CN215982354U - Luminous mechanism for forming simulated three-dimensional flame - Google Patents
Luminous mechanism for forming simulated three-dimensional flame Download PDFInfo
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- CN215982354U CN215982354U CN202122460393.2U CN202122460393U CN215982354U CN 215982354 U CN215982354 U CN 215982354U CN 202122460393 U CN202122460393 U CN 202122460393U CN 215982354 U CN215982354 U CN 215982354U
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Abstract
The utility model provides a light-emitting mechanism for forming simulated three-dimensional flame, which is arranged in a simulated three-dimensional flame device; the light-emitting mechanism comprises a light source and a light blocking cover used for gathering light rays of the light source; the light source is arranged at the periphery or the middle of the mist outlet of the simulated three-dimensional flame device; the light blocking covers are respectively arranged on each light source in a surrounding mode, or the light blocking covers are arranged on the light sources in the same row in a surrounding mode, so that light beams emitted by the light sources are intensively irradiated on fog sprayed from the fog outlet, light rays emitted by the fog outlet are refracted and formed by the fog, and dynamic flame is formed. The light-emitting mechanism for forming the simulated three-dimensional flame can effectively collect light rays, has good light-emitting effect, ensures that the simulation degree of the simulated three-dimensional flame formed by irradiating the light rays on the fog is high, and realizes that the sprayed simulated three-dimensional flame is more vivid and lifelike.
Description
Technical Field
The utility model relates to the technical field of simulated flames, in particular to a light-emitting mechanism for forming simulated three-dimensional flames.
Background
Some artificial flame devices are available on the market to replace traditional candles, whose function is not limited to lighting, but also to decorative and ambiance-enhancing functions, such as: simulated fireplaces, simulated electronic candles, and the like. These artificial flame devices have an effect similar to lighting devices having a flame shape, and are widely used because they do not generate any exhaust gas and do not have any safety hazard.
The existing flame simulating device can only emit light and at most emit music, is low in ornamental value and cannot meet the pursuit of people at present. At the present stage, some simulated flame devices with a smoke effect are also generated, and the simulated flame devices irradiate on the mist generated after the liquid is atomized through a light-emitting mechanism to form simulated flames. However, since the light emitting effect of the light emitting mechanism is an important factor for forming the simulated flame, how to improve the light emitting effect of the light emitting mechanism so that the simulated flame formed on the irradiated mist has high simulation degree and vivid image is a direction to be researched at present.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects in the prior art and provide a light-emitting mechanism for forming simulated three-dimensional flame; the light-emitting mechanism can effectively collect light rays, has good light-emitting effect, ensures that the simulation degree of the simulated three-dimensional flame formed by irradiating the light rays on the fog is high, and realizes that the sprayed simulated three-dimensional flame is more vivid.
In order to achieve the purpose, the utility model is realized by the following technical scheme: a luminous mechanism for forming a simulated three-dimensional flame is characterized in that: is arranged inside the simulated three-dimensional flame device; the light-emitting mechanism comprises a light source and a light blocking cover used for gathering light rays of the light source; the light source is arranged at the periphery or the middle of the mist outlet of the simulated three-dimensional flame device; the light blocking covers are respectively arranged on each light source in a surrounding mode, or the light blocking covers are arranged on the light sources in the same row in a surrounding mode, so that light beams emitted by the light sources are intensively irradiated on mist sprayed from the mist outlet.
In the above scheme, the light source of the light-emitting mechanism of the utility model is arranged around or in the middle of the mist outlet of the simulated three-dimensional flame device, and the light blocking cover concentrates the light of the light source, so that the light beam emitted by the light source is concentrated and irradiated on the mist sprayed from the mist outlet. Because the light is concentrated, the dynamic flame effect is good, the simulation degree is high, and the sprayed simulated three-dimensional flame is more vivid and lifelike.
The fog outlet is square, and the light sources are arranged on two sides of the square fog outlet;
or the fog outlet is annular, and the light source is arranged on the inner side, the outer side or the inner side and the outer side of the annular fog outlet;
or the fog outlet is circular, and the light source is arranged on the periphery of the circle.
The light sources at the two sides of the square mist outlet are arranged in a staggered manner. The design can compensate the lighting effect, so that the color of the simulated three-dimensional flame can simulate the color of the real flame, and the simulation of the three-dimensional flame is more vivid.
Lamp bead light sources on two sides of the square fog outlet are respectively orange and warm white; or the lamp bead light sources on the two sides of the square fog outlet are respectively orange and blue. The design can enable the color of the simulated three-dimensional flame to simulate the color of real flame, wherein the lamp bead light sources on the two sides are respectively orange and warm white and can be simulated as the color of traditional flame, and the lamp bead light sources on the two sides are respectively orange and blue and can be simulated as blue flame.
The utility model also includes a circuit board; the circuit board is electrically connected with the light source. The circuit board adopts a waterproof circuit board on the market.
The light blocking covers are respectively arranged on each light source in an enclosing mode: the light blocking cover is provided with lamp cups with the same number as the light sources, and each lamp cup is respectively arranged on each light source in an enclosing way.
The lamp cup comprises a body and a mounting pin convenient for mounting the body; the mounting foot is connected with the body. The lamp cup is arranged around the light source through the body of the lamp cup, so that light rays of the light source are emitted upwards in a concentrated mode.
The lamp cup also comprises a drainage pin for preventing backflow water generated by fog from falling to the light source; the mounting feet and the drainage feet are uniformly distributed along the circumferential direction of the body and are connected with the body;
the mounting foot is longer than the drainage foot, and both the mounting foot and the drainage foot are connected with the inner wall of the body; the side of drainage foot and installation foot all sets up to the inclined plane of being convenient for the drainage of falling flowing water. During operation, the water flowing backwards generated by the fog can be directly and sequentially discharged along the inner wall, the inclined plane and the mounting foot/the drainage foot of the body, so that the water flowing backwards is prevented from directly dripping to the light source, and the service life of the light-emitting mechanism is prolonged.
The light blocking covers are arranged on the same row of light sources in a surrounding mode, namely: the light blocking cover is a strip-shaped cover body which is arranged on the light sources in the same row in an enclosing mode.
And a distance is reserved between the light source and the flame spraying port at the top of the simulated three-dimensional flame device. The design of the space can ensure that the simulation degree of the simulated three-dimensional flame formed by the light rays irradiated on the fog is high.
Compared with the prior art, the utility model has the following advantages and beneficial effects: the light-emitting mechanism for forming the simulated three-dimensional flame can effectively collect light rays, has good light-emitting effect, ensures that the simulation degree of the simulated three-dimensional flame formed by irradiating the light rays on the fog is high, and realizes that the sprayed simulated three-dimensional flame is more vivid and lifelike.
Drawings
FIG. 1 is an exploded view of a light emitting mechanism of the present invention;
FIG. 2 is a schematic view of a lamp cup in the light mechanism of the present invention;
FIG. 3 is a schematic view of the interior of a simulated three-dimensional flame apparatus with a light emitting mechanism of the present invention;
wherein, 1 is a light source, 2 is a lamp cup, 3 is a circuit board, 4 is a body, 5 is a mounting pin, 6 is a drainage pin, 7 is an inclined plane, 8 is an opening, 9 is a base, 10 is a water storage tank, 11 is a mist accumulation cavity, 12 is a flame spraying port, 13 is an outer cover, 15 is a micropore atomizing sheet, 16 is a water absorption rod, 17 is a battery, and 18 is a mist outlet.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
Example one
As shown in fig. 1 to 3, the light emitting mechanism for forming the simulated three-dimensional flame of the present invention is disposed inside the simulated three-dimensional flame device; the light-emitting mechanism comprises a light source 1 and a light blocking cover used for enabling light rays of the light source 1 to be gathered, wherein the light blocking cover is a lamp cup 2, the light sources 1 are arranged into two rows and arranged at the periphery of a fog outlet 18 of the simulated three-dimensional flame device, and the lamp cup 2 is respectively arranged on each light source 1 in a surrounding mode, so that light beams emitted by the light sources 1 are intensively irradiated on fog sprayed out of the fog outlet 18.
Specifically, the mist outlet 18 is square, and the light sources 1 are arranged in two rows on both sides of the square mist outlet 18. The light sources 1 on both sides of the square mist outlet 18 are arranged in a staggered manner, and the distance between the light sources 1 is 10mm, wherein the light source 1 on one side is an orange light source, and the light source 1 on the other side is a warm white light source (namely a yellow light source). The design ensures that the color of the simulated three-dimensional flame can simulate the color of the real flame, and the simulation of the three-dimensional flame is more vivid. The light source color matching of the present embodiment can be set according to actual requirements, for example, the light source 1 on one side is an orange light source, and the light source 1 on the other side is a blue light source, so that blue flames can be simulated.
The utility model also comprises a circuit board 3 electrically connected with the light source 1, the circuit board 3 is provided with an opening 8 opposite to the fog outlet 18 of the simulated three-dimensional flame device, and the light source 1 is arranged on the circuit board 3 and is arranged at the periphery of the fog outlet 18. The circuit board 3 of the present embodiment is a commercially available waterproof circuit board.
The number of the lamp cups 2 is equal to that of the light sources 1, and each lamp cup 2 is arranged on the circuit board 3 and surrounds each light source 2. Every lamp cup 2 includes body 4, installation foot 5 and is used for preventing the refluence water that fog produced from dropping to the drainage foot 6 of light source 2, and wherein, installation foot 5 and drainage foot 6 are connected with body 4 along body 4's circumference evenly distributed, and body 4 sets up on circuit board 3 through installation foot 5. The utility model ensures that the light of the light source 1 is emitted upwards in a concentrated manner by surrounding the body 4 of the lamp cup 2 on the periphery of the light source 1.
This installation foot 5 is longer than drainage foot 6, and installation foot 5 and drainage foot 6 all with the interior wall connection of body 4, drainage foot 6 and the side of installation foot 5 all set up to the inclined plane 7 of being convenient for the drainage of flowing water. During operation, the water flowing backwards generated by the fog can be directly and sequentially discharged to the circuit board 3 along the inner wall of the body 4, the inclined surface 7 and the mounting pin 5/the water discharging pin 6 so as to prevent the water flowing backwards from directly dropping to the light source 1, and therefore the service life of the light-emitting mechanism is prolonged.
In order to ensure that the simulation degree of the light irradiating on the fog to form the simulated three-dimensional flame is high, a distance of 14mm is arranged between the light source 1 of the embodiment and the flame spraying port 12 at the top of the simulated three-dimensional flame device.
The simulated three-dimensional flame device of the embodiment further comprises a battery 17, a base 9, a mist generating mechanism arranged in the base 9 and an outer cover 13 connected with the base 9, wherein a mist collecting cavity 11 is arranged inside the outer cover 13, a mist outlet 18 is an outlet of the mist collecting cavity 11, the mist generating mechanism is communicated with the mist collecting cavity 11, a circuit board 3 of the light-emitting mechanism is arranged on the mist collecting cavity 11, and an opening 8 of the circuit board 3 is opposite to the mist outlet 18 of the mist collecting cavity 11. The battery 17 is connected to the mist generating mechanism through a circuit board and supplies power to the light emitting mechanism. The top of the outer cover 13 is provided with a flame port 12 opposite to the mist outlet 18, and the mist in the mist accumulation cavity 11 can be sprayed out from the mist outlet 18, the opening 8 and the flame port 12 in sequence. When the simulated three-dimensional flame device works, the light-emitting mechanism is arranged on the mist accumulation cavity 11 through the circuit board 3, light beams of the light-emitting mechanism are intensively irradiated on mist sprayed out of the mist outlet 18, and light rays are refracted by the mist to form dynamic flame and are sprayed out of the flame spraying port 12, so that the simulated three-dimensional flame device can vividly and realistically present the flame swaying effect in the combustion process.
The circuit board 3 of the present embodiment may be in various forms, and only needs to be electrically connected to the light source 1. For example: the circuit board 3 can be two or more circuit boards arranged on the mist accumulation cavity 11, and the circuit boards in the mode can be arranged around the mist outlet 18 without opening.
The mist generating mechanism of the simulated three-dimensional flame device comprises a micropore atomizing sheet 15 arranged in a mist accumulation cavity 11, a water absorbing rod 16 and a water storage tank 10 arranged at the bottom of a base 9, wherein one end of the water absorbing rod 16 extends into the water storage tank 10, and the other end of the water absorbing rod is connected with the micropore atomizing sheet 15. The working principle of the microporous atomizing sheet 15 in this embodiment is as follows: the frequency and the working voltage of the microporous atomizing sheet 15 are both relatively small, so that the microporous atomizing sheet does not need to be placed in water for working, the atomizing work is carried out by spraying through the middle micropores, the water absorbing rod 16 is fixed in the water storage tank 10, the middle aperture of the microporous atomizing sheet 15 is fixed on the water absorbing rod 16, water is absorbed through the water absorbing rod 16 by electrifying the circuit of the microporous atomizing sheet, and the atomizing effect is formed through the microporous atomizing sheet 15. The microporous atomizing sheet 15 of the present invention is a mature product available in the market, which is the prior art.
Example two
The present embodiment is different from the first embodiment only in that: the light blocking cover of the embodiment is a strip-shaped cover body which is arranged on the circuit board and surrounds the light sources in the same row. The light blocking covers of the embodiment are provided with two light blocking covers which are respectively arranged on the two rows of light sources in an enclosing mode.
Other structures of the present embodiment are consistent with the present embodiment.
EXAMPLE III
The present embodiment is different from the first embodiment only in that: the mist outlet of the simulated three-dimensional flame device is annular, and the light sources are arranged on the inner side and the outer side of the annular mist outlet. The opening which is opposite to and communicated with the fog outlet is also annular. The ring may be circular, quincuncial, etc.
Other structures of the present embodiment are consistent with the present embodiment.
Example four
The present embodiment is different from the first embodiment only in that: the light source is arranged in the middle of the mist outlet of the simulated three-dimensional flame device, for example: when the fog outlet is annular, the light source is arranged on the inner side of the annular fog outlet and is in the middle of the fog outlet. In this embodiment, the light source may be disposed in the middle of the mist outlet.
Other structures of the present embodiment are consistent with the present embodiment.
EXAMPLE five
The present embodiment is different from the first embodiment only in that: the simulated three-dimensional flame device of the embodiment has a circular mist outlet, and the light source is arranged on the periphery of the circular mist outlet. The opening of the circuit board in the embodiment, which is opposite to and communicated with the mist outlet, is also circular.
Other structures of the present embodiment are consistent with the present embodiment.
EXAMPLE six
The present embodiment is different from the first embodiment only in that: the lamp cup of this embodiment only includes the body and the installation foot of the body installation of being convenient for, this installation foot and this body coupling, and the body passes through the installation foot setting on the circuit board.
Other structures of the present embodiment are consistent with the present embodiment.
The above embodiments are preferred embodiments of the present invention, but the present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents thereof, and all such changes, modifications, substitutions, combinations, and simplifications are intended to be included in the scope of the present invention.
Claims (10)
1. A luminous mechanism for forming a simulated three-dimensional flame is characterized in that: is arranged inside the simulated three-dimensional flame device; the light-emitting mechanism comprises a light source and a light blocking cover used for gathering light rays of the light source; the light source is arranged at the periphery or the middle of the mist outlet of the simulated three-dimensional flame device; the light blocking covers are respectively arranged on each light source in a surrounding mode, or the light blocking covers are arranged on the light sources in the same row in a surrounding mode, so that light beams emitted by the light sources are intensively irradiated on fog sprayed from the fog outlet, light rays emitted by the fog outlet are refracted and formed by the fog, and dynamic flame is formed.
2. The light emitting mechanism for forming an artificial solid flame of claim 1, wherein: the fog outlet is square, and the light sources are arranged on two sides of the square fog outlet;
or the fog outlet is annular, and the light source is arranged on the inner side, the outer side or the inner side and the outer side of the annular fog outlet;
or the fog outlet is circular, and the light source is arranged on the periphery of the circle.
3. The light emitting mechanism for forming an artificial solid flame of claim 2, wherein: the lamp bead light sources at the two sides of the square mist outlet are arranged in a staggered manner.
4. The light emitting mechanism for forming an artificial solid flame according to claim 2 or 3, characterized in that: lamp bead light sources on two sides of the square fog outlet are respectively orange and warm white; or the lamp bead light sources on the two sides of the square fog outlet are respectively orange and blue.
5. The light emitting mechanism for forming an artificial solid flame of claim 1, wherein: the circuit board is also included; the circuit board is electrically connected with the light source.
6. The light emitting mechanism for forming an artificial solid flame of claim 1, wherein: the light blocking covers are respectively arranged on each light source in an enclosing mode: the light blocking cover is provided with lamp cups with the same number as the light sources, and each lamp cup is respectively arranged on each light source in an enclosing way.
7. The light emitting mechanism for forming an artificial solid flame of claim 6, wherein: the lamp cup comprises a body and a mounting pin convenient for mounting the body; the mounting foot is connected with the body.
8. The light emitting mechanism for forming an artificial solid flame of claim 7, wherein: the lamp cup also comprises a drainage pin for preventing backflow water generated by fog from falling to the light source; the mounting feet and the drainage feet are uniformly distributed along the circumferential direction of the body and are connected with the body;
the mounting foot is longer than the drainage foot, and both the mounting foot and the drainage foot are connected with the inner wall of the body; the side of drainage foot and installation foot all sets up to the inclined plane of being convenient for the drainage of falling flowing water.
9. The light emitting mechanism for forming an artificial solid flame of claim 1, wherein: the light blocking covers are arranged on the same row of light sources in a surrounding mode, namely: the light blocking cover is a strip-shaped cover body which is arranged on the light sources in the same row in an enclosing mode.
10. The light emitting mechanism for forming an emulated solid flame of any one of claims 1 to 9, wherein: and a distance is reserved between the light source and the flame spraying port at the top of the simulated three-dimensional flame device.
Priority Applications (1)
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CN202122460393.2U CN215982354U (en) | 2021-10-12 | 2021-10-12 | Luminous mechanism for forming simulated three-dimensional flame |
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CN202122460393.2U CN215982354U (en) | 2021-10-12 | 2021-10-12 | Luminous mechanism for forming simulated three-dimensional flame |
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