CN219550319U - Support bracket of simulated three-dimensional flame device - Google Patents

Abstract

The utility model provides a support bracket of a simulated three-dimensional flame device, which comprises a support seat and a support piece, wherein the support seat is used for supporting a light-emitting mechanism; the support seat is arranged in the simulated three-dimensional flame device, and the bearing piece is connected with the end part of the support seat, which is close to the flame spraying port; the supporting seat is of a hollow structure and is used as an air duct, and air flow flowing out of the air duct is blown out through the bearing piece. The support bracket of the simulated three-dimensional flame device can support the light-emitting mechanism and can also be used as a part for circulating mist air flow, so that the mist air flow outlet is close to the flame spraying port, the mist outlet speed and the mist outlet effect of the simulated three-dimensional flame device are improved, the simulation effect of simulated flames is greatly improved, and the simulated three-dimensional flame is more vivid.

Description

Support bracket of simulated three-dimensional flame device

Technical Field

The utility model relates to the technical field of simulated flames, in particular to a support bracket of a simulated three-dimensional flame device.

Background

In today's everyday life, candles rarely play a role in lighting, often to set aside an atmosphere. However, the common candles always have hidden safety hazards due to the existence of flame. Some simulated candles are now used to simulate real candles, avoiding safety hazards, such as by means of electronic lighting, to illuminate a flame-like object to simulate a flame. But the sense of realism is not high and needs to be improved.

In the present stage, some simulated flame devices with smoke effect are also arranged, and the simulated flame devices are provided with a mist generating mechanism, so that the mist generated by the mist generating mechanism needs to be blown to a flame spraying port by airflow, and the mist is irradiated on the flame spraying port through a light emitting mechanism to form simulated flames. However, the airflow for blowing mist in the current simulated flame device is far away from the flame spraying port, so that the mist spraying speed of the flame spraying port is low, the mist spraying effect of the flame spraying port is poor, and the effect of simulated flame is affected.

Disclosure of Invention

The utility model aims to overcome the defects and shortcomings in the prior art and provide a support bracket of a simulated three-dimensional flame device, which can support a luminous mechanism and can also be used as a part through which mist air flows, so that a mist air outlet is close to a flame spraying port, the mist outlet speed and the mist outlet effect of the simulated three-dimensional flame device are improved, and the effect of simulated flames is greatly improved.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a support bracket of a simulated stereoscopic flame device, which is characterized in that: the support bracket comprises a support seat and a support piece for supporting the light-emitting mechanism; the support seat is arranged in the simulated three-dimensional flame device, and the bearing piece is connected with the end part of the support seat, which is close to the flame spraying port; the supporting seat is of a hollow structure and is used as an air duct, and air flow flowing out of the air duct is blown out through the bearing piece.

In the scheme, the support bracket is used as a bracket body for installing the light-emitting mechanism and also used as an air duct, so that the internal structure of the simulated three-dimensional flame device can be greatly simplified. In addition, the air duct is used as an air flow passage, air flow can be blown out from the supporting piece, blown air flow can squeeze mist generated in the simulated stereoscopic flame device to the flame spraying opening to be sprayed out, the light emitting mechanism irradiates light beams on the mist sprayed out by the flame spraying opening, and the light beams are refracted by the mist to form dynamic flame. The bearing piece is close to the flame spraying port, and the air flow blown out from the bearing piece is also close to the flame spraying port, so that the fog outlet speed of the flame spraying port can be improved, the fog outlet effect of the flame spraying port is good, and the effect of simulating flames is greatly improved.

The air flow flowing out of the air duct is blown downwards or horizontally through the supporting piece. The support can adjust the air flow flowing out of the air duct, so that the air flow flowing out of the air duct is adjusted to be blown out.

The bearing piece comprises a pipeline and a mounting piece for bearing the light-emitting mechanism; the pipeline is communicated with the air duct and is provided with an air outlet, and the mounting piece is connected with the pipeline and is provided with a wind shield. The wind shield can block the air flow flowing out from the air outlet so as to change the blowing direction of the air flow or adjust the air flow.

The wind shield is arranged opposite to the air outlet.

The first scheme is as follows: the number of the wind shields is equal to that of the air outlets.

Or the second scheme is as follows: the wind shield is arranged outside the air outlet in a surrounding mode.

The windshield is disposed along an edge of the mounting member.

The body diameter of the mounting piece is larger than the pipe diameter of the pipeline; the mounting piece comprises a platform and a sleeve connected with the platform; the windshield is arranged on the platform, and the light-emitting mechanism is arranged inside the sleeve. The sleeve can shield the light of the light-emitting mechanism, so that the light beam of the light-emitting mechanism is intensively irradiated on the mist sprayed from the flame spraying port.

The bottom of the supporting seat is provided with an air supply device.

The light-emitting mechanism is a lamp bead; or the light-emitting mechanism is at least two lamp beads distributed along the flame spraying port.

Compared with the prior art, the utility model has the following advantages and beneficial effects: the support bracket of the simulated three-dimensional flame device can support the light-emitting mechanism and can also be used as a part for circulating mist air flow, so that the mist air flow outlet is close to the flame spraying port, the mist outlet speed and the mist outlet effect of the simulated three-dimensional flame device are improved, the simulation effect of simulated flames is greatly improved, and the simulated three-dimensional flame is more vivid.

Drawings

FIG. 1 is a schematic view of a support bracket of the present utility model disposed within a simulated solid flame device;

FIG. 2 is a schematic view of a support member in a support bracket of the present utility model;

FIG. 3 is a schematic view of a support member according to a second embodiment;

FIG. 4 is a schematic diagram of the light emitting mechanism distributed in the flame spraying port in the fourth embodiment;

wherein, 1 is the supporting seat, 2 is the wind channel, 3 is the pipeline, 4 is the air outlet, 5 is the platform, 6 is the sleeve, 7 is the windshield, 8 is the fan, 9 is the luminous mechanism, 11 is spouting the flame port, 12 is the air intake, 13 is the battery, 14 is the bottom, 15 is the shell, 16 is the face lid, 17 is fog generating mechanism, 18 is the water storage chamber.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the detailed description.

Example 1

As shown in fig. 1 and 2, the support bracket of the simulated stereoscopic flame device of the utility model comprises a support seat 1 and a bearing piece for bearing a light-emitting mechanism 9, wherein the support seat 1 is arranged in the simulated stereoscopic flame device and is connected with the bearing piece, the support seat 1 is of a hollow structure and is used as an air duct 2, and air flow flowing out of the air duct 2 is blown downwards through the bearing piece.

Specifically speaking, the bearing piece includes pipeline 3 and the installed part that is used for bearing luminous mechanism 9, pipeline 3 and wind channel 2 intercommunication are provided with air outlet 4, the installed part includes platform 5 and the sleeve 6 of being connected with platform 5, platform 5 is connected with pipeline 3 and is provided with windshield 7, luminous mechanism 9 sets up inside sleeve 6, this sleeve 6 can shelter from luminous mechanism 9's light for luminous mechanism 9's light beam concentrates and shines on the fog of flame spraying mouth 11 spun.

In this embodiment, the number of the wind shielding sheets 7 is equal to the number of the air outlets 4, and the wind shielding sheets 7 are disposed opposite to the air outlets 4. In addition, the wind shielding plate 7 is arranged along the edge of the platform 5, and the body diameter of the installation piece is larger than the pipe diameter of the pipeline 3, so that a flowing space for air flow is formed between the wind shielding plate 7 and the air outlet 4.

The bottom of the supporting seat 1 is provided with a fan 8, and the fan 8 is communicated with an air inlet 12 of the simulated three-dimensional flame device.

The simulated stereoscopic flame device of the embodiment further comprises a battery 13, a bottom cover 14, a shell 15, a face cover 16 provided with a flame spraying port 11, a light emitting mechanism 9 and a mist generating mechanism 17, wherein a water storage cavity 18 integrated with the shell is arranged inside the shell 15, the bottom cover 14 is covered with the bottom of the shell 15, and the face cover 16 is covered with the top of the shell 15. The mist generating mechanism 17 and the support bracket of the present embodiment are both disposed in the water storage chamber 18, and the light emitting mechanism 9 is disposed in the sleeve 6 of the support bracket. The battery 13 is provided on the bottom cover 14 and is connected to the mist generating mechanism 17, the light emitting mechanism 9 and the fan 8 through a circuit board to supply power. During operation, the mist generating mechanism 17 generates mist on the water surface of the water storage cavity 18, the air flow entering the space between the bottom cover 14 and the water storage cavity 18 from the air inlet 12 is sent into the air duct 2 through the fan 8, the wind shielding piece 7 of the support can adjust the air flow flowing out of the air duct 2, the air flow flowing out of the air duct 2 is blown downwards, the mist generated by the mist generating mechanism 17 can be extruded to the flame spraying opening 11 to be sprayed out by the air flow blown downwards, the light emitting mechanism 9 irradiates light beams on the mist sprayed out by the flame spraying opening 11, and light is refracted by the mist to form dynamic flame.

The mist generating mechanism of the simulated stereoscopic flame device comprises a micropore atomization sheet and a water absorbing rod communicated with the water storage cavity 18, wherein the micropore atomization sheet is connected with the water absorbing rod. The working principle of the microporous atomizing sheet in this embodiment is as follows: because the frequency and the working voltage of the microporous atomizing sheet are smaller, the microporous atomizing sheet does not need to be put into water for working, the microporous atomizing sheet is sprayed out through micropores in the middle, water is sucked up through a water suction rod by electrifying a circuit of the microporous atomizing sheet, and mist is formed through the microporous atomizing sheet. The microporous atomizing sheet is the prior art and is a mature product which can be purchased in the market.

The support bracket of the utility model is used as a bracket body for installing the luminous mechanism 9 and also used as the air duct 2, so that the internal structure of the simulated three-dimensional flame device can be greatly simplified, the water storage space of the water storage cavity 18 is large, and the water storage capacity is increased. In addition, the bearing piece can adjust the air current that the wind channel 2 flows out for the air current that the wind channel flows out blows out downwards, and the air current that blows out downwards can extrude the fog that emulation three-dimensional flame device inside produced to the play fog mouth, and spout from spouting the flame mouth relative with the play fog mouth, luminous mechanism shines the light beam on spouting flame mouth spun fog, light receives fog refraction to form dynamic flame, the inner structure of emulation three-dimensional flame device is simplified to this bearing bracket's design, can make fog air current exit position be close to spouting the flame mouth moreover, thereby improve the play fog speed and the play fog effect of emulation three-dimensional flame device, improve emulation effect of emulation flame greatly, realize emulation three-dimensional flame more vivid, more lifelike.

Example two

The present embodiment differs from the first embodiment only in that: as shown in fig. 3, the wind shielding plate 7 is disposed along the edge of the platform 5, and the wind shielding plate 7 is integrally formed and surrounds the outside of the air outlet 4.

Other structures of this embodiment are identical to those of the embodiment.

Example III

The present embodiment differs from the first embodiment only in that: the wind shield in the embodiment relatively shields the lower part of the air outlet, so that the air flow flowing out of the air duct is blown upwards; or when the wind shield is relatively shielded above the middle part or below the middle part of the air outlet, the air flow flowing out of the air duct is blown out horizontally. The direction of the air flow out of the air duct is adjusted according to the position of the mist generating mechanism, the position of the air duct and the like.

Other structures of this embodiment are identical to those of the embodiment.

Example IV

As shown in fig. 4, the light emitting mechanism 9 of the present embodiment is three beads capable of being distributed along the flame spraying opening 11, or may be two beads or more than four beads, and the beads may be different in color so that the light beam irradiates the mist sprayed from the flame spraying opening 11 in a layered manner, for example: the outer flame is one color and the inner flame is another color, much like a real flame.

The above examples are preferred embodiments of the present utility model, but the embodiments of the present utility model are not limited to the above examples, and any other changes, modifications, substitutions, combinations, and simplifications that do not depart from the spirit and principle of the present utility model should be made in the equivalent manner, and the embodiments are included in the protection scope of the present utility model.

Claims (10)

1. A support bracket of a simulated stereoscopic flame device, which is characterized in that: the support bracket comprises a support seat and a support piece for supporting the light-emitting mechanism; the support seat is arranged in the simulated three-dimensional flame device, and the bearing piece is connected with the end part of the support seat, which is close to the flame spraying port; the supporting seat is of a hollow structure and is used as an air duct, and air flow flowing out of the air duct is blown out through the bearing piece.

2. The simulated solid flame device support bracket of claim 1, wherein: the air flow flowing out of the air duct is blown downwards or horizontally through the supporting piece.

3. The support bracket of a simulated stereoscopic flame device of claim 1 or 2, wherein: the bearing piece comprises a pipeline and a mounting piece for bearing the light-emitting mechanism; the pipeline is communicated with the air duct and is provided with an air outlet, and the mounting piece is connected with the pipeline and is provided with a wind shield.

4. A support bracket for a simulated solid flame device as claimed in claim 3 wherein: the wind shield is arranged opposite to the air outlet.

5. The simulated solid flame device support bracket of claim 4, wherein: the number of the wind shields is equal to that of the air outlets.

6. A support bracket for a simulated solid flame device as claimed in claim 3 wherein: the wind shield is arranged outside the air outlet in a surrounding mode.

7. The simulated solid flame device support bracket of claim 4, wherein: the windshield is disposed along an edge of the mounting member.

8. A support bracket for a simulated solid flame device as claimed in claim 3 wherein: the body diameter of the mounting piece is larger than the pipe diameter of the pipeline; the mounting piece comprises a platform and a sleeve connected with the platform; the windshield is arranged on the platform, and the light-emitting mechanism is arranged inside the sleeve.

9. The simulated solid flame device support bracket of claim 1, wherein: the bottom of the supporting seat is provided with an air supply device.

10. The simulated solid flame device support bracket of claim 1, wherein: the light-emitting mechanism is a lamp bead; or the light-emitting mechanism is at least two lamp beads distributed along the flame spraying port.