CN101118039A - Apparatus for simulating flames with reflection type infrared heater - Google Patents

Abstract

The present invention provides a flame simulating device, which comprises a hexahedron casing, a simulation hearth which is arranged on the middle-front part of the casing, an image formation screen which is arranged in the center place of the inner casing, a dynamical flame shaped light beam producing component arranged behind the image formation screen, and an infrared ray heater with a reflecting cover. The front face of the hexahedron casing is transparent, and directs to the user for looking at the simulated flame; the infrared ray heater uses radiation to transfer the heat, and concentrates the heat. The dynamical flame shaped light beam producing component is a rotating luminous tube, which can produce the flame shaped light beam, the image is formed on the reverse side of the image formation screen, and transmitted on the front surface of the image formation screen, along with the rotating of the luminous tube, the flame shaped image rises slowly as a real flame. Meanwhile, the infrared ray heater transfers the heat by radiation, thereby giving people a real feeling like around the fire place.

Description

The flame simulating assembly of band reflection type infrared heater

Invention field

The present invention relates to a kind ofly can simulate real flame, and the real flame hotness is arranged, with the flame simulating assembly of reflective heating element, can be applicable to electric fireplace, electric fire with improved internal and other need the product of simulating flames.

Background of invention

Traditional FIREPLACES AND STOVES is burning wooden carbon or a wood, and cost is high owing to solve gas that the burning back produces and cigarette ash complexity, simulate traditional FIREPLACES AND STOVES electricity fireplace and electric fire with improved internal so more and more is subjected to people's favor.Known flame simulating assembly is dim blower fan heating plants of combined electrical all generally, this device sucks air from each ventilating opening, through heating after-blow to indoor, time one is long, many dusts can be inhaled into and be blown back indoor without any processing, the health Jiankang that is unfavorable for the user as disclosing a kind of flame simulating assembly that is applied in the electric fireplace in the Chinese patent application numbers 200310122956.0, has comprised a dim blower fan of electricity.For addressing this problem, Chinese patent application numbers 200610008599.9 provide one comprise filter flame simulating assembly, but the textural anomaly complexity and needs frequent demolition clean, very inconvenient, noise during the dim fan operation of electricity is bigger, and flame combustion mainly is a radiant heat transfer, and human body sensory is more comfortable, utilize electric dim blower fan sensuously also uncomfortable for the dim people of giving, do not meet actual stove fire heat transfer type yet, simulating flame true to nature again, what give the people sensuously still is false.Tradition flame is intended device and is adopted common bulb luminous, not energy-conservation, and flame forms is more inflexible, single, so it is simpler to need a kind of structure, noise is low, can not contain dust, energy-conserving and environment-protective, and the flame simulating assembly of realistic simulation real flame heat transfer type more to indoor blowing out.

Summary of the invention

The present invention relates to a kind ofly can to simulate real flame, and the real flame hotness is arranged, with the flame simulating assembly of reflective heating element, this apparatus structure is simple, and noise is low, energy-conserving and environment-protective and can be to the indoor air that contains dust that blows out.The present invention can make fireplace or stove do thinlyyer owing to simple in structure, takies the interior space still less, and range of application is wider.

For solving the above-mentioned technical problem of mentioning, the present invention adopts technical scheme as follows:

A kind of flame simulating assembly comprises

1, hexahedron shell

2, simulated hearth

3, near the imaging screen in the middle of placing in the shell

4, place the dynamic flare shape light beam generation component of imaging screen back

5, place at least one reflection type infrared heater of shell top or bottom

As preferably, described heater utilizes radiant heat transfer for the infrared heater of band reflector, need not blower fan, so can not suck dust and blow back indoor, good for health and need not the air filtering system of complexity; And utilize radiant heat transfer, more comfortable on the human body sensory; Utilize radiant heat transfer in addition, need not blower fan, not only structure is simpler, and cost is low, and can effectively reduce noise; Heater is equipped with anti-scald barrier simultaneously, to prevent unexpected the scald.

It is characterized in that dynamic flare shape light beam generation component is one or more fluorescent tubes, surface coverage is one deck light-proof material at least, but leave at least one flare shape loophole, and rotate by motor-driven, the shape of loophole also can triangle, rhombus or other irregular polygons or irregular curve shape.

As preferably, described fluorescent tube rotates, and two metal support axles are respectively two electrodes of fluorescent tube simultaneously, the bolster of lamp tube ends is connected with two graphite electrodes respectively, the two ends graphite electrode then links to each other with power line respectively, constitutes the loop, so as when fluorescent tube to rotate continued power.Two end electrodes all is with insulation sleeve, and fixedly on the two stands, two stands is individually fixed in rear wall, or bottom or both sides respectively.Motor is connected with the wherein bolster of an end of fluorescent tube by material (as rubber tube) flexible and insulation, insulate between motor and the bolster.The reason of selecting graphite electrode for use is because its electric conductivity excellence not only, but also and lubrication is arranged, the noise that sends in the time of effectively reducing the bolster rotation.

As preferably, all light sources all adopt LED or EL light-emitting component, have energy-conserving and environment-protective, and the characteristics that the life-span is long can be sent out the light of different colours as required, and can also glimmer, and multiple flicker is arranged, as quickflashing, dodge slowly, bounce flash, it is gradually dark to get brighter etc.

As preferably, simulated hearth is by base, positive transparent toughened glass, imaging screen, the enclosure space that top and two sides surround, base is made by translucent plastic, under be placed with at least one LED ruddiness flashing light, it is gradually dark to get brighter, and places at least one block of emulation wood on it, makes rived wooden shape and color by translucent plastic equally, hollow, at least one at least one LEDs ruddiness flashing light of the wooden placement of emulation, it is gradually dark to get brighter, and forms carbon fire flicker effect.

As preferably, its imaging screen base material is a dark transparent mirror surface glass, be cigarette and smoke look, the front is a minute surface, front first half spraying or sandblast become translucent scattering surface, positive the latter half has reflecting surface, and emulation wood or wooden carbon can image in this, and send the centre that can make flame look like or wooden carbon wooden from emulation; Back side the latter half frosted or sandblast or spraying make it into translucent, the first half then makes it opaque by sandblast or spraying, translucent portion is the flamboyancy that blazes, and translucent portion and opaque do not have tangible boundary line, be by translucent carry out the transition to gradually opaque.Light beam imaging of flare shape and flamboyancy translucent portion that dynamic flare generation component transmitted, and be transmitted to the front, move from lower to upper, see promptly from the front to rise up slowly as true flare.And the flame in the reality is because the rising of thermal current, it is middle high forming flame, both sides are low, the purpose that translucent portion is the flamboyancy that blazes promptly is this, only allow the interior flare shape light beam in this zone to see through, when flare shape light beam imaged in zone of opacity above translucent portion, the observed person did not see.

The invention has the advantages that the infrared heater that adopts the band reflector, need not blower fan, can be to the indoor dust that blows out, having save the flash element in the traditional product reaches or reflecting element or light transmission cylinder etc., save the flame effect screen, simple in structure, be easy to produce, production and after service cost are low, can also do thinlyyer, to save valuable space, range of application is wider, can be applicable to general family or hotel or other places that needs, also can not install, be worth of widely use even reserve the installation site originally.

Brief description

For operation principle of the present invention is described better, accompanying drawing is as follows:

Fig. 1 is the three-dimensional effect diagram of this device

Fig. 2 is the structure cutaway view of this device

Fig. 3 is the structure chart of the dynamic flare shape of the generation of this device component light beam

Fig. 4 is the imaging screen perspective view of this device

Fig. 5 is the imaging screen reverse side front view of this device

Preferred embodiment describes in detail

Fig. 1 is stereoscopic figure of the present invention, its shell 12 by positive 2, the back side 4, on push up 1, go to the bottom 2 and side 5 form, front transparent grp 7, base 10, imaging screen 8 and side panel 5 surround enclosure space and form emulation burner hearth 21 (see figure 2)s, base 10 is placed with the wooden or wooden carbon 3 of emulation, positive 2 top or under anti-scald barrier 11 is housed.

In conjunction with Fig. 1 and Fig. 2 as can be seen, emulation burner hearth 21 surrounds enclosure space by front transparent grp 7, base 10, imaging screen 8 and side panel 5 and forms, wooden or the wooden carbon of base 10 and emulation 3 is made by translucent plastic, the base below is placed a LED lamp 23 at least, at least place a LED lamp in emulation wooden unit or the wooden carbon, the LED lamp can glimmer and get brighter gradually dark, and with the flicker of simulation carbon fire, existing product LED flashing light can satisfy above requirement.The back of emulation burner hearth is fixed with imaging screen 8.Infrared heater is equipped with in the bottom 211 of this device, because heater 25 and reflector 24 are formed.Certainly, infrared heater also can be contained in top 26, perhaps in the bottom 211 or top 26 infrared heater all is housed.

In conjunction with Fig. 1 and Fig. 2 as can be seen, dynamically flare shape light beam generation sub-component is a round lamp tube 311, surface of the light tube 314 is coated with opaque material, leave several flare shape loopholes 312, the light-emitting component of fluorescent tube is a LED lamp pearl, it is gradually dark to glimmer and get brighter, so that the flare shape light beam that produces can be flickering, the flame that simulation is come out is more true to nature.Motor 33 drives fluorescent tube 311 by rotation, and the spark-like light beam projects on the imaging screen 8 from printing opacity, moves along with fluorescent tube 311 rotates from the bottom up, because the LED lamp can glimmer, get brighter gradually dark and can send different colours, see from the front fluid as what rise slowly, the dynamic flame that color is true to nature.Certainly fluorescent tube also can other be irregularly shaped.

In conjunction with Fig. 2 and Fig. 3 as can be seen, lamp tube ends bolster 35,39 (also being respectively the two poles of the earth of fluorescent tube simultaneously) links to each other with two graphite electrodes 314,315,314,315 of two ends graphite electrodes link to each other 30,31 respectively with power line, constitute the loop, so that can continued power when fluorescent tube rotates.Two end electrodes all is with insulation sleeve 34,38, and fixedly on the two stands 37,310, two stands is individually fixed in rear wall 4, or bottom 29 respectively.Motor 33 is connected with the bolster 35 of a wherein end of fluorescent tube by material 32 (as rubber tube) flexible and insulation, insulate between motor and the bolster, and motor is fixed on the support 36.

What Fig. 4 showed is the front of imaging screen 8, and 41 is non-echo area, and 42 is the echo area, and what Fig. 5 showed is the reverse side of imaging screen 8, and 51 is non-transparent area, and 52 is translucent areas.The base material of imaging screen 8 is dark transmissive mirror surface glass, positive non-echo area is to make its translucent fringe area through frosted or sandblast or spraying, but still have a function of transmitted light, can transmission send and image in the flare shape light beam of its reverse side from dynamic flare generation sub-component.Non-transparent area 51, translucent areas 52 all form through frosted or sandblast or spraying.Non-transparent area 51 can stop that unwanted light is transmitted to the front, makes emulation flame seem truer.

More than be that preferred example of the present invention is described in detail, can not be interpreted as it is restriction to protection scope of the present invention, every change of carrying out on basis of the present invention that does not have substantial improvements is replaced, and all is scopes of the present patent application protection.

Claims (19)

1. flame simulating assembly comprises:

1) hexahedron shell

2) simulated hearth

3) near the imaging screen in the middle of placing in the shell

4) place the dynamic flare shape light beam generation component of imaging screen back

5) place at least one anti-infrared heater of shell top or bottom

2. flame simulating assembly according to claim 1, it is transparent it is characterized by the hexahedron outer casing frontispiece, promptly faces toward user's one side, so that the user watches simulating flame.

3. flame simulating assembly according to claim 1 is characterized in that being that dynamic flare generation component is one or more fluorescent tubes, and surface coverage is one deck light-proof material at least, but leaves at least one flare shape loophole, and is rotated by motor-driven.The shape of loophole also can triangle, rhombus or other irregular polygons or irregular curve shape.

4. flame simulating assembly according to claim 3, it is characterized in that fluorescent tube rotates, two metal support axles are respectively again two electrodes of fluorescent tube simultaneously, the bolster of lamp tube ends is connected with two graphite electrodes respectively, the two ends graphite electrode then links to each other with power line respectively, constitute the loop, so as when fluorescent tube to rotate continued power.Two end electrodes all is with insulation sleeve, and fixedly on the two stands, two stands is individually fixed in rear wall, or bottom or both sides respectively.Motor is connected with the wherein bolster of an end of fluorescent tube by material (as rubber tube) flexible and insulation, insulate between motor and the bolster.

5. flame simulating assembly according to claim 4, the LED or the EL luminous tube that are characterized as its fluorescent tube and are by circuit control, can be sent out the light of different colours as required, and can also glimmer, and multiple flicker is arranged, as quickflashing, dodge slowly, bounce flash, it is gradually dark to get brighter etc.

6. flame simulating assembly according to claim 1, it is characterized by simulated hearth is by base, positive transparent toughened glass, imaging screen, the enclosure space that top and two sides surround, base is made by translucent plastic, under be placed with at least one LED ruddiness flashing light, it is gradually dark to get brighter, and places at least one block of emulation wood on it, makes rived wooden shape and color by translucent plastic equally, hollow, at least one at least one LEDs ruddiness flashing light of the wooden placement of emulation, it is gradually dark to get brighter, and forms carbon fire flicker effect.

7. flame simulating assembly according to claim 6, it is characterized by and also can place emulation wood carbon on the emulation burner hearth base, make the shape and the color of wooden carbon by translucent plastic, can make hollow equally, can select wherein at least one emulation wood carbon to placing a LEDs ruddiness flashing light, it is gradually dark to get brighter, and forms carbon fire flicker effect.

8. flame simulating assembly according to claim 1 is characterized by infrared heater and has reflector.

9. flame simulating assembly according to claim 8 is characterized by infrared heater and is microscler lamellar, and its length is less than the shell width of shell.

10. flame simulating assembly according to claim 9, the cross section that it is characterized by the reflector of infrared heater is trapezoidal, circular arc also can be triangle or other polygons.

11. flame simulating assembly according to claim 10, the opening that it is characterized by infrared heater are outwardly, promptly towards the user.

12. flame simulating assembly according to claim 11 is characterized by at least two grades of infrared heaters or above adjustable power, perhaps is electrodeless adjusting.

13. flame simulating assembly according to claim 12 is characterized by infrared heater temperature controller is housed, and when built-in temperature surpasses the setting temperature, can cut off the power supply of heater automatically.

14. whether flame simulating assembly according to claim 13 is characterized by infrared heater at least one indicator lamp of panel, heating in order to instruction heater.

15. flame simulating assembly according to claim 14, it is characterized by the infrared heater front portion has barrier.

16. flame simulating assembly according to claim 1 is characterized by motor, light source and heater and can cross the control circuit interlock, when promptly the heater power output increased, intensity of light strengthened thereupon, the also corresponding quickening of the rotary speed of motor.After the start, intensity of light slowly is enhanced to setting intensity; Motor speed also is slowly to be enhanced to the setting rotating speed.

17. flame simulating assembly according to claim 1, it is characterized by light and heater can work alone separately, has only both all to be in open mode and just can link.

18. flame simulating assembly according to claim 1, the switch and the intensity adjuster that it is characterized by light and heater can be manual, also can make remote control, and perhaps both have concurrently.

19. flame simulating assembly according to claim 1, it is characterized in that its imaging screen base material is a dark transparent mirror surface glass, be cigarette and smoke look, the front is a minute surface, front first half spraying or sandblast become translucent scattering surface, positive the latter half has reflecting surface, back portion frosted or sandblast or spraying make it into translucent, top then makes it opaque by sandblast or spraying, the Lower Half transparent part is the flamboyancy that blazes, translucent portion and hyalomere do not have tangible boundary line, be by translucent carry out the transition to gradually opaque.

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