CN107305030A - Electronics fireplace implement and the method for simulating log firewood fireplace - Google Patents

Abstract

Electronics fireplace implement and the method for simulating log firewood fireplace.Electronics fireplace includes the artificial firewood being arranged on siege region, the log firewood for simulated combustion.Electronics fireplace includes being used to generate the fog generator in the mist on artificial firewood periphery.At least one optical generator provides light to irradiate the mist around artificial firewood, with the flame flashed of simulated combustion firewood.Electronics fireplace also includes the loudspeaker for being used to play crack burning firewood sound.

Description

Electronics fireplace implement and the method for simulating log firewood fireplace

Technical field

The present invention relates to a kind of electronics fireplace, and in particular to the electronics fireplace implement of a kind of real cigarette of simulation and effect of shadow and the method for simulating log firewood fireplace.

Background technology

Traditional fireplace is a kind of structure designed for accommodating flame.Fireplace is typically what is be made up of brick, stone or metal.Fireplace includes a combustion chamber or the fiery pit containing firebrand or combustion gas, and for discharging the chimney or flue of waste gas.All the time, fireplace can be used for house heating, culinary art, heating water and/or decoration.The fireplace of one burning firewood needs periodically cleaning and maintained.Studies have shown that may produce obvious harm in the cigarette that hearth edge is produced to health.Higher construction cost can be also produced when fireplace is installed.

There is also the electronic installation that some carry out simulated fireplace using red bulb and artificial firewood in the prior art.Red bulb is placed on the lower section of artificial firewood with the firewood of simulated combustion.But, fidelity in this way is not high and simultaneously unsightly.

The content of the invention

Present inventors have recognized that needing more realistically to simulate the effect of shadow of a log firewood fireplace.In addition, present inventors have recognized that needing a kind of electronics fireplace to simulate the flame, the firewood of burning and the smog sent from the firewood of burning of flicker.

Each embodiment of theme described herein can have one or more advantages as described below.In one or more embodiments, the technology and device or system can truly reduce the effect of shadow of the firewood of burning, while without the situation that real smog is produced from very burning firewood.The real log firewood fireplace of operating ratio of the device or system spends less energy, because device or system are only emitted beam by electric energy, sound and water smoke, without producing real flame or burning.Because the sole material that device or system are produced is water smoke, therefore there is environmental protection.

The device or system simulation really burn firewood when the visual effect of flame flashed, be to be realized by persistently moving and changing the smog of position in artificial firewood peripheral region.In addition, the density of smog, which is light that is uneven and being reflected by the different piece of fog, has different directions and different intensity.The mobile and non-homogeneous mist illuminated truly simulates the flame flashed.

In some embodiments, electronics fireplace implement described herein includes being arranged on the artificial firewood of the outward appearance for imitating log firewood on siege region；It is arranged on the fog generator below siege region, fog generator is connected to fog outlet to produce smog and with the mist produced by guiding to the neighboring area of artificial firewood；At least one light source below siege region is arranged on, with the smog of throw light to the neighboring area of artificial firewood, the thus flame flashed for the artificial firewood that simulated combustion；And for playing the loudspeaker of crack combustion of wood sound, the volume of crack combustion of wood sound is synchronous with the light intensity of optical generator.

In some related embodiments, electronics fireplace also includes back box, and for encapsulating fog generator, light source and loudspeaker, the top plate of back box is used as the artificial firewood of siege region supports, back box includes at least one fog outlet, and fog outlet is used to make smog be output to siege region from fog generator.In some related embodiments, electronics fireplace implement also includes being used for the water tank that fog generator supplies water, and water tank is at least partially arranged in back box, and can separate to supplement water with fog generator.In some related embodiments, electronics fireplace also includes the optical generator drive circuit being connected with light source, to control at least one light-emitting component of light source.In some related embodiments, optical generator drive circuit includes microprocessor, and microprocessor can produce control signal, pulse and waveform to drive light source.

In some related embodiments, light source includes multiple light emitting diodes（LED）Module, its different angular transmission different colours light on the mist.In some related embodiments, light source includes multiple light-emitting components opened in different time, and the unlatching duration of at least one and the unlatching duration of another light-emitting component in multiple light-emitting components partly overlap.

In some related embodiments, electronics fireplace implement also leads mist passage including at least one, leads mist passage and is arranged at the adjacent position of fog outlet and for guiding smog from fog generator to the siege region comprising artificial firewood.In some related embodiments, lead mist passage and log firewood fireplace is truly simulated by the direction or rank for adjusting the mist passed through in mist passage is led.

In some related embodiments, artificial firewood includes a kind of material, and it can be such that the light sent from light source is reflected by artificial firewood with the visual effect for the timber for reaching simulated combustion.In some related embodiments, electronics fireplace implement also includes being arranged on artificial charcoal on siege region, and artificial charcoal includes a kind of material, and it can make the light sent from light source reflect the visual effect of the charcoal to reach simulated combustion by artificial charcoal.

In some related embodiments, electronics fireplace implement also includes control knob, and control knob is arranged at the position that user can contact at the one of electronics fireplace implement, to control flow, intensity or the density of the mist produced by fog generator；Power switch, for being turned on and off electronics fireplace implement；And remote control, for controlling electronics fireplace implement to run.In some related embodiments, electronics fireplace implement also includes control knob, and control knob is arranged at the position that user can contact at the one of electronics fireplace implement, to control the volume for crack the combustion of wood sound played by loudspeaker.

In some related embodiments, electronics fireplace implement also includes level switch, and level switch is provided in the lower section in siege region, and alarm signal is sent for level monitoring and when water level is less than predeterminated level.In some related embodiments, electronics fireplace implement also includes electric fan, and the electric fan is arranged on the lower section in siege region, the siege region for mist to be blown to electronics fireplace implement.

In some embodiments, the method for simulation log firewood fireplace described herein may include following steps：Water is provided for the fog generator on electronics fireplace；Convert the water to include the mist of water droplet by fog generator；Spray is guided to the siege region comprising artificial firewood；At least one light source is provided for siege region, to illuminate the mist in artificial firewood neighboring area, risen so as to simulate the flame flashed from artificial firewood, and crack combustion of wood sound is played from the loudspeaker of electronics fireplace, crack combustion of wood sound and the phototiming of at least one light source projects, the visual effect of flame to flash is supplemented, according to the luminous intensity synchronous change of the light source.

In some related embodiments, the above method can further comprise the steps：At least part mist is discharged above artificial firewood, the effect of the cigarette discharged with the firewood simulated from burning.In some related embodiments, the above method can further comprise the steps：Guiding light illuminates artificial firewood at least in part, and the artificial firewood includes the material for the light that reflecting part is irradiated on artificial firewood.

In some related embodiments, the above method can further comprise the steps：When detecting the water level in electronics fireplace less than a predeterminated level, automatically turn off electronics fireplace and produce alarm.In some related embodiments, the above method also includes receiving the control signal being turned on and off from remote control, and the electronics fireplace is performed at once or after a predetermined time to be turned on and off acting.In some related embodiments, the above method also include according to one be used for indicate for the characteristic of mist required by change control signal, adjustment fog generator produce mist amount, rank or density.

In some embodiments, the device for the firewood of simulated combustion includes：Artificial firewood；Separable water tank, the separable water tank that can be removed from device is used to provide liquid for device；Ultrasonic fog generator, ultrasonic fog generator includes vibrating mass, and vibrating mass is connected with separable water tank, for causing the vibration of supersonic frequency in liquid, so as to produce mist；The side that mist passage is arranged on ultrasonic fog generator is led, the mist produced at least capture portion simultaneously guides mist to close to artificial firewood；At least one light source, it includes the light emitting diode for being arranged at the position for illuminating the mist close to artificial firewood（LED）The flame flashed produced with the artificial firewood of simulated combustion；And loudspeaker, driven by electronic signal, to cause the loudspeaker to play crack combustion of wood sound.

These general and specific technologies can be with use device, method, system, or device, method or system, and any combinations of method and system are realized.The following is the specific descriptions to one or more embodiments in the accompanying drawings.Other feature, aspect and advantage will be become apparent by specification, drawings and claims.

Brief description of the drawings

Fig. 1 shows a kind of electronics fireplace implement；

Fig. 2 shows the part of the electronics fireplace implement；

Fig. 3 shows the multiple basic modules for the back box that can form the electronics fireplace implement；

Fig. 4 shows the bottom plate and two supporting plates of the electronics fireplace implement；

Fig. 5 shows two fixed on the supporting plate slide rails；

Fig. 6 shows the control plate module of the electronics fireplace implement；

Fig. 7 shows the control plate module on the right side of bottom plate；

Fig. 8 shows the optical generator drive component of electronics fireplace implement；

Fig. 9 shows the optical generator drive component installed in left plate；

Figure 10 shows that the left plate for installing optical generator drive component is arranged on the schematic diagram on the left of bottom plate；

Figure 11 shows the backboard and loudspeaker assembly of the electronics fireplace implement；

Figure 12 shows the schematic diagram that backboard is connected with bottom plate；

Figure 13 shows the front side board of the electronics fireplace implement；

Figure 14 shows the schematic diagram for the sliding panel for being fixed on front side board；

Figure 15 shows that bottom and slide rail install annex；

Figure 16 shows that other slide rails being installed at the top of bottom install annex；

Figure 17 shows the bottom for being installed on sliding panel；

Figure 18 shows the wire cover of the electronics fireplace implement；

Figure 19 shows " lid to lid " female junction block in wire cover；

Figure 20 shows the electric fan at the top for being installed on wire cover；

Figure 21 is shown including electric wire set, and the electric fan and the module of clip being installed on sliding panel；

Figure 22 shows the fog generator part of the electronics fireplace implement；

Figure 23 shows the fog generator part being connected with PCB (printed circuit board (PCB)) plate；

Figure 24 shows " lid to lid " positioned at the bottom of fog generator part；

Figure 25 shows the top of fog generator part；

What Figure 26 showed the electronics fireplace implement leads mist passage；

What Figure 27 showed the tank top for being installed on fog generator part leads mist passage；

Figure 28 shows the water container for another tank top for being installed on fog generator part；

Figure 29 shows the component on electric wire caping, comprising water container, fog generator part and leads mist passage；

Figure 30 shows that Figure 29 component is inserted into Figure 12 component；

Figure 31 shows the top plate of back box；

Figure 32 shows the cover plate for covering LED module；

What Figure 33 showed the bottom side installed in top plate leads mist lid；

Figure 34 shows the top plate being installed at the top of front side board and backboard, to encapsulate the back box of the electronics fireplace implement；

Figure 35 shows the step of simulating log firewood fireplace by electronics fireplace.

Embodiment

In the following description, word is " exemplary " is used to be denoted as example, example or explanation.Any embodiment here depicted as " exemplary " is designed without necessary being interpreted as preferred or more preferable than other embodiments or design.On the contrary, being intended to illustrate a specific mode using word exemplary.

Fig. 1 shows a kind of electronics fireplace according to an exemplary embodiment.Fig. 2 shows some parts on electronics fireplace in Fig. 1.The top that fireplace in Fig. 1 is included in artificial firewood 120 and a back box 130, back box 130 is used to support artificial firewood 120 as siege region 110.Except artificial firewood, the siege region can include other decoration elements, such as artificial charcoal 140.In operation, electronics fireplace implement 100 can be with the outward appearance and sound of the firewood of simulated combustion, and imitates the smog sent from the firewood of burning.Electronics fireplace implement 100 can include at least one light source 150（Such as LED light generator, fluorescent lamp, high-intensity discharge lamp, incandescent lamp etc.）With the fog generator 160 of the inside of the housing positioned at electronics fireplace implement（Also referred to as water fog generator）.The fog generator can receive the water from water container 165 and produce small water droplet, so as to form mist.Mist can move outwardly and into support the siege region 110 of artificial firewood 120.One or more light sources produce light, and light illuminates the mist around artificial firewood 120 and siege region 110.The fiery image of the mist simulated combustion firewood being illuminated around artificial firewood 120 and siege region 110.

In some embodiments, light source 150 may move, and the light that the shift position of light source makes to be incident upon on mist produces flicker effect to imitate the fire of flicker burning.Alternately, light source 150 can have reflective optical system, thus it is possible to vary their shape.The change in shape of reflective mirror may also cause the flicker effect of the flame of mist imitation flicker.Light source 150 may include the light source for launching the light of different colours.For example, light source 150 can include yellow and red light source, to imitate the yellow and RED sector of combustion flame.

The electric fireplace implement can further comprise the loudspeaker 170 for playing crack burn wood sound.In certain embodiments, the sound played by loudspeaker 170 can be synchronous with the light intensity of the light source 150 of electronics fireplace implement 100, for example, when light source 150 increases luminous intensity, loudspeaker 170 can synchronously increase volume.Similarly, when luminous intensity is reduced, volume can also be reduced synchronously.

Because mist is constantly mobile with changing shape, the mist in artificial firewood neighboring area truly simulates the combustion flame flashed.In certain embodiments, electronics fireplace may include for driving mist to the electric fan 167 of artificial firewood 120.In some other embodiments, the electronics fireplace implement 100 can continuously generate mist, due to the reason of the pressure differential of mist, and mist is pushed to the region of artificial firewood 120.Fiery image of the firewood sound of the burning of crack in Pi by loudspeaker 170 further to flicker burning is supplemented, the traditional log firewood fireplace of truer simulation.

Electronics fireplace implement may include a level switch 166, the water level for detecting water receptacle 165.When the water of water receptacle is finished, electronics fireplace implement 100 can close fog generator 160 automatically and send alarm sound（For example, sending alarm sound by loudspeaker 170）.The electronics fireplace implement 100 can include a mist flow control member 162（For example, driver plate or button）To adjust the output of fog generator 160, to control the flow of the mist around artificial firewood 120 and siege region 110.

In certain embodiments, electronics fireplace implement 100 can include a mist sensor 164, the density for detecting mist.For example, mist sensor 164 can be the steam detector of rank for detecting mist or density.Fog density information can be used come the amount of the mist produced by automatically controlling in the electronics fireplace.For example, when fog density level reaches threshold value, the mist maker 160 of electronics fireplace implement 100 can automatically reduce or stop producing fog.When the level of density of mist is less than threshold value, electronics fireplace implement 100 can recover or increase automatically generation mist.

The electronics fireplace implement 100 may include power switch 180, to open and close electronics fireplace implement 100.Electronics fireplace implement 100 can further comprise a receiver of remote-control sytem 185 and remote control 187.User can use remote control 187 to start or close electronics fireplace implement 100.User can also use remote control 187 to arrange the operation of electronics fireplace implement 100.For example, user can indicate that the device was closed after 4,6,8, or 10 hours by remote control 187.Similarly, user can indicate that the device was opened after 4,6,8, or 10 hours by remote control 187.

In certain embodiments, the operating voltage of electronics fireplace implement 100 can be within the scope of 110V to 220V alternating voltages.Electric energy needed for electronics fireplace implement 100 can be provided by battery, or be powered by power outlet.Operation temperature can be between 0 degree Celsius to 40 degrees Celsius.It can be that electronics fireplace implement 100 continuously provides enough water at least in 24 hours that one, which is completely filled with the water receptacle of water,.

In certain embodiments, the electronic unit of electronics fireplace implement 100（For example, light source 150, mist maker 160, loudspeaker 170 etc.）It can be controlled by a control panel 190.Control panel 190 can provide operation of the required voltage and current to various electronic units and control electronic unit.In the implementation of some replacements, the electronic unit of electronics fireplace implement 100 can set independent control panel to control electronic unit respectively respectively.These control panels can be electrically connected with each other with transmission state and control signal, and provide operating voltage and electric current.

In certain embodiments, water receptacle 165（Also referred to as water tank）It is placed in electronics fireplace implement 100.Water receptacle 165 can be split from electronics fireplace implement 100（For example, separation）To supplement water.Water receptacle after fractionation can be by slide rail guided-moving.

According to embodiment disclosed by the invention, one or more evaporations or ultrasonic technology, or evaporation and the combination of ultrasonic wave, available for generation mist.In some embodiments, fog generator 160 using a piezoelectric transducer to induce the mechanical oscillation of the water in water receptacle, to produce the particle of mist.In an illustrative embodiments, piezoelectric transducer connection is connected with metallic membrane, metallic membrane is vibrated in water with ultrasonic frequency, and produce small water droplet.Small water droplet quietly leaves generator with mist.In some exemplary realizations, electronics fireplace implement 100 may include for blowing air to deliver to mist into the electric fan of artificial firewood neighboring area.In some other embodiments, electronics fireplace implement 100 includes heater block, for heating water, to cause or accelerate water evaporation to form mist into small water droplet.In some other embodiments, the water-absorbing core being made of porous materials or water suction filter core can be used in fog generator 160, water droplet is nebulized for absorbing moisture and evaporation water.Alternately, fog generator 160 may include a heating element to heat water and discharge steam and moisture into air.

Impurity（Such as mineral matter from hard water）It can be deposited with pathogen in fog generator.In some illustrative embodiments, fog generator can depart to clean from electronics fireplace.Alternately, the disposable of deposition that fog generator can include being used to reduce dirt removes mineral matter water tank.

The back box 130 of the electronics fireplace implement 100 can be broken down into multiple basic modules.Fig. 3 shows to be made up of the back box of electronics fireplace multiple basic modules according to an exemplary embodiment.As shown in the drawing.Back box may include preceding track module 202, control plate module 204, optical generator drive module 206, furnace roof module 208, bottom module 210 and fog generator module 212.

In some embodiments, back box includes bottom plate and the support plate positioned at back box both sides, and support plate is used to support one or more slide rails.Right panel and left panel are connected with bottom plate.Spray amount control knob and at least one switch may be mounted on one of plate, be easy to user to set the predetermined amount of flow rank or density of mist.Optical generator drive component is fixed on left panel, such as including, top shell, cover plate, optical generator driver and bottom shell.Loudspeaker assembly can be arranged on backboard.Backboard is connected as the bonnet of back box with bottom plate.

In some embodiments, front side board and a sliding panel link together, and are used as the supporting construction of detachable member.The setting purpose of detachable member is to allow user to split out detachable member from back box to supplement water or cleaned.Detachable member includes being used for water is converted into tiny water droplet producing the fog generator part of mist, and water container and leads mist passage.By front side board, detachable member can be skidded off easily from electronics fireplace.User can unload detachable member by sliding in and out, and clean the hard water deposit or mineral matter of accumulation.Then, user can keep the skin wet and detachable member is slipped into electronics fireplace implement.

In some exemplary embodiments, top plate is used as the top cover of back box.The top side of top plate is used as siege region to support artificial firewood.Top plate, which has, to be used to guide mist to the fog outlet in siege region.In the present embodiment, fog outlet is disposed on top plate and close to the narrow rectangular slot of wherein one end of top plate.Fog outlet will be by fog generator module 212（See Fig. 3）The mist of generation is guided to siege region.In some exemplary embodiments, the bottom side of LED module and top plate is connected there is provided light as in the illumination of the mist in siege region, and jointly, simulated logs are burnt and the flame flashed of generation.The building block of back box will be described in detail in the paragraph relevant with Fig. 3-31 below.

Fig. 4 shows the bottom plate and two supporting plates according to the electronics fireplace of one embodiment.Supporting plate 12A and 12B are arranged on bottom plate 14 and fixed by screw.Fig. 5 shows that two slide rails are fixed in supporting plate.Slide rail 18A and 18B can pass through screw connection to supporting plate 12A and 12B.

Fig. 6 shows the control plate module according to one embodiment.Plate module 20 is controlled to include right plate 22.Two circuit boards 24 and 26 are arranged on right plate 22 by screw.Circuit board 24 and 26 controls the integrated operation of electronics fireplace implement, including fog generator and LED module circuit.Spray amount control knob 28 and two switches 30 and 32 are arranged on right plate 22.Switch 30 and 32 can be, for example, being used as fog generator and the ON/of LED/light source.Fig. 7 shows the control plate module 20 in Fig. 6, and it is arranged on the right side of bottom plate 14.

Fig. 8 shows optical generator actuator assembly 34.Optical generator actuator assembly 34 includes top shell 36, lid 38, optical generator driver 40 and bottom shell 42.Optical generator actuator assembly 34 is fixed by screw.Optical generator driver 40, also referred to as electronic-controlled installation or ECG, for providing light source by exporting appropriate voltage and current（For example, LED module）.In some implementations, optical generator driver 40 can include high speed transistor switch, be applied to the voltage level of light source component by pulse width modulation for adjusting.For example, a light emitting diode can be operated in the electric current environment of 2.83.5V voltage level and 1100 milliamperes.Optical generator driver 40 can also include a microprocessor or other electronic circuits, make generation control signal, and pulse and appropriate waveform are to driving light source.Optical generator driver 40 can provide extra function, for example, dim, PFC, or suppress Radio frequency interference.

Fig. 9 shows that the optical generator actuator assembly 34 in Fig. 8 is arranged on the state of left plate 44 by screw.Figure 10 shows state of the optical generator actuator assembly 34 in fig .9 installed in the left side of bottom plate 14.

Figure 11 shows the backboard and loudspeaker assembly of the electronics fireplace according to an exemplary embodiment.Loudspeaker assembly 46 is connected to the inner side of backboard 48.Figure 12 shows the backboard 48 being connected with bottom plate 14.The intermediate region of right plate 22 and left plate 44 can accommodate water receptacle and fog generator.

Figure 13 shows the front side board 50 of the electronics fireplace according to an exemplary embodiment.Figure 14 shows the sliding panel 52 for being fixed on front side board 50 of the electronics fireplace according to an exemplary embodiment.The size of sliding panel 52（For example, height and width）Match with slide rail 18A and 18B so that front side board 50 and sliding panel 52 can disassemble to supplement water or cleaned from the remainder of back box.

Figure 15 is shown installs annex according to the bottom and slide rail of the electronics fireplace of an exemplary embodiment.Slide rail is installed annex 54 and is arranged in bottom 56.Figure 16 shows the light socket 58 on the top for being installed on bottom 56.Light socket 58 electrically connects and supported the light source of electronic wall furnace interior with light source.Figure 17 shows the bottom 56 on sliding panel 52.

Figure 18 shows wire cover.The electric wire of the inner most of the wire cover overlay electronic fireplace, makes water and mist not to corrode electric wire.Female junction block 61 is arranged on the inside of the guide rail of wire cover 60, electric connector is can be inserted into socket 61.Wire cover 60 can be made up of plastics, metal, polymer or other materials.Figure 19 shows that lid 62 is covered on the female junction block 61 being installed in wire cover 60.Lid 62 protects female junction block 61 not corroded by fog.Figure 20 shows the electric fan 64 installed in the top of wire cover 60.Mist is blown into the siege region of electronics fireplace by a passage by electric fan 64.Two clips 66A and 66B are arranged on wire cover 60.Figure 19 shows the module for including wire cover 60, and electric fan 64 and clip 66A and 66B are arranged on sliding panel 52.Figure 21 shows at least one light source 63 installed in the top of light socket 58.Light source 63 provides light for the top of electronics fireplace.In some utilizations, light source 63 can be incandescent lamp bulb or compact fluorescent lamp（CFL）Bulb, light is incident upon on the mist in siege region of fireplace implement.The device can further comprise the other light sources being projected at light on the artificial firewood in siege region（For example, LED）.

Figure 22 shows a fog generator part 68.Public junction block 70 is connected with fog generator part 68.Male junction block 70 is designed to the female junction block 61 inserted on wire cover 60.Figure 22 further illustrates the hole 69 as wind path.The wind produced by electric fan reaches siege region by wind path 69.Due to blowing so that mist is moved in siege region for wind, therefore the cigarette of simulated fireplace.Figure 23 shows the PCB being connected with fog generator part 68（Printed circuit board (PCB)）Plate 70A and 70B.Pcb board 70A and 70B are used to control fog generator and level switch.Figure 24 shows the lid 72 for the bottom for being covered in fog generator part 68.

Figure 25 shows the top of fog generator part 68.Fog generator part 68 includes two connected water tanks 74 and 75, and water can be flowed freely between water tank 74 and water tank 75.Level switch 76 is arranged on water tank 74.When the water level of water tank 74 is less than predetermined level, level switch 76 sends an electric signal to electronics fireplace.Two clips 78A and 78B are arranged on the ear of fog generator part 68.In some embodiments, electronics fireplace implement may include one, two or any number of water tank.

Figure 26, which is shown, leads mist passage 80.Figure 27, which is shown, leads mist passage 80 installed in the top of the water tank 74 of fog generator part 68.The water of water tank 74 is converted into vaporific small water droplet by fog generator part 68.Mist passes through the siege region led mist passage 80 and enter electronic wall stove.Therefore, leading mist passage 80 guides mist to siege region, and this is the position that fireplace is expected to produce cigarette.In certain embodiments, electronics fireplace may include it is more than one lead mist passage, the diverse location for the mist of generation to be delivered to siege region.It may be designed as matching with the structure of specific artificial firewood for example, leading mist passage.In such embodiment, by adjusting or manipulating by leading mist passage（It can spray mist from bottom or enter siege region from one or more sides）Mist direction or rank, can more realistically simulate the fireplace of firewood combustion.

Figure 28 shows the water container 82 at the top of the water tank 85 installed in fog generator part 68.Water container 82 can be separated from fog generator part 68.User can be separated after water container 82 to the supplement water of water container 82.In some embodiments, water container 82 can clean or use dishwasher with hand.If dirt is gathered in water container 82, it can be cleaned by using dishwasher or by hand.

Figure 29 shows the component for being installed on the top of wire cover 60, and the component is comprising water container 82, fog generator 68 and leads mist passage 80.After the component is installed, the ventilating opening of electric fan 64 is towards water tank 74.Electric fan 64 blows the mist produced in fog generator 68 and passes through the siege region for leading mist passage entrance electronics fireplace after 80s.

Figure 30 shows the schematic diagram that Figure 12 component is inserted in Figure 27 component.Sliding panel 52 inserts the space limited by slide rail 18A and 18B.When in the fully-inserted 18A and 18B of sliding panel 52, male junction block 70 is inserted into female junction block 61 of wire cover 60.

Figure 31 shows the top plate of the back box of the electronics fireplace according to an exemplary embodiment.The light source of the present embodiment is LED（Light emitting diode）Module 86A, 86B and 86C, it is arranged at the bottom side of top plate 84.LED module includes pcb board and the LED chip on pcb board.Pcb board may include additional component, such as resistor or Electro-static Driven Comb（ESD）Guard block.LED chip is to receive electric current and the semiconductor chip emitted beam from power supply.

Top plate includes multiple openings positioned at LED location, so that LED module can produce the top side that light reaches top plate 84 through opening.Serve as siege region to support artificial firewood in the top side of top plate 84.Top plate 84 also includes a fog outlet 88 mist is transported into siege region.In some embodiments, the same opening or different openings in top plate provide the light of mist and the mist in irradiation siege region simultaneously.The illumination of mist can be by controlling light source（Such as LED）Intensity, color, deflection and/or produced project stereoscopic angle are controlled.In certain embodiments, by controlling the make-and-break time of light, the order of throw light and/or the overlapping region of throw light, the analog simulation degree of artificial flame, smog and/or the firewood of burning is improved.

Figure 32 shows an exemplary lid 90 for covering LED module.Lid 90 causes LED module not corroded by water or water smoke.In some embodiments, lid 90 also serves as the radiating part of LED module（Also referred to as fin）.

Figure 33 shows that one that is installed on the bottom of top plate 84 exemplary is led mist lid 92.Leading mist lid 92, further guiding mist passes through fog outlet 88.Water tank 74, lead mist passage 80, lead mist lid 92 and fog outlet 88 constitute for make mist pass through with reach positioned at top plate 84 siege region on path.

Figure 34 is shown installed in the top of front side board 50 and backboard 48 with the top plate 84 for the back box 94 for encapsulating electronics fireplace.Top plate 84 is used to support artificial firewood as siege region.The mist of the inside generation of back box 94 reaches siege region through fog outlet 88.The light that LED module is provided is through opening 86A, and 86B, 86C reaches siege region, to illuminate the mist on artificial firewood periphery, the flame flashed of simulated combustion firewood.Except simulating the flame flashed, the mist in siege region also simulates the cigarette for the timber for carrying out spontaneous combustion.

In some embodiments, artificial firewood may include such material, and it can at least partly reflect the light sent by light source（For example：LED module etc.）, the visual effect of the firewood of simulated combustion.Artificial firewood for example may include trnaslucent materials or reflecting material.In some embodiments, artificial firewood itself may include one or more light sources being located in artificial firewood.In this embodiment, artificial firewood includes such material, and it can be such that at least one of light is transmitted from artificial firewood through the firewood material（For example, in the way of diffusion）.Alternately, or extraly, at least one additional light source can be that firewood or the mist for being distributed to siege region provide illumination in the space of the top plate more than 84 of electronics fireplace.Siege region may also include artificial charcoal.Similarly, artificial charcoal can also include absorption and reflecting part from light source（For example, LED module, fluorescent lamp, high-intensity discharge lamp, incandescent lamp etc.）The trnaslucent materials of the light sent, reaches the visual effect of similar burning charcoal, and surrounding is then surrounded by the mist institute simulated person work flame illuminated by LED module.

Figure 35 shows one group of operation of the fireplace that firewood combustion is simulated by electronics fireplace according to an exemplary embodiment.The water tank of electronics fireplace provides water to mist maker（3305）.Mist maker converts the water to vaporific small water droplet（3310）.

Air is blowed to mist and blows mist by the electric fan of electronics fireplace（3315）.The mist passage of leading of electronics fireplace guides mist to the siege region comprising artificial firewood（3320）.

Electronics fireplace includes at least one light source.Light source may include such as LED module.Light source provides light to siege region and goes to illuminate the mist in artificial firewood neighboring area（3325）, to simulate the flame flashed from artificial firewood.The some light that the trnaslucent materials reflection of artificial firewood is produced by optical generator（3330）, with the visual effect of the firewood of simulated combustion.

The loudspeaker of electronics fireplace（3340）The sound of crack burning firewood is played, it is engaged with the visual effect of the artificial firewood of burning.

Electronics fireplace can determine whether to receive control signal（3345）, such as the signal for being turned on and off electronics fireplace from remote control or TIP.Signal can control electronics fireplace and start or close at once or in the given time.According to control signal, electronics fireplace starts or closed（3350）.

Electronics fireplace can further determine whether that receiving the flow for indicating fog generator turns round the signal being struck（3355）.According to the signal, electronics fireplace adjusts the flow of the mist produced by fog generator, grade or density（3360）.

Electronics fireplace monitor may indicate that the water level in electronics fireplace（3365）.If the electronics fireplace judges that water level is less than predeterminated level（3370）, then electronics fireplace is closed automatically, and sends alarm（3375）.The electronics fireplace can further separate fog generator and water tank（3380）, for supplementing water or for cleaning.

Fig. 2 shows the system for being able to carry out the step of Figure 35 is described（For example, electronics fireplace implement 100）.The step of Figure 35, can carry out or merge progress simultaneously not necessarily in order in figure, two or more steps.

Various embodiments are disclosed in the present invention, it being understood, however, that, various modifications can be carried out on the premise of spirit and scope by the claims is not departed from.Therefore, other implementations are within the scope of the appended claims.

Claims (30)

1. a kind of electronics fireplace implement, it is characterised in that including：

Artificial firewood, is arranged on a siege region to imitate the outward appearance of log firewood；

One fog generator, is arranged on below the siege region, and is connected to a fog outlet to produce mist and with the mist produced by guiding to the neighboring area of the artificial firewood；

At least one light source, is arranged on below the siege region, with throw light to the mist in the neighboring area in the artificial firewood on, with the flame flashed of artificial firewood described in simulated combustion；And

One loudspeaker, for playing crack combustion of wood sound, the volume of crack the combustion of wood sound is synchronous with the light intensity of optical generator.

2. electronics fireplace implement as claimed in claim 1, it is characterised in that also include：

One back box, for encapsulating the fog generator, the light source and the loudspeaker, the top plate of the back box are used as the siege region for supporting artificial firewood, and the back box is comprising at least one for making the mist advance to the fog outlet in the siege region from the fog generator.

3. electronics fireplace implement as claimed in claim 1, it is characterised in that also include：

One water tank, for supplying water to the fog generator, the water tank is at least partially arranged in the back box and can supplement water from fog generator separation.

4. electronics fireplace implement as claimed in claim 1, it is characterised in that also include：

One optical generator drive circuit, is connected to the light source to control one or more light-emitting components of the light source.

5. electronics fireplace implement as claimed in claim 4, it is characterised in that the optical generator drive circuit includes a microprocessor, enabling produce the control signal for driving the light source, pulse and waveform.

6. electronics fireplace implement as claimed in claim 1, it is characterised in that the light source includes multiple light emitting diodes（LED）Module, its different angular transmission different colours light on the mist.

7. electronics fireplace implement as claimed in claim 1, it is characterised in that：

The light source includes multiple light-emitting components opened in the different time, and

The unlatching duration of at least one and the unlatching duration of another light-emitting component in multiple light-emitting components partly overlap.

8. electronics fireplace implement as claimed in claim 2, it is characterised in that also include：

At least one leads mist passage, is arranged at beside the fog outlet, to guide the mist to advance to the siege region for including the artificial firewood from the fog generator.

9. electronics fireplace implement as claimed in claim 8, it is characterised in that it is described lead mist passage by adjust the mist passed through in mist passage is led direction or rank to simulate real log firewood fireplace.

10. electronics fireplace implement as claimed in claim 1, it is characterised in that the artificial firewood includes a kind of material, it can make the light sent from light source by the artificial firewood reflection with the visual effect for the timber for reaching simulated combustion.

11. electronics fireplace implement as claimed in claim 1, it is characterised in that also include：

The artificial charcoal on siege region is arranged on, the artificial charcoal includes a kind of material, and it can be such that the light sent from light source is reflected by the artificial charcoal with the visual effect for the charcoal for reaching simulated combustion.

12. electronics fireplace implement as claimed in claim 1, it is characterised in that also include：

One control knob, the control knob is arranged at the position that the user of electronics fireplace implement can contact, to control flow, intensity or the density of the mist produced by fog generator；

One power switch, for being turned on and off the electronics fireplace implement；And

One remote control, the operation for controlling the electronics fireplace implement.

13. electronics fireplace implement as claimed in claim 1, it is characterised in that also include：

One control knob, the control knob is arranged at the position that the user of electronics fireplace implement can contact, to control the volume for crack the combustion of wood sound played by loudspeaker.

14. electronics fireplace implement as claimed in claim 1, it is characterised in that also include：

One level switch, it is arranged at the lower section in siege region, and alarm signal is produced for level monitoring and when water level is less than predeterminated level.

15. electronics fireplace implement as claimed in claim 1, it is characterised in that also include：

One electric fan, it is arranged on the lower section in siege region, the siege region for mist to be blown to electronics fireplace implement.

16. a kind of method for simulating log firewood fireplace, it is characterised in that comprise the following steps：

Fog generator for electronics fireplace provides water；

Convert the water to include the mist of water droplet by fog generator；

Mist is guided to the siege region comprising artificial firewood；

The light for illuminating the mist around artificial firewood is provided by multiple light sources for siege region, to simulate the flame flashed from artificial firewood, and

Crack the combustion of wood sound of the phototiming provided with least one light source is played from the loudspeaker of electronics fireplace, to supplement the visual effect of the flame flashed, the volume of crack the combustion of wood sound and the light intensity synchronous change of the light source.

17. method as claimed in claim 16, it is characterised in that also include：

At least part mist is discharged above artificial firewood, the effect of the cigarette discharged with the firewood simulated from burning.

18. method as claimed in claim 16, it is characterised in that also include：

Guiding light illuminates the artificial firewood at least in part, and the artificial firewood includes the material for the light that reflecting part is irradiated on artificial firewood.

19. method as claimed in claim 16, it is characterised in that also include：

When detecting the water level in electronics fireplace less than a predeterminated level, automatically turn off electronics fireplace and produce alarm.

20. method as claimed in claim 16, it is characterised in that also include：

The control signal being turned on and off from remote control is received, the electronics fireplace is performed at once or after a predetermined time to be turned on and off acting.

21. method as claimed in claim 16, it is characterised in that also include：

According to one be used for indicate for the characteristic of mist required by change control signal, adjustment fog generator produce mist amount, rank or density.

22. the device of the firewood for simulated combustion, it is characterised in that including：

Artificial firewood；

One separable water tank, for can be removed be connected to described device and provide liquid for described device;

One ultrasonic fog generator, it includes the vibrating mass for being connected to the separable water tank, for causing the vibration of supersonic frequency in liquid, so as to produce mist；

One leads mist passage, is arranged on the side of ultrasonic fog generator, and the mist produced at least capture portion simultaneously guides mist to close to artificial firewood；

At least one light source, it includes the light emitting diode for being arranged at the position for illuminating the mist close to artificial firewood（LED）The flame flashed produced with artificial firewood described in simulated combustion；And

One loudspeaker, is driven by an electronic signal, for making the loudspeaker play crack combustion of wood sound.

23. device as claimed in claim 22, it is characterised in that also include：

Water tank, for providing water for the ultrasonic fog generator, the water tank can separate to supplement water with the ultrasonic fog generator.

24. device as claimed in claim 22, it is characterised in that at least one light source includes multiple light emitting diodes（LED）, its different angle projection different colours light on the mist generated.

25. device as claimed in claim 22, it is characterised in that at least one light source includes multiple light emitting diodes opened in the different time（LED）, and multiple light emitting diodes（LED）In the unlatching duration of at least one and another light emitting diode（LED）Unlatching duration partly overlap.

26. device as claimed in claim 22, it is characterised in that also include：

One level switch, the level switch is arranged at the lower section in siege region, and alarm signal is produced for level monitoring and when water level is less than a predeterminated level.

27. device as claimed in claim 22, it is characterised in that also include：

One control knob, is arranged at the position that the user of electronics fireplace implement can contact, to control the volume for crack the combustion of wood sound played by loudspeaker.

28. device as claimed in claim 22, it is characterised in that the artificial firewood includes a kind of material, it can make the light sent from light source by the artificial firewood reflection with the visual effect for the timber for reaching simulated combustion.

29. device as claimed in claim 22, it is characterised in that also include：

The artificial charcoal on siege region is arranged on, the artificial charcoal includes a kind of material, and it can be such that the light sent from light source is reflected by the artificial charcoal with the visual effect for the charcoal for reaching simulated combustion.

30. device as claimed in claim 22, it is characterised in that it is described lead mist passage by adjust the mist passed through in mist passage is led direction or rank to simulate real log firewood fireplace.