CN212226929U - Novel simulation three-dimensional flame device - Google Patents

Abstract

The utility model provides a novel simulated three-dimensional flame device, which comprises a base, a fog generating mechanism arranged on the base, an outer cover connected with the base and a luminous mechanism; the inner cavity of the outer cover is a fog accumulation cavity, a fog outlet of the fog generating mechanism is communicated with the fog accumulation cavity, or a component for generating fog by the fog generating mechanism is arranged in the fog accumulation cavity; the top of the outer cover is provided with a flame spraying port, the light-emitting mechanism irradiates light beams on fog sprayed from the flame spraying port, and light rays are refracted by the fog to form dynamic flame; also includes a housing; the outer shell is sleeved outside the outer cover; the top opening of the shell is opposite to the flame spraying port, and an accommodating space communicated with the top opening of the shell is arranged between the shell and the outer cover; the bottom of accommodation space is provided with the air intake, and accommodation space is provided with the drain way with the air intake intercommunication. The utility model discloses can image and present the effect that flame swayd among the combustion process lifelikely, have drainage and waterproof function moreover.

Description

Novel simulation three-dimensional flame device

Technical Field

The utility model relates to a simulated flame technical field, more specifically say, relate to a novel three-dimensional flame of emulation device.

Background

Most of traditional candles are fuel candles and are used for daily illumination or special occasions such as birthday party and candlelight dinner, but the candles can produce smoke after being ignited, thereby not only polluting the environment and being not beneficial to physical and mental health, but also having potential safety hazard in open fire. Therefore, various simulated candles or simulated flame devices appear in the market, have the practicability of illumination, ornamental value and decorative value, can simulate the combustion form of the traditional candle, and have good simulation effect. As a result, conventional candles or flame devices are increasingly being replaced by simulated candles or simulated flame devices. The artificial candle or artificial flame device can simulate the lighting effect of the candle by the light generated by the light source, and is widely used in places such as bars, coffee shops, dance halls and the like.

At present, a simulated candle or a simulated flame device usually utilizes a mode of projecting light to a flame sheet to simulate flame, the mode enables the viewing angle to be limited, and a flame sheet carrier with diffuse reflection can exist at the top of the electronic candle or the flame device, so that the simulation effect is not real, and the simulation degree is not high and the image is not vivid.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome shortcoming and not enough among the prior art, provide a novel three-dimensional flame of emulation device, this three-dimensional flame of emulation device shines on irregular spun fog through the light beam of light source, and light receives the fog refraction and produces the three-dimensional flame of dynamic emulation to can vividly and vividly present the effect that flame swayed among the combustion process, simultaneously, the utility model discloses a three-dimensional flame of emulation device still has the drainage function.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a novel simulation three-dimensional flame device is characterized in that: comprises a base, a fog generating mechanism arranged on the base, an outer cover connected with the base and a light-emitting mechanism; the inner cavity of the outer cover is a mist accumulation cavity, a mist outlet of the mist generating mechanism is communicated with the mist accumulation cavity, or a component for generating mist by the mist generating mechanism is arranged in the mist accumulation cavity; the top of the outer cover is provided with a flame spraying port; the light-emitting mechanism irradiates light beams on fog sprayed from the flame spraying port, and the light rays are refracted by the fog to form dynamic flame;

also includes a housing; the shell is sleeved outside the outer cover; the top end opening of the shell is opposite to the flame spraying port, and an accommodating space communicated with the top end opening of the shell is arranged between the shell and the outer cover; the bottom of accommodation space is provided with the air intake, and accommodation space is provided with the drain way with the air intake intercommunication.

In the above technical scheme, the utility model discloses the fog that the fog produced the mechanism is gathered in long-pending fog intracavity to gush out from the flame jet at dustcoat top is irregular, and at this moment, luminous mechanism's light beam shines on the fog from flame jet spun, and light receives the fog refraction and forms dynamic emulation three-dimensional flame. The flame formed by the mode ensures that the viewing angle is not limited, and the simulation effect is real, vivid and lifelike, thereby vividly and vividly presenting the flame swaying effect in the combustion process. In addition, the arrangement of the water drainage channel can drain accumulated water in the simulated three-dimensional flame device, so that the simulated three-dimensional flame device has the functions of water drainage and water prevention, and the service life of the simulated three-dimensional flame device is prolonged.

The utility model also comprises a fog feeding anti-circulation mechanism which is used for rapidly raising the fog in the fog accumulation cavity to the flame spraying port and preventing the fog sprayed from the flame spraying port from generating circulation at a low position; the fog feeding circulation preventing mechanism is arranged in the accommodating space between the shell and the outer cover, and an air outlet of the fog feeding circulation preventing mechanism is communicated with the fog accumulating cavity and the accommodating space. The low position is 1-8cm away from the flame spraying opening.

The utility model discloses a send fog to prevent circulation mechanism has two effects:

the method has the following effects: when the fog-feeding circulation-preventing mechanism works, a part of wind is fed into the fog-accumulating cavity, fog is irregularly sprayed out of the flame-spraying port under the action of wind blowing, and the effect of flame swaying in the combustion process is presented under the illumination of the light-emitting mechanism. And the air output can be adjusted to adjust the rising speed of the fog or the component rising to the flame spraying opening, thereby playing the role of adjusting the size of the simulated three-dimensional flame.

The second action is as follows: the air outlet, the accommodating space and the top end opening of the shell of the fog-feeding anti-circulation mechanism are all in a communicated state, the fog-feeding anti-circulation mechanism feeds air into the accommodating space, and the air flow is blown out from the top end opening of the shell and then enters the accommodating space from the air inlet to form circulation, so that the blown air flow drives the fog sprayed from the flame spraying port to face upwards, the air flow flowing out from the top end opening of the shell surrounds the sprayed fog, the problem that the sprayed fog is easy to generate circulation at a low position (namely, a position 1-8cm away from the flame spraying port) to cause that simulated three-dimensional flame is difficult to form can be solved, and the flame simulation degree is high and the flame is more vivid.

Specifically, the fog-feeding circulation-preventing mechanism comprises a fan I, an inner cavity air outlet communicated with the fog-accumulating cavity and an air channel communicated with the accommodating space; the first fan is arranged in the accommodating space between the shell and the outer cover and positioned on one side of the water drainage channel, and the water drainage channel is used as an air inlet channel of the first fan; and the air outlet of the first fan is respectively communicated with the air outlet of the inner cavity and the air duct.

The utility model also comprises a second fan arranged in the containing space; and the air outlet of the second fan faces upwards. The second fan can further blow the wind out of the top opening of the shell to form airflow.

The fog generating mechanism comprises an atomizing sheet arranged in the fog accumulating cavity, a water absorbing rod and a water storage tank arranged on the base; one end of the water absorption rod extends into the water storage tank, and the other end of the water absorption rod is connected with the atomizing sheet.

The utility model also comprises a water injection channel for injecting water into the water storage tank; the water injection passage is arranged in the accommodating space between the shell and the outer cover and is respectively communicated with the top end opening of the shell and the water storage tank. The water injection channel can be designed into a funnel shape, so that water injection is facilitated.

The utility model discloses still including the buoy that is used for watching the storage water tank water level, the buoy setting is inside the storage water tank and stretch into the water filling pipe. The buoy can float according to the height of the water level of the water storage tank, so that a user can watch the lifting of the buoy in a water injection passage, the storage capacity of the water amount of the water storage tank is clear, and water injection is facilitated.

The water storage tank is provided with an overflow channel; the overflow passage is communicated with the drainage passage. The water overflowed from the water storage tank through the overflow channel can be directly discharged from the air inlet through the drainage channel.

The light-emitting mechanism is a light source arranged at the side part of the flame spraying port, and when the device works, light beams of the side light source irradiate on mist sprayed from the flame spraying port. The light source can be more than two multicolor light sources and emits light in a color changing mode, and when the device works, the light sources emit color changing light beams to irradiate fog sprayed from the flame spraying port. The light source can be more than two light sources which emit light in an alternating light and dark mode, and when the device works, light beams with alternating light and dark are emitted by the light sources to irradiate fog sprayed from the flame spraying port.

The utility model also comprises an electric control board; the electric control board is respectively connected with the light-emitting mechanism and the mist generating mechanism;

the device also comprises a power socket and a key switch; the power socket and the key switch are respectively arranged at the bottom of the base and connected with the electric control board.

The utility model is characterized in that:

1. the utility model discloses fog produces the mode that the mechanism adopted the atomizing piece to pass through water absorption stick and storage water tank connection, not only can reach the effect that forms the fog, can simplify the device's inner structure and volume moreover.

2. The utility model discloses set up respectively with long-pending fog chamber and accommodation space intercommunication send fog to prevent circulation mechanism, can form the double air current: the fog is irregularly sprayed out of the flame spraying port by the airflow formed in the fog accumulating cavity, and the flame swaying effect in the combustion process is shown under the illumination of the light emitting mechanism; the airflow formed in the accommodating space is blown out from the top opening of the shell to surround the sprayed mist, so that the sprayed mist flame is not easily interfered and influenced by external airflow, the stability of the sprayed mist is improved, and the problem that the simulated three-dimensional flame is difficult to form due to the fact that the sprayed mist easily generates circulation at a low position (namely, a position 1-8cm away from a flame spraying port) can be effectively solved, so that the flame simulation degree is high, and the flame simulation is more vivid.

3. The utility model discloses an air intake setting is in the accommodation space bottom to communicate with the drain of accommodation space setting, make the three-dimensional flame device of emulation have drainage and waterproof function, can arrange the inside ponding of the three-dimensional flame device of emulation, thereby improve the life of the three-dimensional flame device of emulation.

4. The utility model discloses the storage water tank is provided with buoy and stretches into the water injection road, can make the user clear the memory space of storage water tank water yield, the water injection of being convenient for.

5. The utility model discloses the storage water tank is provided with the spillway, can in time discharge from the air intake through the water drainage way when the water injection is too full for the inside ponding that does not have of three-dimensional flame device of emulation.

Compared with the prior art, the utility model has the advantages of as follows and beneficial effect:

1. the utility model discloses three-dimensional flame device of emulation shines on irregular spun fog through the light beam of light source, and light receives the fog refraction and produces the three-dimensional flame of dynamic emulation to can vividly and vividly present the effect that flame swayed among the combustion process.

2. The utility model discloses three-dimensional flame device of emulation can solve spun fog and produce the circulation easily at the low level and lead to the three-dimensional flame of emulation to be difficult to the problem that takes shape to further improve the fidelity.

3. The utility model discloses three-dimensional flame device of emulation has drainage and waterproof function to improve the life of three-dimensional flame device of emulation.

Drawings

FIG. 1 is a schematic view of a novel simulated three-dimensional flame device according to a first embodiment;

FIG. 2 is a top view of the novel simulated three-dimensional flame apparatus of the first embodiment;

FIG. 3 is a schematic view of an air outlet of the novel simulated three-dimensional flame apparatus according to the first embodiment;

FIG. 4 is a top view of the novel simulated three-dimensional flame apparatus of the second embodiment;

the device comprises a base 1, an outer cover 2, a mist accumulation cavity 3, an air outlet of a mist delivery circulation-preventing mechanism 4, a flame spraying port 5, flames 6, a water storage tank 7, an electric control board 10, an air duct 15, an air inlet 16, a light source 17, a microporous atomizing sheet 19, a water absorbing rod 20, a shell 22, an opening at the top end 23, a containing space 24, a fan I25, an inner cavity air outlet 26, a power socket 27, a key switch 28, a water drainage channel 29, a fan II 30, a water injection channel 31, a rubber plug 32, a buoy 33 and an overflow channel 34.

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 simulated three-dimensional flame device of the present embodiment includes a base 1, a mist generating mechanism disposed on the base 1, an outer cover 2 connected to the base 1, and a light emitting mechanism, wherein an inner cavity of the outer cover 2 is a mist accumulating cavity 3, a component of the mist generating mechanism for generating mist is disposed in the mist accumulating cavity 3, a flame opening 5 is disposed on a top of the outer cover 2, the light emitting mechanism is a light source 17 disposed inside the outer cover 2 and around the flame opening 5, an illumination direction of the light source 17 is opposite to the flame opening 5, when the simulated three-dimensional flame device is in operation, light beams of the light sources 17 on two sides are irradiated from the flame opening 5, the light emitting mechanism irradiates the light beams on the mist sprayed from the flame opening 5, and the light beams are refracted by the mist to form a dynamic flame 6.

The fog generating mechanism of this embodiment includes micropore atomizing piece 19, the stick 20 that absorbs water and the storage water tank 7 of setting in base 1 bottom that sets up in long-pending fog chamber 3, and wherein, the stick 20 one end that absorbs water stretches into storage water tank 7, and the other end is connected with micropore atomizing piece 19.

The utility model discloses still include shell 22, this shell 22 cover is located the dustcoat 2 outside and is connected with base 1, and shell 22's open-top 23 is relative with flame projecting port 5, and be provided with between shell 22 and the dustcoat 2 with the accommodation space 24 of shell open-top 23 intercommunication. The bottom of the accommodating space 24 is provided with an air inlet 16, and the accommodating space 24 is provided with a drain 29 communicating with the air inlet 16.

The utility model discloses still including being used for making long-pending fog chamber 3's fog rise fast to spout flame vent 5 and prevent to spout 5 spun fog at the low level and produce the circulation send fog to prevent the circulation mechanism, should send fog to prevent that circulation mechanism sets up the accommodation space 24 between shell 22 and dustcoat 2, send the air outlet 4 and long-pending fog chamber 3 and the accommodation space 24 intercommunication of fog anti-circulation mechanism, wherein, the low level indicates apart from spouting flame vent 1-8cm department. Specifically, the mist supply circulation preventing mechanism comprises a first fan 25, an inner cavity air outlet 26 communicated with the mist collecting cavity 3 and an air duct 15 communicated with the accommodating space 24, wherein the first fan 25 is arranged in the accommodating space 24 between the shell 22 and the outer cover 2 and is positioned on one side of a water discharge channel 29, and the water discharge channel 29 is used as an air inlet channel of the first fan 25; the air outlet of the first fan 25 is respectively communicated with the inner cavity air outlet 26 and the air duct 15. The utility model discloses still including setting up two 30 fans at accommodation space 24, the air outlet of two 30 fans up, two 30 fans's design can further blow out wind from the open-top of shell 22, forms the air current.

The utility model discloses still including the water injection road 31 that is used for the water injection of storage water tank 7, this water injection road 31 sets up the accommodation space 24 between shell 22 and dustcoat 2 to communicate with shell open-top 23 and storage water tank 7 respectively. This water injection passage 31 can be designed to be funnel-shaped, and the water injection is convenient for, and the top of water injection passage 31 is provided with rubber buffer 32. The utility model discloses still including the buoy 33 that is used for watching storage water tank 7 water level, this buoy 33 sets up inside storage water tank 7 and stretches into water filling channel 31. The buoy 33 can float according to the height of the water level of the water storage tank 7, so that a user can watch the lifting of the buoy 33 in the water injection passage 31 to clearly know the storage amount of the water in the water storage tank 7, and the water injection is convenient. The water storage tank 7 is provided with an overflow passage 34, the overflow passage 34 is communicated with the drain passage 29, and water overflowing from the water storage tank 7 through the overflow passage 34 can be directly discharged from the air inlet 16 through the drain passage 29.

The light source 17 of the utility model can be a multicolor light source more than two and can emit light in a color-changing mode, and the light source 17 emits a color-changing light beam to irradiate the fog sprayed from the flame spraying port 5 during operation. The light source 17 may be two or more light sources emitting light in an alternating light and dark manner, and when the device is operated, the light source 17 emits light beams in alternating light and dark to irradiate the mist sprayed from the flame outlet.

The utility model discloses still including the automatically controlled board 10 that is provided with the power, this automatically controlled board 10 sets up in accommodation space 24 and is connected with luminous mechanism and fog production mechanism respectively. The embodiment further comprises a power socket 27 and a key switch 28, wherein the power socket 27 and the key switch 28 are both arranged in the housing 22 and located at the bottom of the base 1, and are respectively connected with the electronic control board 10.

The utility model discloses the fog that fog produced mechanism is gathered in long-pending fog chamber 3 to 5 irregular blowout of flame vent from the outer cover 2 top are acted on through fan 25, and at this moment, luminous mechanism's light beam shines on from flame vent 5 spun fog, and light receives fog refraction and forms dynamic emulation three-dimensional flame 6. The simulated three-dimensional flame 6 formed in the mode ensures that the viewing angle is not limited, and the simulation effect is real, vivid and lifelike, so that the swaying effect of the flame 6 in the combustion process can be vividly and vividly presented.

In addition, the first fan 25 sends a part of air into the accommodating space 24, blows air flow out of the top opening 23 of the shell 22, and then enters the accommodating space 24 from the air inlet 16 to form circulation, so that the blown air flow drives the mist sprayed out of the flame spraying port 5 to face upwards, the air flow flowing out of the top opening 23 of the shell 22 surrounds the sprayed mist, the problem that the sprayed mist is easy to generate circulation at a low position (namely, a position 1-8cm away from the flame spraying port) to cause that simulated three-dimensional flame is difficult to form can be solved, and the flame simulation degree is high, and the flame is more vivid.

The utility model discloses an air intake 16 sets up in 24 bottoms of accommodation space to communicate with the drain 29 that accommodation space 24 set up, make the three-dimensional flame device of emulation have drainage and waterproof function, can arrange the inside ponding of the three-dimensional flame device of emulation, thereby improve the life of the three-dimensional flame device of emulation. In addition, the water storage tank 7 is provided with a buoy 33, and the buoy 33 extends into the water injection passage 31, so that the storage amount of the water in the water storage tank 7 can be clear to a user, and the water injection is convenient. The water storage tank 7 is provided with an overflow channel 34, and the water can be discharged from the air inlet 16 through the water discharge channel 29 in time when the water is filled too full, so that no water is accumulated in the simulated three-dimensional flame device.

The working principle of the microporous atomizing sheet 19 in this embodiment is such that: the frequency and the working voltage of the micropore atomization sheet 19 are both relatively small, so that the micropore atomization sheet does not need to be placed in water for working, the atomization work is carried out through the middle micropore ejection, the water absorption rod 20 is fixed in the water storage tank 7, the middle aperture of the micropore atomization sheet 19 is fixed on the water absorption rod 20, water is absorbed through the water absorption rod 20 through the electrification of the micropore atomization sheet circuit of the electric control board 10, and the effect of fog is formed through the micropore atomization sheet 19.

The utility model discloses well micropore atomizing piece 19, automatically controlled board 10, supply socket 27 and key switch 28 are prior art, are the ripe product that can purchase on the current market.

Example two

The present embodiment is different from the first embodiment only in that: as shown in fig. 4, the light source of the light emitting mechanism is disposed inside the flame hole. The light source is fixed in the flame spraying port through the support rod extending from the shell arm, the light beam of the light source directly irradiates on irregularly sprayed fog due to the design position of the light source, and the light is refracted by the fog to generate dynamic simulated three-dimensional flame, so that the flame swaying effect in the combustion process can be more vividly and more realistically presented.

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: and the fan I sends a part of air into the accommodating space and blows out the air from the top opening of the shell.

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 inner cavity of the outer cover is a mist accumulation cavity, a mist outlet of the mist generation mechanism is communicated with the mist accumulation cavity, mist in the mist accumulation cavity is irregularly sprayed out of the flame spraying port during working, and the effect of flame swaying in the combustion process is achieved under the illumination of the light source.

Other structures of the present embodiment are consistent with the present embodiment.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are 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 equivalent replacement modes, and all are included in the scope of the present invention.

Claims (10)

1. A novel simulation three-dimensional flame device is characterized in that: comprises a base, a fog generating mechanism arranged on the base, an outer cover connected with the base and a light-emitting mechanism; the inner cavity of the outer cover is a mist accumulation cavity, a mist outlet of the mist generating mechanism is communicated with the mist accumulation cavity, or a component for generating mist by the mist generating mechanism is arranged in the mist accumulation cavity; the top of the outer cover is provided with a flame spraying port; the light-emitting mechanism irradiates light beams on fog sprayed from the flame spraying port, and the light rays are refracted by the fog to form dynamic flame;

also includes a housing; the shell is sleeved outside the outer cover; the top end opening of the shell is opposite to the flame spraying port, and an accommodating space communicated with the top end opening of the shell is arranged between the shell and the outer cover; the bottom of accommodation space is provided with the air intake, and accommodation space is provided with the drain way with the air intake intercommunication.

2. The novel simulated three-dimensional flame device of claim 1, wherein: the fog circulation preventing mechanism is used for enabling the fog in the fog accumulating cavity to quickly rise to the flame spraying port and preventing the fog sprayed from the flame spraying port from generating circulation at a low position; the fog feeding circulation preventing mechanism is arranged in the accommodating space between the shell and the outer cover, and an air outlet of the fog feeding circulation preventing mechanism is communicated with the fog accumulating cavity and the accommodating space.

3. The novel simulated three-dimensional flame device of claim 2, wherein: the fog feeding circulation preventing mechanism comprises a fan I, an inner cavity air outlet communicated with the fog accumulating cavity and an air channel communicated with the accommodating space; the first fan is arranged in the accommodating space between the shell and the outer cover and positioned on one side of the water drainage channel, and the water drainage channel is used as an air inlet channel of the first fan; and the air outlet of the first fan is respectively communicated with the air outlet of the inner cavity and the air duct.

4. The novel simulated three-dimensional flame device of claim 3, wherein: the fan II is arranged in the accommodating space; and the air outlet of the second fan faces upwards.

5. The novel simulated three-dimensional flame device of claim 1, wherein: the fog generating mechanism comprises an atomizing sheet arranged in the fog accumulating cavity, a water absorbing rod and a water storage tank arranged on the base; one end of the water absorption rod extends into the water storage tank, and the other end of the water absorption rod is connected with the atomizing sheet.

6. The novel simulated three-dimensional flame device of claim 5, wherein: the water injection pipeline is used for injecting water into the water storage tank; the water injection passage is arranged in the accommodating space between the shell and the outer cover and is respectively communicated with the top end opening of the shell and the water storage tank.

7. The novel simulated three-dimensional flame device of claim 6, wherein: the water level monitoring device further comprises a buoy used for watching the water level of the water storage tank, wherein the buoy is arranged inside the water storage tank and extends into the water injection passage.

8. The novel simulated three-dimensional flame device of claim 5, wherein: the water storage tank is provided with an overflow channel; the overflow passage is communicated with the drainage passage.

9. The novel simulated three-dimensional flame device of claim 1, wherein: the light-emitting mechanism is a light source arranged at the side part of the flame spraying port, and when the device works, light beams of the side light source irradiate on mist sprayed from the flame spraying port.

10. The novel simulated three-dimensional flame device of claim 1, wherein: the device also comprises an electric control board; the electric control board is respectively connected with the light-emitting mechanism and the mist generating mechanism;

the device also comprises a power socket and a key switch; the power socket and the key switch are respectively arranged at the bottom of the base and connected with the electric control board.

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