CN105135352A - Simulating dynamic flame generating device - Google Patents

Abstract

The invention discloses a simulating dynamic flame generating device which can be applied to the fields of warmers, humidifiers, electric fireplaces, wall-hanging stoves and flame simulators, the field of landscape flame scene simulation and other fields. The simulating dynamic flame generating device specifically comprises a container, a fog generator, a light source and a simulating fuel element. The fog generator is contained in the container. The container is provided with a containing cavity and an opening part. The simulating fuel element is provided with a charcoal bed and multiple pieces of simulating charcoal laid on the charcoal bed. The charcoal bed is provided with a cavity, and a fog inlet and a fog outlet which are communicated with the cavity. The containing cavity is communicated with the fog inlet of the charcoal bed in a sealed mode through the opening part of the container. The light source irradiates fog flowing out of the fog outlet to generate the flame effect. Compared with the prior art, the simulating dynamic flame generating device has the advantages that the device is simpler in structure and quite convenient to assemble, and a user only needs to assemble and connect the charcoal bed and the container; when the device needs to be cleaned after being used for a period of time, the user can clean the charcoal bed, the container and the fog generator at any time by holding the simulating charcoal and detaching the charcoal bed quite conveniently.

Description

A kind of emulation dynamic flame generating means

Patent application of the present invention is the divisional application of Chinese Patent Application No. 201410636254.2, and the application number of original application is 201410636254.2, and the applying date is on November 13rd, 2014, and denomination of invention is a kind of emulation dynamic flame generating means.

Technical field

The present invention relates to flame generating device field, what be specifically related to is a kind of emulation dynamic flame generating means, it has, and structure is simple, cost is low and be convenient to the effects such as cleaning, and it can be applicable to the fields such as warmer, humidifier, electric fireplace, wall-hung boiler and flame simulator.

Background technology

The open a kind of emulation dynamic flame generating means of China Authorization Notice No. CN101883953B, it comprises fog generator, light source, independent mist holder and the device for stirring mist, this fog generator is for generation of the mist for using in the generation of flame effect, described light source can cooperate with described fog generator, thus light output is provided, described light output is directed to produced mist to produce the illumination of described mist, thus produces visible flame effect; Described mist holder has the import for receiving and assemble the mist produced by described fog generator, and described mist holder has at least one outlet for distributing mist; The described device for stirring mist is positioned at described mist holder to promote that mist passes through at least one outlet described.

So, fog generator is utilized to produce water smoke, under the effect of the device for stirring mist, produced water smoke is concentrated in mist holder, again by least one outlet outwards ejection for distributing mist, now under the irradiation of light source, simulated flame effect will be produced, the simulated flame effect that this simulated flame effect relies on reflecting piece to produce compared to tradition is more true to nature, on 3D effect, especially more allow consumer satisfaction.

But above-mentioned patented technology is in actual application, and it at least exists following defect:

One, owing to there is impurity unavoidably in water used in fog generator, assembly like this in use for some time, need to clean whole stove, under existing structure, it not only needs to pull down analog fuel element, the dismounting carrying out larger workload is still needed for the container holding the assembly such as fog generator, mist holder, bothers very much; Similarly, when manufacturing emulation dynamic flame generating means, also same exist the defect that assembling bothers, production efficiency is low.

Two, because the outlet of mist holder is all that the behind being positioned at analog fuel element is discharged, 3D flame effect can be produced again after the irradiation of light source, because flame is not discharged from analog fuel element, still there is difference with actual flame in flame actual effect like this, therefore also exists and improve space further.

In view of this, the present inventor, for the above-mentioned defect further investigation emulating dynamic flame generating means in prior art, has this case to produce then.

Summary of the invention

Main purpose of the present invention is to provide one emulation dynamic flame generating means, and to solve, prior art existence assembling bothers, production efficiency is low and be not easy to the problem of cleaning.

In order to reach above-mentioned purpose, solution of the present invention is:

A kind of emulation dynamic flame generating means, comprise container, fog generator, light source and analog fuel element, wherein, this fog generator is installed with in container, this container has cavity volume and opening portion, this analog fuel element has charcoal bed and is laid on some simulation charcoals on charcoal bed, this charcoal bed accessory has cavity and exports with the mist entrance of cavity connects and mist, cavity volume is communicated with the mist inlet seal of charcoal bed by the opening portion of this container, and this light source irradiation exports the mist of outflow to produce flame effect from mist.

Further, be formed with annular flange portion bottom this charcoal bed, this mist entrance is built by annular flange portion and forms, and this container has the sidewall vertically extended, this annular flange portion is connected with sidewall grafting, together with the outside wall surface of this lip portions and the internal face of sidewall seal and conflict.

Further, this container upper end portion is formed with grafting wall, and this grafting wall is plugged in mist entrance, together with the outside wall surface of this grafting wall and the inner peripheral of mist entrance seal and conflict.

Further, this grafting wall also has inclination and lead mist portion.

Further, this charcoal bed inside is also formed leads mist baffle plate, and this is led mist baffle plate and mist passage is led every molding in a part of space region of charcoal bed cavity, and this is led mist baffle plate one end and is connected to mist porch, and the other end is connected to mist exit.

Further, this charcoal bed inside is also provided with and takes out day with fog to be transferred fast from mist entrance by mist to mist outlet.

Further, this charcoal bed accessory has the first charcoal bed and the second charcoal bed, these some simulation charcoals have the first simulation charcoal be laid on the first charcoal bed and the second simulation charcoal be laid on the second charcoal bed, between this first charcoal bed and the second charcoal bed, interval is arranged to form mist passage, this light source was arranged on below mist passage, this mist entrance and mist outlet are formed on the first charcoal bed, and the outlet of this mist is connected with mistake mist passage.

Further, this first simulation charcoal and the second simulation charcoal overlap mutually.

After adopting said structure, the one emulation dynamic flame generating means that the present invention relates to, it produces mist by the fog generator in container, then mist can based on the low feature of autologous density, upwards freely-movable is to opening portion, because the opening portion of this container is communicated with the mist inlet seal of charcoal bed, mist will be discharged by mist outlet thus, under the irradiation of light source, produce flame effect.

Compared with prior art, structure of the present invention is simpler, assemble very convenient, charcoal bed is only needed to be connected with container assembly, and when using a period of time to need cleaning, only need to hold simulation charcoal charcoal bed to be disassembled and can clean charcoal bed, container and fog generator at any time, very convenient.

Accompanying drawing explanation

Fig. 1 the present invention relates to a kind of structural representation emulating dynamic flame generating means first embodiment.

Fig. 2 the present invention relates to a kind of structural representation emulating dynamic flame generating means second embodiment.

Fig. 3 the present invention relates to a kind of structural representation emulating dynamic flame generating means the 3rd embodiment.

Fig. 4 the present invention relates to a kind of structural representation emulating dynamic flame generating means the 4th embodiment.

Fig. 4 A is for the present invention relates to a kind of emulation dynamic flame generating means the 4th embodiment, the schematic diagram of people when cleaning it.

Fig. 5 the present invention relates to a kind of structural representation emulating dynamic flame generating means the 5th embodiment.

Fig. 6 the present invention relates to a kind of structural representation emulating dynamic flame generating means the 6th embodiment.

Fig. 7 the present invention relates to a kind of structural representation emulating dynamic flame generating means the 7th embodiment.

Fig. 8 the present invention relates to a kind of structural representation emulating dynamic flame generating means the 8th embodiment.

Fig. 9 the present invention relates to a kind of structural representation emulating dynamic flame generating means the 9th embodiment.

Figure 10 the present invention relates to a kind of structural representation emulating dynamic flame generating means the 9th embodiment.

In figure:

Container-1; Cavity volume-11; Opening portion-12;

Sidewall-13; Grafting wall-14; Tilt to lead mist portion-141;

Fog generator-2; Light source-3; Analog fuel element-4;

Charcoal bed-41; Cavity-411; Mist entrance-412;

Mist outlet-413; Second mist outlet-4131; Annular flange portion-414;

Lead mist baffle plate-415; First charcoal bed-416; Second charcoal bed-417;

Hollow hole-418; Take out day with fog-419; Simulation charcoal-42;

First simulation charcoal-421; Chamber-4211; First outlet-4212;

Second outlet-4213; Second simulation charcoal-422.

Detailed description of the invention

In order to explain technical scheme of the present invention further, below by specific embodiment, the present invention will be described in detail.

As shown in Figure 1, it is the present invention relates to a kind of structural representation emulating dynamic flame generating means first embodiment, this emulation dynamic flame generating means comprises container 1, fog generator 2, light source 3 and analog fuel element 4, for this fog generator 2, it can adopt the structural principle that prior art is the same, is not described in detail at this.

The feature of first embodiment of the invention is: this fog generator 2 is installed with in container 1, this container 1 has cavity volume 11 and opening portion 12, this analog fuel element 4 has charcoal bed 41 and is laid on some simulation charcoals 42 on charcoal bed 41, this charcoal bed 41 has cavity 411 and the mist entrance 412 that is communicated with cavity 411 and mist export 413, cavity volume 11 seals with the mist entrance 412 of charcoal bed 41 and is communicated with by the opening portion 12 of this container 1, and this light source 3 irradiates and exports 413 mists flowed out to produce flame effect from mist.In the present embodiment, annular flange portion 414 is formed bottom this charcoal bed 41, this mist entrance 412 is built by annular flange portion 414 and forms, this container 1 has the sidewall 13 vertically extended, this annular flange portion 414 is connected with sidewall 13 grafting, together with the outside wall surface of this lip portions and the internal face of sidewall 13 seal and conflict.

Like this, the one emulation dynamic flame generating means that the present invention relates to, it produces mist by the fog generator 2 in container 1, then mist can based on the low feature of autologous density, upwards freely-movable is to opening portion 12, be communicated with because the opening portion 12 of this container 1 seals with the mist entrance 412 of charcoal bed 41, mist will export 413 by mist and discharge thus, under the irradiation of light source 3, produce flame effect.

Compared with prior art, first embodiment of the invention structure is simpler, assemble very convenient, charcoal bed 41 is only needed to be connected with container 1 assembly, and when using a period of time to need cleaning, only need to hold simulation charcoal 42 charcoal bed 41 to be disassembled and can clean charcoal bed 41, container 1 and fog generator 2 at any time, very convenient.

As shown in Figure 2, it is the present invention relates to a kind of the second embodiment emulating dynamic flame generating means, it is substantially identical with the first embodiment in principle, be not described in detail at this, the difference of the second embodiment is, this container 1 upper end is formed with grafting wall 14, and this grafting wall 14 is plugged in mist entrance 412, together with the outside wall surface of this grafting wall 14 and the inner peripheral of mist entrance 412 seal and conflict.

As shown in Figure 3, it is the present invention relates to a kind of the 3rd embodiment emulating dynamic flame generating means, it is substantially identical with the second embodiment in principle, its difference is: this grafting wall 14 also has inclination and leads mist portion 141, so lead by this inclination the discharge efficiency that mist portion 141 can improve mist to a greater extent, improve the unlatching response speed of whole stove.

As shown in Figure 4, it is the present invention relates to a kind of the 4th embodiment emulating dynamic flame generating means, it is substantially identical with the first embodiment in principle, its difference is: this charcoal bed 41 inside is also formed leads mist baffle plate 415, this is led mist baffle plate 415 and mist passage is led every molding in a part of space region of charcoal bed 41 cavity 411, this is led mist baffle plate 415 one end and is connected to mist entrance 412 place, and the other end is connected to mist and exports 413 places.Lead the setting of mist baffle plate 415 by this, greatly can improve and lead mist efficiency, improve the unlatching corresponding speed of a stove.As shown in Figure 4 A, when cleaning, analog fuel element 4 is integrally mentioned, so there is the effect of being convenient to clean.

As shown in Figure 5, it is the present invention relates to a kind of the 5th embodiment emulating dynamic flame generating means, the difference of itself and the first embodiment is, this charcoal bed 41 has the first charcoal bed 416 and the second charcoal bed 417, these some simulation charcoals 42 have the first simulation charcoal 421 be laid on the first charcoal bed 416 and the second simulation charcoal 422 be laid on the second charcoal bed 417, between this first charcoal bed 416 and second charcoal bed 417, interval is arranged to form mist passage, this light source 3 was arranged on below mist passage, this mist entrance 412 and mist outlet 413 are formed on the first charcoal bed 416, this mist outlet 413 is connected with mistake mist passage.The flame of generation like this discharges completely from the first simulation charcoal 421 and the second simulation charcoal 422, has flame appreciation effect more true to nature.

As shown in Figure 6, it is the present invention relates to a kind of the 6th embodiment emulating dynamic flame generating means, it is substantially identical with the 5th embodiment, and its difference is: this first simulation charcoal 421 and the second simulation charcoal 422 overlap mutually, and then improve the appreciation effect of flame further.

As shown in Figure 7, it is the present invention relates to a kind of the 7th embodiment emulating dynamic flame generating means, it is substantially identical with the 4th embodiment, and its difference is: be also formed with hollow hole 418 bottom this charcoal bed 41, and the effect of weight reduction is played at this hollow hole 418 place.

As shown in Figure 8, it is the present invention relates to a kind of the 8th embodiment emulating dynamic flame generating means, it is substantially identical with the 7th embodiment, and its difference is: this leads mist baffle plate 415 with charcoal bed 41 is individual components, and this is led mist baffle plate 415 and is fixedly connected on charcoal bed 41.

As shown in Figure 9, it is the present invention relates to a kind of the 9th embodiment emulating dynamic flame generating means, it is substantially identical with the 8th embodiment, its difference is: can also be provided with further in charcoal bed 41 inside with by mist from mist entrance 412 transfer fast to mist outlet 413 take out day with fog 419, improve so further and lead fog effect, improve the actual appreciation effect of flame.

As shown in Figure 10, it is the present invention relates to a kind of the tenth embodiment emulating dynamic flame generating means, it is substantially identical with the 6th embodiment, its difference is: this charcoal bed 41 is also provided with the second mist outlet 4131, be formed with chamber 4211 in this simulation charcoal 42 and be communicated with chamber 4211 first export 4212 and second and export 4213, this first outlet 4212 is positioned at light source irradiation path place, this second outlet 4213 is positioned at and departs from light source irradiation path place, so be formed as 3D flame combustion at the first outlet 4212 places, then smog is formed as at the second outlet 4213 places.A mist outlet specifically also only can be set when implementing, namely allow mist only from the second mist outlet outwards ejection.

Above-described embodiment and graphic and non-limiting product form of the present invention and style, any person of an ordinary skill in the technical field, to its suitable change done or modification, all should be considered as not departing from patent category of the present invention.

Claims (8)

1. an emulation dynamic flame generating means, comprise container, fog generator, light source and analog fuel element, it is characterized in that, this fog generator is installed with in container, this container has cavity volume and opening portion, this analog fuel element has charcoal bed and is laid on some simulation charcoals on charcoal bed, this charcoal bed accessory has cavity and exports with the mist entrance of cavity connects and mist, cavity volume is communicated with the mist inlet seal of charcoal bed by the opening portion of this container, and this light source irradiation exports the mist of outflow to produce flame effect from mist;

This charcoal bed accessory has the first charcoal bed and the second charcoal bed, these some simulation charcoals have the first simulation charcoal be laid on the first charcoal bed and the second simulation charcoal be laid on the second charcoal bed, between this first charcoal bed and the second charcoal bed, interval is arranged to form mist passage, this light source was arranged on below mist passage, this mist entrance and mist outlet are formed on the first charcoal bed, and the outlet of this mist is connected with mistake mist passage.

2. a kind of emulation dynamic flame generating means as claimed in claim 1, it is characterized in that, annular flange portion is formed bottom this charcoal bed, this mist entrance is built by annular flange portion and forms, this container has the sidewall vertically extended, this annular flange portion is connected with sidewall grafting, together with the outside wall surface of this lip portions and the internal face of sidewall seal and conflict.

3. emulation dynamic flame generating means as claimed in claim 1 a kind of, it is characterized in that, this container upper end portion is formed with grafting wall, and this grafting wall is plugged in mist entrance, together with the outside wall surface of this grafting wall and the inner peripheral of mist entrance seal and conflict.

4. a kind of emulation dynamic flame generating means as claimed in claim 3, is characterized in that this grafting wall also having inclination and leads mist portion.

5. the one emulation dynamic flame generating means as described in any one of claims 1 to 3, it is characterized in that, this charcoal bed inside is also formed leads mist baffle plate, this is led mist baffle plate and mist passage is led every molding in a part of space region of charcoal bed cavity, this is led mist baffle plate one end and is connected to mist porch, and the other end is connected to mist exit.

6. the one emulation dynamic flame generating means as described in any one of claims 1 to 3, is characterized in that, this charcoal bed inside is also provided with takes out day with fog to be transferred fast from mist entrance by mist to mist outlet.

7. a kind of emulation dynamic flame generating means as claimed in claim 1, is characterized in that, this first simulation charcoal and the second simulation charcoal overlap mutually.

8. a kind of emulation dynamic flame generating means as claimed in claim 1, it is characterized in that, be formed with chamber in this simulation charcoal and export with first of chamber and second to export, this chamber is exported by mist and is connected with the cavity of charcoal bed, this first outlet is positioned at light source irradiation path place, and this second outlet is positioned at and departs from light source irradiation path place.