CN201636747U - Artificial flame simulating device of electric fireplace - Google Patents

Abstract

The utility model relates to an artificial flame simulating device of an electric fireplace, comprising a shell as well as an imaging screen, a secondary imaging screen, a light source, a light ray reflecting mechanism and an artificial fuel which are arranged in the shell. The artificial flame simulating device is characterized in that the artificial fuel is arranged in front of the imaging screen, the light ray reflecting mechanism is arranged between the artificial fuel and the imaging screen, the light source is arranged nearby one side of the imaging screen and is opposite to the light ray reflecting mechanism, a gap for ejecting reflected light emitted by the light ray reflecting mechanism is also formed between the imaging screen and the artificial fuel, the secondary imaging screen is positioned behind the imaging screen, and a gap is arranged between the secondary imaging screen and the imaging screen. Compared with the prior art, the imaging screen of the artificial flame simulating device is arranged behind the electric fireplace, the visible area of a hearth is expanded due to the open hearth design, and as the secondary imaging screen is simultaneously adopted, the artificial flame simulating device can visually obtain the better three-dimensional effect of artificial flame, thereby improving the dynamic and vivid effect of the flame.

Description

A kind of artificial flame simulation device of electric fireplace

Technical field

The utility model relates to a kind of electric fireplace equipment, particularly relates to a kind of artificial flame simulation device of electric fireplace.

Background technology

At present, emulational electric fireplace style on the market is various, because emulational electric fireplace is different from traditional fireplace, it is that electricity consumption realizes heating, and can produce the flame of a kind of plane emulation, therefore the heating function that not only has traditional fire, and can also reduce environmental pollution, keep ecological balance, certain decorative effect had simultaneously.Common artificial flame simulation device generally includes housing, be arranged on imaging screen, imaging source and light processing equipment in the housing, by light processing equipment with ray cast that imaging source came out to imaging screen, form dynamic simulation flame with optical visual effect.

For example, application number is arranged is 200710069143.8 patent of invention " a kind of stereo flame simulation electric fireplace " to disclosed patent in the prior art, application number is that the Chinese invention patent " flame simulation device of electric fireplace " of 200810062312.X and application number are 200710070201.9 Chinese invention patent " flame simulating assembly of band reflection type infrared heater " etc., the disclosed emulation flame attachment of above-mentioned patent application document all has a common ground, no matter be one imaging screen of employing or twice imaging screen, generally light source and light processor are separately positioned on the both sides of imaging screen, this makes imaging screen all be arranged between imaging light projection surface and the observer, so, imaging screen has stopped the viewing area of burner hearth, make the depth size decreases of burner hearth, have influence on the degree true to nature of flame simulation effect, and the installation of light source and light processor and replacing inconvenience, when needs are changed or keep in repair, to remove imaging screen simultaneously; The flame imitation device that also has some can obtain better simulate effect in the prior art, but the equipment of this class device is formed complex structure, production cost height, is unfavorable for promoting the use of; In addition, imaging screen of the prior art has quite a few directly to adopt transparent or semitransparent material, these transparent or semitransparent material ordinary circumstances can only be selected the transparent or semitransparent glass or the material of plastic material, partly or entirely the light processing mechanism is placed on the rear of imaging screen, the user can be fully or is indistinctly seen the light processing mechanism, has lost the authenticity and the mystique of flame.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of can increase the visual degree of depth of burner hearth effectively and obtain the electric fireplace artificial flame simulation device of better simulated effect at the present situation of prior art, this artificial flame simulation device simple in structure, install and be provided with more convenient.

The utility model solves the problems of the technologies described above the technical scheme that is adopted: the artificial flame simulation device of this a kind of electric fireplace, comprise housing, and be arranged on imaging screen in this housing, the secondary imaging screen, light source, light reflecting mechanism and emulation fuel, it is characterized in that: described emulation fuel is arranged on the place ahead of described imaging screen, described light reflecting mechanism is arranged between described emulation fuel and the described imaging screen, described light source is arranged near described imaging screen one side and towards described light reflecting mechanism, also be formed with the space that to penetrate for the reverberation that described light reflecting mechanism sends between described imaging screen and the described emulation fuel, described secondary imaging screen is positioned at the rear of described imaging screen, leaves the gap between this secondary imaging screen and the described imaging screen.

In order to enrich simulated effect, make analogue means more near the effect after the reality burning, as preferably, described housing includes base plate, be set with the emulation fuel bed on this base plate, form a cavity between described emulation fuel, imaging screen and the described emulation fuel bed, described light reflecting mechanism is contained in the described cavity.The emulation fuel bed can be made charcoal ash shape and effect, cooperates emulation fuel can simulate more real combustion efficiency.

For the ease of processing and raising imaging effect, described imaging screen is translucent plastic tab, this plastic tab can obtain by drawing process, with low cost, also be provided with decorative pattern by the moulding of colored printing art at the back side of this imaging screen, owing to adopt the colored printing technology, can avoid the stiff and relief defective of shortage by the pattern of single color printing art acquisition, obtain better stereoeffect.Because imaging source directly projects to the imaging screen front after the light processing mechanism is handled, make the observer feel that flame simulating similarly is that send the front (as the pattern of emulation burner hearth brick wall) of front, particularly decorative pattern at imaging screen, solved former technology ray cast fully at the imaging screen back side, sensation flame simulating picture is in the problem at the imaging screen back side.

As preferably, described secondary imaging screen and described housing are one-body molded.So part light is radiated at the imaging screen back side by translucent imaging screen, part light then is radiated on the secondary imaging screen through translucent imaging screen in addition; In addition, because imaging screen and secondary imaging are shielded both near being provided with, and light source and light reflecting mechanism all are the same sides that is positioned at imaging screen, the space of burner hearth is to open wide fully, the former technology of comparing, can increase the visual depth of burner hearth effectively, improve the vivid effect of flame simulation to a certain extent.

In order to increase third dimension, make emulation flame more true to nature, as preferably, also be provided with at least one emulation charcoal piece on the described emulation fuel, described emulation charcoal piece is stacked on the described emulation fuel.

Described light processing mechanism can adopt various light processing mechanism of the prior art, and as preferably, described light reflecting mechanism comprises motor and by the reflection organization of this motor-driven rotation.The reflection organization of rotation has increased the dynamic effect of emulation flame.

The manufacturing and the assembling of each parts for convenience, as further preferred, described reflection organization comprises the connecting rod and the reflective brush that is arranged on the described connecting rod periphery wall by described motor-driven rotation.

Described light source can adopt light, energy-conservation LED lamp group, and this LED lamp group is fixedly connected on the described imaging screen, and the brightness of LED lamp and/or color can be under the controls of program and change, and make that the effect of flame simulation is more true to nature.

Compared with prior art, the utility model has been abandoned traditional special-purpose imaging screen, and imaging screen is arranged on the rear of electric fireplace, and cooperates the simulation process of imaging screen and actual environment for use, makes the more true to nature of flame change; And, adopted the chamber design of open type, expanded the viewing area of burner hearth, adopted the secondary imaging screen simultaneously, can be from visually obtaining better emulation flame stereoeffect; Especially imaging source and light processing mechanism are arranged in emulation fuel and the formed cavity of housing, have improved the dynamic vivid effect of flame, saved the energy; Simultaneously, features simple structure of the present utility model, compactness, reasonable are easy to the industrialization manufacturing.

Description of drawings

Fig. 1 is the image-forming principle schematic diagram of the utility model embodiment one;

Fig. 2 is the perspective view of the utility model embodiment one;

Fig. 3 is the image-forming principle schematic diagram of the utility model embodiment two;

Fig. 4 is the perspective view of the utility model embodiment two.

The specific embodiment

Embodiment describes in further detail the utility model below in conjunction with accompanying drawing.

Embodiment one, referring to Fig. 1, shown in Figure 2:

This artificial flame simulation device that is used for electric fireplace includes the open type housing, this housing includes rear wall and base 1, be provided with emulation fuel 2, emulation charcoal piece 21, emulation fuel bed 22, imaging screen 3, secondary imaging screen 4, light source 5 and light reflecting mechanism in the housing, wherein, housing can be made as multiple structure as required, be preferably the design of open type housing, such housing is convenient to the moulding of emulation fuel 2, emulation charcoal piece 21 and emulation fuel bed 22 and art up, makes the collocation between emulation fuel 2, emulation charcoal piece 21 and the emulation fuel bed 22 have more third dimension.

Wherein, 3 of imaging screens are arranged on the place ahead of secondary imaging screen 4, leave certain clearance between imaging screen 3 and the secondary imaging screen 4, secondary imaging screen 4 can be one-body molded with the rear wall of housing, rear wall is a part that constitutes housing, has the function of projection imaging simultaneously concurrently, so, the visual range of housing inner cavity chamber is bigger, can obtain better visual effect.

Imaging screen 3 adopts translucent plastic tab, the back side of this imaging screen 3 is provided with decorative wall pattern (pattern of brick modelled after an antique), add man-hour, imaging screen 3 can be printed on pre-designed decorative wall pattern on the plastic sheet base material by the colored printing art, again through cutting, folding plastic sheet is made into required shape, because the printing element that adopts is a plastics sheet materials, is easy to obtain by drawing process, and is with low cost; Imaging screen 3 also can adopt the plastic uptake base material, at first pre-designed decorative pattern is printed on the plastic uptake base material by the colored printing technology, the plastic sheet that will print pattern by plastic uptake technology is made into required stereoeffect again, is cut into required shape at last and gets final product.

Emulation fuel bed 22 is used for the charcoal ash behind the simulated combustion, in order to strengthen simulated effect, emulation fuel bed 22 can be fixedly installed obliquely along base 1, in order further to strengthen the third dimension of flame combustion, adopt a bulk of emulation charcoal piece 21 to be placed on the emulation fuel 2 in the present embodiment, the outer wall of emulation fuel 2 and emulation charcoal piece 21 can become multiple shape by simulation making, can adopt polylith emulation charcoal piece 21 to be stacked on the emulation fuel 2 with all size, perhaps emulation charcoal piece 21 and emulation fuel 2 are designed to one-body moldedly, and then emulation fuel 2 are fixedly installed on the emulation fuel bed 22; So, form a circumferential cavity 9 between emulation fuel 2, emulation fuel bed 22 and the imaging screen 3, light source 5, light reflecting mechanism are contained in respectively in this cavity 9, also are formed with the space 1 ' that can penetrate for the reverberation that the light reflecting mechanism sends between imaging screen 3 and emulation fuel 2.

The light source 5 that imaging is used adopts the LED lamp group of energy-conserving and environment-protective, this LED lamp group is positioned at cavity 9 and is fixed on the imaging screen 3, the irradiation of light that LED lamp group emits is to the light processing mechanism, scatter in the whole cavity 9 simultaneously and emulation fuel 2, emulation charcoal piece 21, emulation fuel bed 22, imaging screen 3 and secondary imaging screen 4 on.

The light reflecting mechanism then comprises motor 6, reflective brush 7, wherein, reflective brush 7 is a reflection organization, the surface has reflection function, its structure comprises connecting rod 71 and a plurality of reflecting components 8 that fixedly install on the connecting rod 71 and be arranged side by side, connecting rod 71 links to each other with the output shaft of motor 7, and reflection organization is arranged in the cavity 9 and is positioned at the below of LED lamp group.

During use, power-on, LED lamp group is lighted, and LED lamp group light shines on the reflective brush 7, and light also scatters in the whole cavity 9 simultaneously, on the imaging screen 3, in the emulation fuel 2 and on the emulation fuel bed 22; Motor 7 work, driving connecting rod 71 rotates, the reflective brush 7 that is serially connected on the connecting rod 71 rotates together, the light that is radiated on the reflective brush 7 produces random scatters light in rotation process, partial reflection light by the space 1 ' between imaging screen 3 and the emulation fuel 2 be radiated on the imaging screen 3, on the emulation fuel bed 22, on emulation fuel 2 and the emulation charcoal piece 21, partial reflection light sees through translucent imaging screen 3 again and shields 4 direct imagings through secondary imaging, with the light superposition in front, the simulated effect that the flame of generation levels are rich burns previously at imaging screen 3.

So, reflex to imaging screen 3 and secondary imaging screen on 4 light just formed raging flames, shine irregular light on the emulation fuel bed 22 and then formed the flare of curling wriggling, this flare backward, upwards wriggle and emulation fuel 2, emulation charcoal piece 21 and imaging screen 3, flame on the secondary imaging screen 4 combines together, make the simulated effect of the flame that obtains that third dimension more be arranged, Ru Dong light is also from emulation fuel 2 simultaneously, flickering ground printthrough is come out in the wood grain of emulation charcoal piece 21 or the slit, make the burning of emulation fuel 2 and emulation charcoal piece 21 vivid more, effect is more true to nature.

Embodiment two, referring to Fig. 3, Fig. 4:

The basic composition structure of present embodiment two and embodiment one is identical, both differences are, emulation fuel bed 22 is not set in the housing of present embodiment, only be provided with emulation fuel 2 and emulation charcoal piece 21, emulation fuel 2 and the outer wall of emulation charcoal piece 21 can be taked the production method identical with embodiment one, can adopt the polylith emulation charcoal piece 21 with all size to be stacked on the emulation fuel 2, perhaps emulation charcoal piece 21 and emulation fuel 2 are designed to one-body molded;

Emulation fuel 2 in the present embodiment is a bulk of arc part that is positioned at imaging screen 3 front portions, and, form a cavity 9 ' between the base plate 1 of emulation fuel 2, imaging screen 3 and housing, light source 5 and light reflecting mechanism directly are contained in this cavity 9 ', similarly are formed with the space 1 ' that can penetrate for the reverberation that the light reflecting mechanism sends between imaging screen 3 and emulation fuel 2.

The operation principle of present embodiment is identical with embodiment one, does not give unnecessary details at this.

Claims (8)

1. the artificial flame simulation device of an electric fireplace, comprise housing, and be arranged on imaging screen in this housing, the secondary imaging screen, light source, light reflecting mechanism and emulation fuel, it is characterized in that: described emulation fuel is arranged on the place ahead of described imaging screen, described light reflecting mechanism is arranged between described emulation fuel and the described imaging screen, described light source is arranged near described imaging screen one side and towards described light reflecting mechanism, also be formed with the space that to penetrate for the reverberation that described light reflecting mechanism sends between described imaging screen and the described emulation fuel, described secondary imaging screen is positioned at the rear of described imaging screen, leaves the gap between this secondary imaging screen and the described imaging screen.

2. the artificial flame simulation device of electric fireplace according to claim 1, it is characterized in that: described housing includes base plate, be set with the emulation fuel bed on this base plate, form a cavity between described emulation fuel, imaging screen and the described emulation fuel bed, described light reflecting mechanism is contained in the described cavity.

3. the artificial flame simulation device of electric fireplace according to claim 1, it is characterized in that: described imaging screen is translucent plastic tab, and the back side of this imaging screen also is provided with the decorative pattern by the moulding of colored printing art.

4. the artificial flame simulation device of electric fireplace according to claim 1 is characterized in that: described secondary imaging screen and described housing are one-body molded.

5. the artificial flame simulation device of electric fireplace according to claim 1, it is characterized in that: also be provided with at least one emulation charcoal piece on the described emulation fuel, described emulation charcoal piece is stacked on the described emulation fuel.

6. according to the artificial flame simulation device of the described electric fireplace of arbitrary claim in the claim 1～5, it is characterized in that: described light reflecting mechanism comprises motor and the reflection organization that is rotated by this motor-driven.

7. the artificial flame simulation device of electric fireplace according to claim 6 is characterized in that: described reflection organization comprises by the connecting rod of described motor-driven rotation and is arranged on reflective brush on the described connecting rod periphery wall.

8. the artificial flame simulation device of electric fireplace according to claim 1 is characterized in that: described light source is to be fixedly connected on the described imaging screen and LED lamp group that brightness and/or color can change.

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