CN107642813B

CN107642813B - Simulation fireplace with three-dimensional 3D flame effect

Info

Publication number: CN107642813B
Application number: CN201710972002.0A
Authority: CN
Inventors: 朱克奇
Original assignee: SOURCE PRO INDUSTRIES Ltd
Current assignee: SOURCE PRO INDUSTRIES Ltd
Priority date: 2017-10-18
Filing date: 2017-10-18
Publication date: 2023-05-05
Anticipated expiration: 2037-10-18
Also published as: CN107642813A

Abstract

The invention relates to the technical field of simulated flames, in particular to a simulated fireplace with a three-dimensional 3D flame effect, which comprises a light source device, a light reflecting device, a semi-lens and a semi-transparent mirror plate, wherein the light reflecting device is used for reflecting light rays emitted by the light source device, the semi-lens is used for transmitting the light rays reflected by the light reflecting device, and the semi-transparent mirror plate is used for reflecting and transmitting the light rays transmitted by the semi-lens and is obliquely arranged relative to the semi-lens; the light reflecting device comprises a light reflecting shaft and a light reflecting shaft driving mechanism for driving the light reflecting shaft to rotate. The invention has simple structure and low manufacturing and maintenance cost, and the flame effect imitating the combustion of the false firewood and the floating effect above the false firewood obtain vivid visual effects.

Description

Simulation fireplace with three-dimensional 3D flame effect

Technical Field

The invention relates to the technical field of simulated flames, in particular to a simulated fireplace with a three-dimensional 3D flame effect.

Background

The Chinese patent No. 200810216581.7 discloses a simulated fireplace, wherein the front side area of a furnace body is provided with simulated charcoal, a three-dimensional imaging screen is arranged behind the simulated charcoal, and a three-dimensional dynamic flame generating device is arranged behind the three-dimensional imaging screen; the flame generating device consists of flame simulation software, a flame simulation software decoder, a flame original display screen and an optical projection system; the flame simulation software generates codes required by simulating flames, the flame simulation software decoder decodes the codes and then displays the codes on an original display screen, and the optical projection system projects images displayed on the original display screen to the stereoscopic imaging screen; the stereoscopic imaging screen comprises a small optical screen, an intermediate medium and a grating which are sequentially stacked. The invention has the beneficial effects that the decoded flame image is projected onto the stereoscopic imaging screen through the optical projection system; due to the adoption of an optical projection system; therefore, the flame image formed on the small optical screen has high definition and vivid effect, and is greatly superior to the current simulated flame system. However, the simulation fireplace disclosed by the invention has the advantages of complex overall system, complex structure of an optical projection system, high production and use costs, and poor flame formed finally, and a new technical scheme is needed to be provided.

Disclosure of Invention

The invention aims to provide a simulated fireplace with a three-dimensional 3D flame effect, which has a simple structure and low manufacturing and maintenance cost, and can present a realistic 3D visual effect of flame burning and floating.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention provides a simulated fireplace with a three-dimensional 3D flame effect, which is characterized in that: the light source device comprises a light source device, a light reflecting device used for reflecting light rays emitted by the light source device, a light transmitting component used for transmitting the light rays reflected by the light reflecting device and two semi-lenses arranged in parallel, wherein the light reflecting device comprises a light reflecting shaft and a light reflecting shaft driving mechanism used for driving the light reflecting shaft to rotate, the light transmitting component refracts the light rays reflected by the light reflecting device to the two semi-lenses arranged in parallel, and the light rays are refracted between the two semi-lenses.

Preferably, the light-transmitting component comprises a lens with a triangular cross section, and the light reflected by the light reflecting device is incident from one surface of the light-transmitting component and is respectively refracted to the two half lenses from the other two surfaces.

Preferably, the light-transmitting component comprises a lens with a semi-circular arc-shaped section, and the light reflected by the light reflecting device is transmitted from the plane of the light-transmitting component and refracted to the two semi-transparent mirrors from the circular arc surface of the light-transmitting component.

Preferably, the light-transmitting component is made of a semi-transparent glass plate or a semi-transparent rubber plate.

The reflecting shaft comprises a rotating shaft and a plurality of reflecting sheets arranged on the rotating shaft.

Further, the reflecting sheets are arranged in a plurality of groups along the circumference of the rotating shaft, and the reflecting sheets of two adjacent groups are staggered in the axis direction of the rotating shaft.

The flame plate is arranged between the two semi-lenses, the flame plate is close to one side of one semi-lens, the other side of the semi-lens is provided with simulated firewood, one side of the simulated firewood is provided with a transparent glass plate, and the flame plate is provided with a light hole for simulating flame combustion.

Further, a semi-transparent glass plate or a semi-transparent rubber plate is arranged between the semi-lens and the simulated artificial firewood.

The light source device, the reflecting device, the light-transmitting component and the two semi-lenses which are arranged in parallel are sequentially arranged on the mounting frame from bottom to top, and the light-transmitting component is positioned between the two semi-lenses which are arranged in parallel.

Wherein, still including setting up in the heating device of mounting bracket.

The beneficial technical effects of the invention are as follows:

the invention provides a simulated fireplace with a three-dimensional 3D flame effect, which is characterized in that in practical application, a light source device emits light, a reflection shaft driving mechanism of a reflection device drives a reflection shaft to rotate, the reflection shaft reflects the light emitted by the light source device, the light irradiates a light transmission component, the light transmission component refracts the light to two semi-transparent mirrors arranged in parallel, and the light is folded in half between the two semi-transparent mirrors to form the three-dimensional 3D flame effect. The invention has simple structure and low manufacturing and maintenance cost, and the light rays are refracted between the two semi-transparent mirrors to form images, so that the 3D flame visual effect with suspended and floating flame and reality is formed.

Drawings

Fig. 1 is an exploded perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic partial cross-sectional view of a first embodiment of the present invention.

Fig. 3 is a schematic partial perspective view of a first embodiment of the present invention.

Fig. 4 is a schematic perspective view of a reflective device according to an embodiment of the invention.

Fig. 5 is an exploded perspective view of a second embodiment of the present invention.

FIG. 6 is a schematic illustration of an embodiment of the present inventionTwo (II)Is a schematic partial cross-section of (a).

Fig. 7 is a schematic partial perspective view of a second embodiment of the present invention.

Detailed Description

The invention will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the invention.

Embodiment one.

As shown in fig. 1 to 4, the invention provides a simulated fireplace with a stereoscopic 3D flame effect, which comprises a light source device 1, a light reflecting device 2 for reflecting light rays emitted by the light source device 1, a light transmitting component 3 for transmitting the light rays reflected by the light reflecting device 2, and two semi-transparent mirrors 4 arranged in parallel, wherein the light reflecting device 2 comprises a light reflecting shaft 21 and a light reflecting shaft driving mechanism 22 for driving the light reflecting shaft 21 to rotate, the light transmitting component 3 refracts the light rays reflected by the light reflecting device 2 to the two semi-transparent mirrors 4 arranged in parallel, and the light rays are refracted between the two semi-transparent mirrors 4.

When the three-dimensional 3D flame 08 is in practical application, the light source device 1 emits light, the reflecting shaft driving mechanism 22 of the reflecting device 2 drives the reflecting shaft 21 to rotate, the reflecting shaft 21 emits light to reflect the light to the light-transmitting component 3, the light-transmitting component 3 refracts the light to the two semi-transparent mirrors 4 which are arranged in parallel, and the light is folded in half between the two semi-transparent mirrors 4 to form the three-dimensional 3D flame 08 burning effect. The invention has simple structure and low manufacturing and maintenance cost, and light rays are refracted between the two semi-transparent mirrors 4 to form images, so that the 3D flame visual effect with the flame 08 floating in the air and vividness is formed.

In this embodiment, the flame plate 5 is further disposed between the two semi-transparent lenses 4, the flame plate 5 is close to one side of one semi-transparent lens 4, the other side of the semi-transparent lens 4 is provided with a simulated firewood 6, one side of the simulated firewood 6 is provided with a transparent glass plate 10, and the flame plate 5 is provided with a light hole 51 for simulating flame combustion. In practical application, light is transmitted from the light holes 51 of the flame plate 5 to the simulated artificial firewood 6, and the simulated artificial firewood 6 is watched through the transparent glass plate 10 to burn, so that a vivid 3D flame effect of suspended floating generated by burning the simulated artificial firewood 6 is formed.

In this embodiment, a semi-transparent glass plate or semi-transparent rubber plate 7 is disposed between the semi-transparent mirror 4 and the artificial firewood 6. The light rays penetrate through the semi-transparent glass plate or the semi-transparent rubber plate 7 and then irradiate the artificial firewood 6, so that the flame effect is enhanced, and the artificial firewood is more vivid.

In this embodiment, preferably, the light-transmitting component 3 includes a lens with a triangular cross section, and the light reflected by the light-reflecting device 2 is incident from one surface 01 of the light-transmitting component 3 and is refracted from the other two surfaces 02 to the two semi-transparent mirrors 4 respectively. The light reflected by the reflecting device 2 is respectively refracted to the two semi-transparent mirrors 4 by adopting the lens with the triangular section, so that the light is refracted between the two semi-transparent mirrors 4, and a suspended floating flame effect is formed. Further, the light-transmitting component 3 is made of a semi-transparent glass plate or a semi-transparent glue plate.

In this embodiment, the reflective axis 21 includes a rotation axis 211 and a plurality of reflective sheets 212 disposed on the rotation axis 211. When in use, the reflective shaft driving mechanism 22 drives the rotation shaft 211 to rotate, the rotation shaft 211 drives the reflective sheet 212 to rotate, and the reflective sheet 212 reflects the light emitted by the light source device 1 to the light-transmitting component 3. Specifically, the light reflecting sheets 212 are arranged in a plurality of groups, preferably six groups, along the circumferential array of the rotating shaft 211, and the light reflecting sheets 212 of two adjacent groups are staggered in the axial direction of the rotating shaft 211, so that the light reflecting performance of the light reflecting shaft 21 is good, and finally the flame effect of simulating the combustion of the artificial firewood 6 and the floating effect above the artificial firewood are vivid.

In this embodiment, the light source device 1, the light reflection device 2, the light transmission component 3 and the two semi-transparent mirrors 4 arranged in parallel are sequentially arranged on the mounting frame 8 from bottom to top, and the light transmission component 3 is positioned between the two semi-transparent mirrors 4 arranged in parallel. Specifically, the light source device 1 and the light reflecting device 2 form a flame light direct irradiation system, light is emitted from the bottom surface of the light transmitting component 3, and two semi-transparent mirrors 4 arranged in parallel are respectively arranged on the light transmitting component to be refracted mutually for imaging. By adopting the arrangement mode, the light path is simple, the structure is simple, the manufacturing and using cost is reduced, the flame imaging effect is good, and the 3D suspended floating vision of the flame is lifelike.

In this embodiment, the heat generating device 9 is further provided on the mounting frame 8. Specifically, the heating device 9 is installed at the top end of the installation frame 8, is convenient for heating, and further presents the 3D flame effect of imitating the combustion suspension of the fake firewood 5.

Embodiment two.

As shown in fig. 5 to 7, the second embodiment is different from the first embodiment in that: the light-transmitting component 3 comprises a lens with a semi-circular arc-shaped section, and light rays reflected by the light-reflecting device 2 are emitted from a plane 31 of the light-transmitting component 3 and are refracted to the two semi-transparent mirrors 4 from an arc surface 32 of the light-transmitting component 3. In this embodiment, the lenses with the semi-circular arc cross sections are used to respectively refract the light reflected by the reflecting device 2 to the two semi-transparent mirrors 4, so that the light is refracted between the two semi-transparent mirrors 4 to form an image, and a suspended floating flame effect is formed.

The foregoing embodiments are preferred embodiments of the present invention, and in addition, the present invention may be implemented in other ways, and any obvious substitution is within the scope of the present invention without departing from the concept of the present invention.

Claims

1. A simulated fireplace with stereoscopic 3D flame effect, characterized in that: the light source device comprises a light source device (1), a light reflecting device (2) for reflecting light rays emitted by the light source device (1), a light transmitting component (3) for transmitting the light rays reflected by the light reflecting device (2) and two semi-lenses (4) which are arranged in parallel, wherein the light reflecting device (2) comprises a light reflecting shaft (21) and a light reflecting shaft driving mechanism (22) for driving the light reflecting shaft (21) to rotate, the light transmitting component (3) refracts the light rays reflected by the light reflecting device (2) to the two semi-lenses (4) which are arranged in parallel, and the light rays are refracted between the two semi-lenses (4); the flame plate (5) is arranged between the two semi-transparent lenses (4), the flame plate (5) is close to one side of one semi-transparent lens (4), the other side of the semi-transparent lens (4) is provided with a simulated firewood (6), one side of the simulated firewood (6) is provided with a transparent glass plate (10), and the flame plate (5) is provided with a light hole (51) for simulating flame combustion.

2. A simulated fireplace with a stereoscopic 3D flame effect as claimed in claim 1, wherein: the light-transmitting component (3) comprises a lens with a triangular cross section, and light rays reflected by the light-reflecting device (2) are incident from one surface (01) of the light-transmitting component (3) and are respectively refracted to two half lenses (4) from the other two surfaces (02).

3. A simulated fireplace with a stereoscopic 3D flame effect as claimed in claim 1, wherein: the light-transmitting component (3) comprises a lens with a semi-circular arc-shaped section, and light rays reflected by the light-reflecting device (2) are emitted from a plane (31) of the light-transmitting component (3) and are refracted to the two semi-transparent mirrors (4) from an arc surface (32) of the light-transmitting component (3).

4. A simulated fireplace with a stereoscopic 3D flame effect as claimed in any one of claims 1 to 3 wherein: the light-transmitting component (3) is made of a semi-transparent glass plate or a semi-transparent rubber plate.

5. A simulated fireplace with a stereoscopic 3D flame effect as claimed in claim 1, wherein: the reflecting shaft (21) comprises a rotating shaft (211) and a plurality of reflecting sheets (212) arranged on the rotating shaft (211).

6. The simulated fireplace with stereoscopic 3D flame effect of claim 5, wherein: the reflectors (212) are arranged in a plurality of groups along the circumference of the rotary shaft (211), and the reflectors (212) of two adjacent groups are arranged in a staggered manner along the axis direction of the rotary shaft (211).

7. A simulated fireplace with a stereoscopic 3D flame effect as claimed in claim 1, wherein: a semi-transparent glass plate or a semi-transparent rubber plate (7) is arranged between the semi-transparent mirror (4) and the simulation firewood (6).

8. The simulated fireplace with stereoscopic 3D flame effect of claim 5, wherein: still package mounting bracket (8), light source device (1), reflex reflector (2), printing opacity subassembly (3) and two half lenses (4) that set up side by side set gradually in mounting bracket (8) from down upwards, printing opacity subassembly (3) are located between two half lenses (4) that set up side by side.

9. The simulated fireplace with stereoscopic 3D flame effect of claim 8, wherein: the heating device (9) is arranged on the mounting frame (8).