RU207426U1 - ELECTRIC STEAM FIREPLACE - Google Patents

Abstract

The utility model relates to an electrical appliance that simulates thermal and visual effects, in particular, an electric fireplace. The essence of the utility model is that an electric fireplace with steam includes a visor located in the body, a combustion simulation, a steam deflector, an ultrasonic evaporator, where a steam deflector , made removable, and an ultrasonic evaporator fixed in the humidification block, where the latter is also removable, are placed in a drawer, while ventilation holes are made on the body and visor, and the steam intensity of the steam deflector is adjustable. Thus, the technical result of the claimed utility model is achieved , namely, simplifying the design and providing a real perception of the fireplace.

Description

Technology area

The utility model relates to an electrical appliance that simulates thermal and visual effects, in particular, an electric fireplace.

State of the art

A device for simulating flame and smoke is known (RU137598U1 from 2013.10.03, IPC class F24C 7/00). This device includes a fuel simulator with holes, a light source, an aerosol generator including at least one fluid supply system connected to a system of fluid supply channels, and ultrasonic transducers, characterized in that at least each said ultrasonic transducer is connected to a corresponding channel for supplying liquid, with the possibility of forming an aerosol at the outlet of said channel, and at least each channel for supplying liquid is aligned with a corresponding hole made in the fuel simulator, with the possibility of forming a channel for aerosol outlet through said fuel simulator.

The disadvantage of this technical solution is the complex design due to the use of numerous channels with ultrasonic transducers, which can lead to a decrease in the service life.

A device with the effect of simulating flame and smoke is known (RU185630U1 from 2018.09.26, IPC class F24C 7/00), which includes a fuel simulator placed in a housing on a substrate, the substrate is made with the possibility of passing air and steam simulating smoke, light sources located below and made with the possibility of illuminating a simulator of fuel and steam, an aerosol generator for the formation of steam, including ultrasonic evaporators, the converting surfaces of which are in contact with the liquid and generating steam above the level of the liquid poured into the liquid supply system, a fan for forced direction of the flow of air and steam, characterized by the fact that, as a liquid supply system, it contains a container and a microcontainer, which are hydraulically communicated with each other, filled with liquid, an air mass distribution and filling chamber is additionally located under the substrate, made of a translucent material for transmitting radiation from light sources, the fan is installed on a microco nteiner, and ultrasonic evaporators are placed on the bottom of the microcontainer, the container is equipped with an air duct that has an outlet to the distribution and filling chamber of the air mass, the substrate is equipped with a groove for the passage of air and steam simulating smoke from the above chamber, ventilation windows are made in the body for air release and pair. The specified device is taken as a prototype.

The disadvantage of this technical solution is a complex design due to the use of several ultrasonic transducers and water heating.

The technical result is the development of an electric fireplace with steam, the closest to the real perception of the fireplace, with a simplified design compared to the prototype.

Disclosure of the essence of a technical solution

The technical result is achieved in that an electric fireplace with steam includes a visor located in the body, a combustion simulation, a steam deflector, an ultrasonic evaporator, where the steam deflector is removable, and an ultrasonic evaporator, fixed in the humidification unit, where the latter is also removable, placed in a drawer, while ventilation holes are made on the body and visor, and the steam intensity of the steam deflector is adjustable.

A variant of the technical solution is possible, where the controls are located on the visor in the lower part.

A variant of the technical solution is possible, where the aroma container is also placed in the drawer.

A variant of the technical solution is possible, where the drawer is made of synthetic or natural high-molecular compounds.

A variant of the technical solution is possible, where the imitation of combustion is made in the form of a furnace with the burning of wood or coal.

A variant of the technical solution is possible, where the ventilation holes are made in a round, square, elliptical or rectangular shape.

A variant of the technical solution is possible, where one of the controls is a remote control.

Brief Description of Drawings

Further, the technical solution is explained on the example of a specific design, however, it should be clear that this example is given solely for the purpose of explaining the technical solution and should not be interpreted as limiting the scope of the technical solution.

Figure 1 shows a three-dimensional image of the proposed technical solution, namely an electric fireplace with steam 1.

Figure 2 shows a bottom view of the visor 4, on which the control unit 10 is located.

Figure 3 shows the internal structural elements of an electric fireplace with steam 1.

Pos. 1 - electric fireplace with steam;

Pos. 2 - case;

Pos. 3 - ventilation holes, located on the body 2 or on the visor 4;

Pos. 4 - visor;

Pos. 5 - decorative frame;

Pos. 6 - drawer;

Pos. 7 - imitation of combustion;

Pos. 8 - power cord;

Pos. 9 - decorative elements;

Pos. 10 - control unit on the visor 4;

Pos. 10.1 - button for adjusting the evaporation rate;

Pos. 10.2 - heating power adjustment button;

Pos. 10.3 - on / off button for an electric fireplace with steam 1;

Pos. 10.4 - button for turning on / off the sound effect of crackling imitation of combustion 7;

Pos. 11 - steam deflector;

Pos. 12 - humidification block;

Pos. 13 - aroma container;

Pos. 14 - water tank;

Pos. 15 - ultrasonic evaporator located inside the humidification unit 12.

Implementation of the technical solution

An example of the implementation of the technical solution is shown in Figs. 1-3, which shows the claimed technical solution, namely an electric fireplace with steam 1, where the body 2 of an electric fireplace with steam 1 is a rectangular or square device made of non-combustible material, for example, metal with powder coating. The body 2 itself provides storage for internal components.

Ventilation holes 3 are located on the body 2 and on the visor 4 and are designed for air ventilation. In addition, the ventilation openings 3 can be made in a round, square, elliptical and preferably rectangular shape.

The visor 4 is made predominantly in a rectangular shape, and a control unit 10 is located on its base (lower part). The lower part of the visor 4 is visually hidden from the eyes of users. This arrangement ensures the visual invisibility of the unit 10, and the hidden buttons (10.1-10.4) at the bottom of the visor 4 give an aesthetic look to a real fireplace, since they are invisible at first glance. In addition, one of the controls is a remote control, that is, it is possible to control at a certain distance.

A decorative frame 5 frames the body 2, which provides an aesthetic perception of an electric fireplace with steam 1, and is made of non-combustible material, mainly of powder-coated metal.

Drawer 6 provides a uniform rise from the floor of an electric fireplace with steam 1 and is made of synthetic or natural high molecular weight compounds (plastic).

The imitation of combustion 7 is made in the form of a furnace with a visual image of the burning of wood or coal.

Power cord 8 - a power supply device that turns on / off an electric fireplace with steam 1.

Decor elements 9 provide an aesthetic perception of an electric fireplace with steam 1 and are made mainly of a material based on synthetic or natural high-molecular compounds (plastic).

The control unit 10 is located on the lower part of the visor 4 and includes ventilation holes 3, a button for adjusting the evaporation rate 10.1, a button for adjusting the heating power 10.2, an on / off button for an electric fireplace with steam 1 (10.3), a button (10.4) for turning on / off the sound crackle effect combustion simulation 7. All buttons (10.1, 10.2, 10.3, 10.4) can be performed, without limitation, in the form of a joystick, relay, button. The ventilation holes 3 themselves can be made in a round, square, elliptical or rectangular shape.

The water tank 14 of the humidification unit 12 is made of plastic. Water is poured into this reservoir for evaporation using an ultrasonic evaporator 15. The humidification unit 12 itself is removable and located inside the drawer 6. In this case, the housing of the humidification unit 12 is made of plastic.

The drawer 6 itself is made of synthetic or natural high molecular weight compounds. Inside the box 6 there are a steam deflector 11 and an ultrasonic evaporator 15 fixed in the humidification unit 12. This arrangement provides ease of use, the possibility of filling the reservoir with water in the humidification unit 12, as well as the ability to pull out and wash removable devices. In addition, an aroma container is located in the drawer 6, which allows you to create / add various odors when the water evaporates.

The steam (fog) deflector 11 is made of plastic, is removable and located in the drawer 6. The steam deflector 11 is designed for uniform evaporation of water in the area above the combustion simulation 7, made in the form of artificial wood or coal.

The ultrasonic water evaporator 15 is located inside the humidification unit 12, which is located inside the drawer 6. The principle of operation of the ultrasonic water evaporator 15 is as follows: high-frequency vibrations of the membrane create sound waves in the liquid, which are areas of compression and depression (high and low pressure). In the area of reduced pressure, cavitation bubbles are formed, which are vapor bubbles and appear due to the fact that at low pressure the boiling point of water is lower than the water temperature and sound waves carry these bubbles upward, and since the pressure in the atmosphere is lower than inside the bubble when it bursts on the surface, vapor particles appear (water at a given temperature and pressure can no longer remain gaseous, therefore it condenses). This ultrasonic water evaporator 15 is made of piezoceramics with silver-plated electrodes brought out.

A seal made of silicone rubber is located between the housing of the humidification unit 12 and the steam deflector 11. It is designed to seal the housing of the humidification unit 12 and the steam deflector 11 so that steam does not escape through the cracks between them. It is also installed inside the housing of the humidification unit 12 and inside the drawer 6.

The claimed technical solution works as follows.

An electric fireplace with steam 1 starts working after plugging the power cord 8 into a power outlet. Using the control unit 10, on which the on / off button 10.3 is located, the electric fireplace with steam 1 is switched on or off.

A vapor (fog) deflector 11 with the help of an ultrasonic water evaporator 15 converts water into a multitude of small drops that form steam over a combustion simulation 7 made in the form of artificial wood or coal. Water in the ultrasonic water evaporator 15 comes from the water tank of the humidification unit 12.

Under the action of light filters (not shown in the figure), the droplets are transformed into steam rising chaotically upward thanks to the steam (fog) deflector 11, which evenly distributes the steam throughout the electric fireplace with steam 1. Light filters (not shown in the figure) paint the steam yellow and red colors. In this case, the evaporation rate is adjusted by pressing button 10.1.

The steam comes out from below through an imitation of combustion 7, made in the form of artificial wood or coal. Under it are the ultrasonic water evaporator 15 and the water tank of the humidification unit 12.

In this case, warm air escapes through the ventilation holes 3 on the visor 4. The claimed electric fireplace with steam 1 simultaneously humidifies the air and heats the air in the room through the ventilation holes 3 of the visor 4. These two functions can work both simultaneously and separately.

Light filters (not shown in the figure) illuminate combustion simulation 7, made in the form of wood and / or coal. The light filters built into the combustion simulation 7 (not shown in the figure) flicker, creating an additional effect of realism. In this case, you can additionally turn on the sound effect of crackling using the button 10.4 for simulating combustion 7, made in the form of firewood and / or coal.

Electric fireplace with steam 1 allows you to adjust the heating power by turning on / off the button 10.2 located on the visor 4. In this case, the power is adjusted in several modes: intensive, medium and low. The body 2 of an electric fireplace with steam 1 does not heat up due to the use of non-combustible material. The drawer 6 allows the electric fireplace with steam 1 to be raised above the floor, which ensures the safety of the electric fireplace, since all the elements are located higher and there is no contact between the floor and the electric fireplace. Accordingly, there is no possibility of electric shock to the floor.

Decor elements 9 and decorative frame 5 located on the body 2 visually imitate a real fireplace, that is, they provide an aesthetic perception of the electric fireplace with steam 1 itself.

Claims (7)

1. Electric fireplace with steam, which includes a visor located in the body, a combustion simulation, a steam deflector, an ultrasonic evaporator and characterized in that the steam deflector is removable and an ultrasonic evaporator fixed in the humidification unit, where the latter is also removable, are located in a drawer, while ventilation holes are made on the body and visor, and the steam intensity of the steam deflector is adjustable. 2. An electric fireplace according to claim 1, characterized in that the controls are located on the visor in the lower part. 3. Electric fireplace according to claim 1, characterized in that the aroma container is also placed in the drawer. 4. Electric fireplace according to claim 1, characterized in that the drawer is made of synthetic or natural high molecular weight compounds. 5. An electric fireplace according to claim 1, characterized in that the imitation of combustion is made in the form of a firebox with wood or coal burning. 6. Electric fireplace according to claim 1, characterized in that the ventilation openings can be made in a round, square, elliptical or rectangular shape. 7. Electric fireplace according to claim 2, characterized in that one of the controls is a remote control.

Images