CN210014310U - Atomizing 3D emulation flame fireplace ware - Google Patents

Abstract

The utility model discloses an atomizing 3D emulation flame fireplace, which comprises a fog outlet port, an air inlet pipeline, an air blower, an atomizer, an atomizing cavity, a LED bulb, an auxiliary heating air outlet notch, a heat insulation board, a heating pipeline, a heating pipe air blower, a water inlet pipe joint, a water outlet joint, a water discharge hose, a water inlet hose, a water discharge pump, a water inlet pump, an upper water level detector, a lower water level detector, a shell upper cover plate and a machine body shell, wherein the device takes water as a medium, in a semi-closed cavity, the electric energy is converted into ultrasonic energy by the ultrasonic atomizer, a liquid water molecule structure is scattered to generate water fog, white water fog is blown out from a strip-shaped fog outlet notch to form a fog curtain by means of the wind power of an internal air blower, then the flame effect formed by projecting the fog curtain by red (flame color) light is finally achieved by simulating a vivid flame effect, and audiences can watch false and real flames from all angles, can be used for environment encampment to achieve the decorative effect of a real fire fireplace, and has very practical value.

Description

Atomizing 3D emulation flame fireplace ware

Technical Field

The utility model relates to a simulation flame technical field, concretely relates to atomizing 3D simulation flame fireplace ware.

Background

3D atomizing fireplace principle: the method comprises the following steps of converting electric energy into ultrasonic energy by using water as a medium in a semi-closed cavity by using an ultrasonic atomizer, scattering a liquid water molecule structure to generate water mist, blowing white water mist out of a strip-shaped mist outlet notch by means of wind power of an internal blower to form a mist curtain, and projecting the mist curtain through red (flame color) light to form a flame effect; the final purpose is to simulate vivid flame, so that an observer can view the flame from all angles to make the environment have the decoration effect of a real fire fireplace. Firstly, the designer of the existing similar product has a lack of knowledge on fluid mechanics, namely the design of an atomization cavity of the existing similar product is unreasonable, water mist sprayed by an atomizer and air blown by a blower cannot be reasonably combined into a flowing ascending mist curtain, so that the gas flow rate is too high or too low, the dynamic effect is poor, and the simulated flame effect is unnatural and unreal. Secondly, the fog screen comprises 1um to 5um tiny water smoke granule, and long-time back of using, water smoke piles up and easily produces moisture or condenses into the drop of water, makes peripheral furniture electrical apparatus wet, damage. The water storage tank has unreasonable structure: the simulated flame fireplace adopting the ultrasonic atomizer can generate the maximum atomization effect only by arranging the atomizer 4-6cm below the water surface, cannot generate water mist when the water level is too high or too low and cannot break through the water surface when the water level is too high, and cannot generate enough mist when the water level is too low; this is a physical characteristic of existing ultrasonic atomizers. The existing products on the market directly arrange the whole atomizer at the bottom of the water tank, when the height of the shell of the atomizer body is 4cm, the reasonable water level needs 8-10cm to generate water mist, so that the water level at the height of 4cm at the bottom of the water storage tank cannot be utilized, and the effective water storage volume is half of the volume of the whole water tank. The use and operation are inconvenient: the atomizer generates a mist that requires water to be consumed. Under the condition that the air blower completely discharges water mist generated by the atomizer, for example, the water consumption of the atomizer with the power of 15W is approximately 0.5L/h, when the effective volume of the water storage tank is 5L, a user needs to supplement water every 10 hours, the mode of supplementing water is that the user manually pours water, and the user visually observes whether the water level reaches a preset mark or not, or gives a prompt sound through a liquid level floater, the mode cannot accurately control the water level, and the excessive water adding causes that the atomization effect is not ideal, the flame is too small or no flame. There is not special drainage system, adds water when too much, or when fireplace shift position, need discharge the water in the storage water tank, lets the user insert the inside drainage of water tank through the hose again and discharges, and the notch of a fog/flame notch length is too short: the fireplace is in a strip-square shape, the fog outlet/flame notch is arranged in the middle, the circuit controller and the blower are arranged at two ends of the fireplace, and the fireplace occupies a space with the length of about 20cm, such as a fireplace with the length of 1 meter, and the length of the fog outlet/flame notch is less than 80cm, so that the whole length of the fireplace cannot be fully utilized.

Disclosure of Invention

The utility model aims at providing a rational in infrastructure, atomizing effect is close real flame effect's atomizing 3D emulation flame fireplace ware more.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an atomization 3D simulation flame fireplace comprises a fog outlet, an air inlet pipeline, an air blower, an atomizer, an atomization cavity, LED bulbs, auxiliary heating air outlet notches, a heat insulation plate, a heating pipeline, a heating pipe air blower, a water inlet pipe connector, a water outlet connector, a water discharge hose, a water inlet hose, a water discharge pump, a water inlet pump, an upper water level detector, a lower water level detector, a shell upper cover plate and a machine body shell, wherein the fog outlet is fixedly arranged in the atomization cavity, one end of the air inlet pipeline is connected with one end of the atomization cavity, the other end of the air inlet pipeline is connected with the air blower, the atomizer is fixedly arranged at the middle position of the bottom of the atomization cavity, the atomization cavity is fixedly connected with the auxiliary heating air outlet notches, the LED bulbs are fixedly arranged in front of the auxiliary heating air outlet notches, the auxiliary heating air outlet notches are fixedly connected with the heat insulation plate, the heating pipeline, the water inlet pipe joint is connected with a water inlet hose, the water outlet joint is connected with a water discharge hose, the water discharge pump is fixedly connected with the water discharge hose, the water inlet pump is fixedly connected with the water inlet hose, the upper water level detector and the lower water level detector are respectively and fixedly arranged at one side position of the atomization cavity, the upper water level detector is arranged at the upper position of the lower water level detector, the upper cover plate of the shell is of a plane thin plate structure, a long rectangular hole for placing an atomization port is formed in the middle of the upper cover plate of the shell, the engine body shell is of a concave box structure and forms a box structure together with the upper cover plate of the shell, and the end face of.

Further, the length of the atomization cavity ranges from 700 mm to 4000mm, the height ranges from 80 mm to 100mm, and the width ranges from 30 mm to 50 mm.

Furthermore, the number of the atomizers is 1-4.

Furthermore, the number of the LED bulbs is 9-12.

Furthermore, the heating pipeline is of a circular pipe structure, and a plurality of heat outlet holes are formed in the end face of the circular pipe.

The utility model discloses following beneficial effect has:

the utility model relates to an atomizing 3D emulation flame fireplace, which comprises a fog outlet port, an air inlet pipeline, an air blower, an atomizer, an atomizing cavity, a LED bulb, an auxiliary heating air outlet notch, a heat insulation board, a heating pipeline, a heating pipe air blower, a water inlet pipe joint, a water outlet joint, a water discharge hose, a water inlet hose, a water discharge pump, a water inlet pump, an upper water level detector, a lower water level detector, a shell upper cover plate and a machine body shell, wherein the emulation flame fireplace improves the condition that the flame effect of the existing emulation flame fireplace is not real enough relative to other products, an atomization cavity structure with a brand new design better conforms to the fluid force design, the atomized mist flows to the real flame effect, secondly, the temperature of the water mist sprayed by the existing emulation atomizing fireplace is normal temperature, the quality of the water mist is heavier than that of air under normal temperature, after being sprayed from the fog outlet, the water mist is easy to accumulate to generate water drops and can influence the flame simulation effect. The utility model relates to an increased auxiliary heating system, heated the water smoke that the blowout came and peripheral air current while, the ascending area water smoke of hot-air rises, and the water smoke under the high temperature vaporizes fast, no longer piles up the water smoke and produces the drop of water. The automatic water adding system can monitor the water level state, give an indicator light signal to prompt a user when water is short, and automatically open an electromagnetic valve of the water inlet pipe to add water. When the water level reaches the set high level of the system, the water inlet is automatically stopped. The drainage system can completely drain the water in the water tank body, and only the drainage key marked on the panel or the drainage key on the remote controller needs to be pressed. Most of fireplaces are installed in an embedded mode, the length of a mist outlet of an existing fireplace cannot reach two ends of a box body of the fireplace, the space of the whole fireplace cannot be completely utilized, for example, a user needs to occupy more than 1.3m of installation space when purchasing 1 m of flame. The structure is more reasonable, the internal space is fully utilized, the line passing pipe structure is ingenious, and the length of the mist outlet is equal to that of the fireplace box.

Drawings

FIG. 1 is a schematic view of the overall structure of an atomized 3D simulated flame fireplace of the present invention;

FIG. 2 is a schematic view of the overall structure of an atomized 3D simulated flame fireplace of the present invention in another direction;

FIG. 3 is a schematic view of the inner structure of the housing of the atomized 3D simulated flame fireplace of the present invention;

FIG. 4 is a schematic structural view of the inside of the housing of the atomized 3D simulated flame fireplace of the present invention in another direction;

FIG. 5 is a schematic view of the inside of the housing of an atomized 3D simulated flame fireplace of the present invention in another orientation;

FIG. 6 is a schematic structural view of the inside of the box body of the atomized 3D simulated flame fireplace of the present invention;

FIG. 7 is a schematic structural view of a heating pipeline of the atomized 3D simulated flame fireplace of the present invention.

In the figure: 1. a mist outlet port; 2. an air inlet pipeline; 3. a blower; 4. an atomizer; 5. an atomizing chamber; 6. an LED bulb; 7. an auxiliary heating air outlet notch; 8. a heat insulation plate; 9. a heat generation pipeline; 10. a heat pipe blower; 11. a water inlet pipe joint; 12. a water outlet joint; 13. a drain hose; 14. a water inlet hose; 15. a drainage water pump; 16. a water inlet pump; 17. an upper water level detector; 18. a lower water level detector; 19. an upper cover plate of the shell; 20. a machine body shell.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea claimed in the present invention.

As shown in fig. 1 to 7, the utility model relates to an atomizing 3D simulated flame fireplace, which comprises an atomizing port 1, an air inlet pipe 2, an air blower 3, an atomizer 4, an atomizing chamber 5, LED bulbs 6, an auxiliary heating air outlet notch 7, a heat insulation board 8, a heating pipe 9, a heating pipe air blower 10, an inlet pipe joint 11, an outlet joint 12, a drain hose 13, an inlet hose 14, a drain pump 15, an inlet pump 16, an upper level detector 17, a lower level detector 18, a housing upper cover plate 19 and a housing shell 20, wherein the atomizing port 1 is fixedly arranged in the atomizing chamber 5, one end of the air inlet pipe 2 is connected with the inner end of the atomizing chamber 5 and is connected with the air blower 3, the atomizer 4 is fixedly arranged at the middle position of the bottom of the atomizing chamber 5, the atomizing chamber 5 is fixedly connected with the auxiliary heating air outlet notch 7, a plurality of LED bulbs 6 are fixedly arranged at the front position of the, the auxiliary heating air outlet notch 7 is fixedly connected with a heat insulation plate 8, a heating pipeline 9 is arranged below the heat insulation plate 8, the heating pipeline 9 is fixedly connected with a heating pipe blower 10, a water inlet pipe joint 11 is connected with a water inlet hose 14, a water outlet joint 12 is connected with a water outlet hose 13, a water outlet water pump 15 is fixedly connected with the water outlet hose 13, a water inlet water pump 16 is fixedly connected with the water inlet hose 14, an upper water level detector 17 and a lower water level detector 18 are respectively and fixedly arranged at one side of the atomization cavity 5, the upper water level detector 17 is positioned above the lower water level detector 18, an upper cover plate 19 of the shell is of a plane thin plate structure, a long rectangular hole for placing the fog outlet port 1 is formed in the middle of the upper cover plate, the engine body shell 20 is of a concave box structure and forms a box structure together with the upper cover plate 19 of the shell.

Specifically, the length range of the atomizing chamber 5 is 700-4000mm, the height range is 80-100mm, and the width range is 30-50 mm. The number of the atomizers 4 is 1-4, and the number of the LED bulbs 6 is 9-12. The heating pipeline 9 is of a circular pipe structure, and a plurality of heat outlet holes are formed in the end face of the circular pipe.

The utility model discloses following beneficial effect has:

the utility model relates to an atomizing 3D emulation flame fireplace, which comprises a mist outlet port 1, an air inlet pipeline 2, an air blower 3, an atomizer 4, an atomizing cavity 5, an LED bulb 6, an auxiliary heating air outlet notch 7, a heat insulation board 8, a heating pipeline 9, a heating pipe air blower 10, a water inlet pipe joint 11, a water outlet joint 12, a water discharge hose 13, a water inlet hose 14, a water discharge pump 15, a water inlet pump 16, an upper water level detector 17, a lower water level detector 18, a shell upper cover plate 19 and a machine body shell 20, and compared with other products, the emulation flame fireplace improves the condition that the flame effect of the existing emulation flame fireplace is not true enough, and compared with other products, the atomization cavity structure of brand new design is more accordant with fluid force design, so that the atomized mist flows to be closer to the true flame effect, secondly, the temperature of the mist sprayed by the existing emulation atomizing fireplace is normal temperature, and because the quality of the, after the water mist is sprayed out of the mist outlet by wind power, the water mist rises to a certain height and loses inertia, so that the water mist is easy to accumulate to generate water drops, and the flame simulation effect can be influenced. The utility model relates to an increased auxiliary heating system, heated the water smoke that the blowout came and peripheral air current while, the ascending area water smoke of hot-air rises, and the water smoke under the high temperature vaporizes fast, no longer piles up the water smoke and produces the drop of water. The automatic water adding system can monitor the water level state, give an indicator light signal to prompt a user when water is short, and automatically open an electromagnetic valve of the water inlet pipe to add water. And automatically stopping water inflow when the water level reaches the set height of the system. The drainage system can completely drain the water in the water tank body, and only the drainage key marked on the panel or the drainage key on the remote controller needs to be pressed. Most of fireplaces are installed in an embedded mode, the length of a mist outlet of an existing fireplace cannot reach two ends of a box body of the fireplace, the space of the whole fireplace cannot be completely utilized, for example, a user needs to occupy more than 1.3m of installation space when purchasing 1 m of flame. The structure is more reasonable, the internal space is fully utilized, the line passing pipe structure is ingenious, and the length of the mist outlet is equal to that of the fireplace box.

Various other changes and modifications may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such changes and modifications should fall within the scope of the present invention.

Claims (5)

1. The utility model provides an atomizing 3D emulation flame fireplace which characterized in that: comprises a fog outlet port (1), an air inlet pipeline (2), a blower (3), an atomizer (4), an atomizing cavity (5), an LED bulb (6), an auxiliary heating air outlet notch (7), a heat insulation plate (8), a heating pipeline (9), a heating pipe blower (10), a water inlet pipe joint (11), a water outlet joint (12), a water discharge hose (13), a water inlet hose (14), a water discharge pump (15), a water inlet pump (16), an upper water level detector (17), a lower water level detector (18), a shell upper cover plate (19) and a machine body shell (20), wherein the fog outlet port (1) is fixedly arranged in the atomizing cavity (5), one end of the air inlet pipeline (2) is connected in the atomizing cavity (5) and the other end is connected with the blower (3), the atomizer (4) is fixedly arranged at the middle position of the bottom of the atomizing cavity (5), the atomizing cavity (5) is fixedly connected with the auxiliary heating air outlet notch (, the LED lamp bulbs are fixedly arranged in front of an auxiliary heating air outlet notch (7), the auxiliary heating air outlet notch (7) is fixedly connected with a heat insulation plate (8), a heating pipeline (9) is arranged below the heat insulation plate (8), the heating pipeline (9) is fixedly connected with a heating pipe blower (10), a water inlet pipe joint (11) is connected with a water inlet hose (14), a water outlet joint (12) is connected with a drainage hose (13), a drainage water pump (15) is fixedly connected with the drainage hose (13), a water inlet water pump (16) is fixedly connected with the water inlet hose (14), an upper water level detector (17) and a lower water level detector (18) are respectively and fixedly arranged at one side of an atomization cavity (5), the upper water level detector (17) is positioned above the lower water level detector (18), an upper cover plate (19) of a shell is of a plane thin plate structure, and a long rectangular hole for placing an atomization port (1) is arranged in the middle, the engine body shell (20) is a concave box structure and forms a box structure together with the shell upper cover plate (19), and a plurality of ventilation holes are formed in the outer side end face of the engine body shell (20).

2. The atomizing 3D simulated flame fireplace of claim 1, wherein: the length range of the atomizing cavity (5) is 700-4000mm, the height range is 80-100mm, and the width range is 30-50 mm.

3. The atomizing 3D simulated flame fireplace of claim 1, wherein: the number of the atomizers (4) is 1-4.

4. The atomizing 3D simulated flame fireplace of claim 1, wherein: the number of the LED bulbs (6) is 9-12.

5. The atomizing 3D simulated flame fireplace of claim 1, wherein: the heating pipeline (9) is of a circular pipe structure, and a plurality of heat outlet holes are formed in the end face of the circular pipe.

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