion mode algorithm. The control unit 16 is located in the biofireplace housing and is connected by an electric cable to a household power supply network of 220 V, 50 Hz. With the remote control 18, the control unit is connected wirelessly. The electronic control unit 16 is connected by wire communication with the following actuators: with sensors 12, 13 and 14, with electromagnetic valves 4, 5, 6, with a pump 15 and with a heating element 7, with an ignition coil 8 and a spark plug 9.

When you press any of the buttons "ignition", "timer automatic", "climate control" of the control panel 18, the electronic control unit 16 sends a command to valve 6, heater 7 and the ignition coil 8, and valve 5. At the same time, for 15 seconds. fuel from the metering tank 2 enters through an open solenoid valve 6 into the heater 7 and the chamber 10.

A candle 9 installed in the chamber ignites the fuel. Then the burning fuel is poured into the burner body 3.

After 15 seconds devices 6, 8 and 9 are turned off, and valve 5 continues to work and constantly feeds burner 3 with fuel through a calibrated pipeline (fuel line), while fuel from tank 2 enters burner 3 by gravity. The process takes place until the tank is completely empty. When the low level sensor 14 is activated, tank 2 is automatically filled with a new portion of fuel.

The burning time is determined by the function that was set.

Extinguishing is carried out from the remote control by pressing the corresponding button. This opens the valve 4 and within 2 minutes drains the remaining fuel into the fuel tank 1 directly in the combustion process. Due to this, an intensive and effective extinguishing of the fireplace is carried out.

Burning occurs arbitrarily, due to which a flame height of up to 400 mm is achieved, which provides a combustion effect similar to a conventional wood-burning fireplace.

Unlike analogs, elements of the ignition system are located outside the combustion zone, which provides additional reliability and durability of the entire structure.

The extinguishing system used also eliminates the presence of residual fuel in the burner after the extinguishing, which provides additional safety and eliminates the evaporation of residual fuel into the room.

Thus, the inventive biofireplace has a simple design, has high performance characteristics, such as reliability, durability, increased security.

Claims (1)

A device for heating with liquid fuel, comprising a housing in which two tanks are located, a fuel and a metering tank, and a burner connected by fuel lines, the fuel tank being located in the lower part of the housing and connected to the burner bottom by the fuel line through an electromagnetic valve, and in the upper part the device has a metering tank, the bottom of which is connected by the fuel line through an electromagnetic valve to the bottom of the burner, and the metering tank is also connected by a spiral-shaped pipeline through an electric a solenoid valve and a heat heater with an ignition device including an ignition coil connected to an ignition plug inserted in a pre-ignition chamber, which is connected to the burner, the fuel tank is connected to the metering tank by an air pipe and contains a fuel level sensor, and the metering tank contains a top sensor the fuel level and the lower fuel level sensor, the fuel tank being connected to an electric pump for pumping fuel into the metering tank, while the control unit is located in the device phenomenon connected with wire bond fuel level sensors, to the solenoid valves, with teploenergonagrevatelem and an electric pump, with the ignition coil and spark ignition, and the tanks and the burner made of stainless steel.

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