CN209445274U - A kind of simulating solid fuel - Google Patents

Abstract

The utility model discloses a kind of simulating solid fuels.Including fuel ontology, guiding device, mist source and light source.Mutually isolated mist distributor chamber and air conduction room is arranged in fuel body interior, and the surface of fuel ontology includes fog outlet and fog inlet, and the fog outlet is connected to mist distributor chamber with fog inlet.Guiding device can provide the air-flow risen upwards in air conduction room, so that the air in air conduction room is sprayed from the air ejiction opening of fuel body upper surface.Mist source conveys fog to mist distributor chamber by fog inlet, since fog outlet is connected to mist distributor chamber, fog is emerged from fog outlet, and then it is drawn close by the airstream suction that air ejiction opening sprays to the intermediate region of fuel ontology, form the shape of flame, it is irradiated again by the light that light source issues, so as to the vivid effect of true simulated solid fuel burning.

Description

A kind of simulating solid fuel

Technical field

The utility model relates to a kind of simulating solid fuels, and specifically the utility model relates to be used for mould on a kind of electric fireplace The simulating solid fuel of quasi- real solid fuel burning.

Background technique

Currently, the structure majority of electric fireplace flame analogue device is fired by serving as the simulation of combustion medium in combustion The simulation flame attachment composition of the flame generated when material bed and simulated combustion.

The simulated fuel bed is usually by simulating solid fuel, ashes bed and the light source below the ashes bed Composition.And the analog form of the simulating solid fuel is typically all to use light projection in the ontology of simulating solid fuel On, light makes it become penetrating, and red state is burnt similar to real solid fuel.Also have and use in inside simulating solid fuel It sets or surrounding arranges that lamp bar issues the mode of light source, to simulate the state that true fuel emits beam.

But at present in technology, although can simulate real solid fuel burns red state, or even light can be also issued Line, but on simulating solid fuel and its periphery is all not no flame profile, lack flare in the true burning waved Feel.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of simulating solid fuels.The utility model is used for electric wall After furnace, it is capable of the effect of more real simulation solid fuel ignition, not only fuel itself is grilled thoroughly, but also in simulating solid fuel There are also flames to wave for both sides and its top, indistinct, agile elegant.The utility model structure is simple, production process It is convenient, it is suitable for the simulated combustion of the simulating solid fuel on most electric fireplaces.

Technical solution adopted by the utility model to solve the above technical problems is as follows: a kind of simulating solid fuel, including combustion Expect ontology, guiding device, mist source and light source, the fuel body interior is hollow structure, and is provided with mist distributor chamber and sky Gas diversion chamber, mist distributor chamber and air conduction room are mutually isolated in fuel body interior, and in the edge surrounding of fuel ontology Surface is provided with fog outlet, the fog outlet include one side in the fuel ontology, both sides, three while, four while or surrounded surface All, the fog outlet is connected to the mist distributor chamber, is additionally provided with fog inlet on the fuel ontology, the fog inlet and Mist distributor chamber connection, the mist source are the existing device that can produce fog, for example including but be not limited to by ultrasonic fog The device etc. for generating fog is set in makeup, and is arranged in place, fog conveying tube road is provided on mist source, the mist source passes through institute Fog conveying tube road is stated to be connected with the fog inlet.The upper surface of the fuel ontology is provided with air ejiction opening, the air Ejiction opening is connected to the air conduction room.

The guiding device can guide the upward ascending motion of the indoor air of the air conduction, and then from the air It is sprayed in ejiction opening.After the fog that the mist source generates enters mist distributor chamber by the fog conveying tube road, and then from described It emerges in fog outlet.And due to thering is free gas blowout to go out in the air ejiction opening, so that fuel body upper surface intermediate region Air velocity it is very fast, air pressure reduce, this will make the upper of the oriented fuel ontology of the fog emerged from the fog outlet The trend that the intermediate region on surface is drawn close, i.e., along the upward ascension of fuel body upper surface.

The light source can be arranged in the surface and/or two sides and/or inside of the fuel ontology, what the light source issued Light is radiated at from the fog emerged in the fog outlet, fluid due to fog, forms various upward shapes, from And simulate the state of flame combustion.

Further, in order to enable the fog can smoothly emerge from the fog outlet, pass through the fog conveying tube The pressure that road enters the fog of the mist distributor chamber is higher than atmospheric pressure, thus with the power gushed out forward, for example including But it is not limited to be provided with blower device in the fog generator, so that the fog is blown into mist distributor chamber.

Further, the guiding device is that heat source is arranged in the inside of the air conduction room or bottom part down, is passed through The heat source heats the air in the air conduction room, so that the indoor upward motion of air of the air conduction.

Further, the guiding device is that blower device is arranged in the inside of the air conduction room or bottom, is led to The air blower is crossed to blow out the indoor air of air conduction upwards.

Further, in order to enable the light that the light source issues preferably is radiated at the fog emerged in the fog outlet On, the light source is strip, the two sides of the fuel ontology is arranged in, and the light that the light source issues is with certain angle It spends above the top of fog outlet described in face and the upper surface of the fuel ontology.

Compared with the prior art, the advantages of the utility model are: by using the mode of fog in simulating solid fuel Two sides and upper surface form the various fluid shapes similar to flame, and be radiated on fog, formed by light The shape of real flame burning is simulated, structure is simple, and it is convenient for production, it is suitable for the simulating solid fuel mould of most electric fireplaces Quasi- device.

Detailed description of the invention

Fig. 1 is the entirety perspective view of the utility model embodiment 1.

Fig. 2 is the perspective exploded view of the utility model embodiment 1.

Fig. 3 is the half section structure diagram of the utility model embodiment 1.

Fig. 4 is the schematic diagram of the working condition of the simulation flame combustion of the utility model embodiment 1.

Fig. 5 is the entirety perspective view of the utility model embodiment 2.

Fig. 6 is the perspective exploded view of the utility model embodiment 2.

Fig. 7 is the half section structure diagram of the utility model embodiment 1.

The corresponding title of each component in figure are as follows: 1- fuel ontology；2- guiding device；3- mist source；4- light source；The distribution of 11- mist Room；12- air conduction room；13- fog outlet；14- fog inlet；15- air ejiction opening；21- fan；31- fog conveying tube road.

Specific embodiment

The utility model is described in further detail below in conjunction with figure embodiment.

Embodiment 1

As shown in Figure 1 to 4, a kind of simulating solid fuel, including fuel ontology 1, guiding device 2, mist source 3 and light source 4, It is hollow structure inside fuel ontology 1, is provided with mist distributor chamber 11 and air conduction room 12, mist distributor chamber 11 and air conduction room 12 are not connected to mutually in 1 inside of fuel ontology, the edge surrounding of fuel ontology 1 are provided with fog outlet 13, in the present embodiment 1 In, the two sides of fuel ontology 1 are arranged in fog outlet 13.Fog inlet 14 is provided on fuel ontology 1, fog inlet 14 and mist distribute Room 11 is connected to, and is connected with the fog conveying tube road 31 on mist source 3, and in the present embodiment 1, mist source 3 is an atomization ultrasound wave mist hair Raw device generates.Air ejiction opening 15 is additionally provided on fuel ontology 1, air ejiction opening 15 is connected to air conduction room 12.? In the present embodiment 1, guiding device 2 is the heat source of an electric heating form of tubes, is arranged in inside air conduction room 12, due to electrothermal tube Heating, air in air conduction room 12 can be made to form the air-flow risen.In the present embodiment 1, light source 4 is two LED The two sides of fuel ontology 1 are arranged in lamp plate, and the light that light source 4 issues is irradiated towards fuel ontology 1 obliquely.

When work, fog is generated inside mist source 3, and by the power device inside mist source 3, is divided by fog conveying tube road 31 to mist With fog is conveyed in room 11, when the mist amount in mist distributor chamber 11 reaches a certain amount of, fog will emerge from fog outlet 13.While or Guiding device 2 is opened later or in advance, and guiding device 2 is that electrothermal tube begins to warm up the air in air conduction room 12, due to sky It expands after gas heating, and then is sprayed from air ejiction opening 15, so that position forms one gas among the upper surface of fuel ontology 1 Stream, according to aerodynamics it is found that gas flow rate is faster, pressure is lower, so that the pressure of the upper surface intermediate region of fuel ontology 1 Power reduces, this becomes what the intermediate region for making the upper surface of the oriented fuel ontology 1 of the fog emerged from fog outlet 13 was drawn close Gesture, i.e., along the upward ascension in 1 upper surface of fuel ontology.The light that light source 4 issues is radiated on the fog emerged in fog outlet 13, Due to fluid, the various upward shapes similar to flame of formation of fog, to simulate the combustion of real solid fuel flame The state of burning.

Embodiment 2

As shown in Fig. 5~Fig. 7, a kind of simulating solid fuel, including fuel ontology 1, guiding device 2, mist source 3 and light source 4, It is hollow structure inside fuel ontology 1, is provided with mist distributor chamber 11 and air conduction room 12, mist distributor chamber 11 and air conduction room 12 are not connected to mutually in 1 inside of fuel ontology, the edge surrounding of fuel ontology 1 are provided with fog outlet 13, in the present embodiment 2 In, four sides and the surface area of fuel ontology 1 is arranged in fog outlet 13.Fog inlet 14 is provided on fuel ontology 1, into Mist mouth 14 is connected to mist distributor chamber 11, and is connected with the fog conveying tube road 31 on mist source 3, and in the present embodiment 2, mist source 3 is one Atomization ultrasound wave fog generator generates.Air ejiction opening 15 is additionally provided on fuel ontology 1, air ejiction opening 15 draws with air Flow chamber 12 is connected to.In the present embodiment 2, guiding device 2 is one and provides the air duct of power by fan 21, is arranged in air conduction The bottom of room 12, guiding device 2 provide the air-flow risen upwards in air conduction room 12.In the present embodiment 2, light source 4 be three LED lamp panels, is separately positioned on the two sides of fuel ontology 1 and the inside of fuel ontology 1, and the light that light source 4 issues Line is irradiated towards the upper surface of fuel ontology 1 obliquely and/or forward.

When work, fog is generated inside mist source 3, and by the power device inside mist source 3, is divided by fog conveying tube road 31 to mist With fog is conveyed in room 11, when the mist amount in mist distributor chamber 11 reaches a certain amount of, fog will emerge from fog outlet 13.While or Guiding device 2 is opened later or in advance, under the action of fan 21, upward motion of air in air conduction room 12, Jin Ercong Air ejiction opening 15 sprays, so that position forms one air-flow among the upper surface of fuel ontology 1, it can according to aerodynamics Know, gas flow rate is faster, and pressure is lower, so that the pressure reduction of the upper surface intermediate region of fuel ontology 1, this will be so that from going out The trend that the intermediate region of the upper surface of the oriented fuel ontology 1 of the fog emerged in mist mouth 13 is drawn close, i.e., along on fuel ontology 1 The upward ascension in surface.The light that light source 4 issues is radiated on the fog emerged in fog outlet 13, fluid due to fog, The various upward shapes similar to flame are formed, to simulate the state of real solid fuel flame combustion.

The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without deviating from the technical principle of the utility model, several improvements and modifications can also be made, these change It also should be regarded as the protection scope of the utility model into retouching.

Claims (7)

1. a kind of simulating solid fuel, it is characterised in that: including fuel ontology (1), guiding device (2), mist source (3) and light source (4), it is hollow structure inside the fuel ontology (1), is internally provided with mist distributor chamber (11) and air conduction room (12), it is described Mist distributor chamber (11) and the air conduction room (12) are internal mutually isolated in the fuel ontology (1), in the fuel ontology (1) outer surface is respectively arranged with fog outlet (13) and fog inlet (14), and the fog outlet (13) and fog inlet (14) are and institute Mist distributor chamber (11) connection is stated, fuel ontology (1) upper surface is provided with air ejiction opening (15), the air ejiction opening (15) it is connected to the air conduction room (12)；

The mist source (3) is the device that can produce fog, and fog conveying tube road (31) and the fog inlet are arranged on the mist source (3) (14) it connects, the mist source (3) conveys fog by fog conveying tube road (31) the Xiang Suoshu mist distributor chamber (11)；

The guiding device (2) is arranged in the inside or bottom of the air conduction room (12), can make the air conduction room (12) internal air forms the air-flow risen upwards；

The light that the light source (4) issues is radiated at from the fog emerged in the fog outlet (13).

2. a kind of simulating solid fuel according to claim 1, it is characterised in that: fog conveying tube road (31) the Xiang Suoshu mist The pressure of the fog of distributor chamber (11) conveying is above atmospheric pressure.

3. a kind of simulating solid fuel according to claim 1, it is characterised in that: the guiding device (2) is described The heat source of the inside of air conduction room (12) or bottom setting.

4. a kind of simulating solid fuel according to claim 1, it is characterised in that: the guiding device (2) is described The blower device of the inside of air conduction room (12) or bottom setting.

5. a kind of simulating solid fuel according to claim 1, it is characterised in that: the light source (4) is strip, setting In the two sides of the fuel ontology (1), and the light that issues of the light source (4) fog outlet (13) described in face at a certain angle Top and the fuel ontology (1) upper surface above.

6. a kind of simulating solid fuel according to claim 1, it is characterised in that: the mist source (3) is atomization ultrasound wave Fog generator generates.

7. a kind of simulating solid fuel according to claim 1, it is characterised in that: the fog inlet (14) is arranged described The end face or bottom surface of fuel ontology (1).