CN212252810U - Electric fireplace - Google Patents

Abstract

The utility model provides an electric fireplace. The electric fireplace comprises a fixing plate, simulated ash carbon, simulated firewood, a flame forming piece, a front flame device and a rear flame device. Wherein, the simulated gray carbon is arranged on the fixed plate; the simulation firewood is arranged on the simulation gray carbon; the flame forming piece is arranged on the fixing plate, and a plurality of flame holes are formed in the flame forming piece; the front flame device comprises a front light source and a front light reflecting assembly, the front light source is arranged on one side of the simulated gray carbon, and the front light reflecting assembly is suitable for reflecting light rays emitted by the front light source to the simulated gray carbon and the simulated firewood; the rear flame device comprises a rear light source and a rear light reflecting assembly, the rear light source is arranged on one side of the flame forming part, and the rear light reflecting assembly is suitable for reflecting light rays emitted by the rear light source to penetrate through the flame holes and project the light rays onto an external device, so that the surface of the external device can present a flame effect. The technical scheme of the utility model, can improve the third dimension of the flame effect of electric fireplace, the authenticity of reinforcing flame effect.

Description

Electric fireplace

Technical Field

The utility model relates to a emulation fireplace field, in particular to electric fireplace.

Background

With the rapid development of economic construction and the improvement of the quality of life of people, more and more large buildings and families of residents begin to use electric fireplaces for decoration and beautification. The existing electric fireplace generally comprises a simulation firewood, a light source, a light reflecting component and a dark brown translucent rubber plate arranged on one side of the simulation firewood, light rays generated by the light source can form a flame effect only by being projected onto the dark brown translucent rubber plate through the light reflecting component, meanwhile, the simulation firewood is arranged on one side of the dark brown translucent rubber plate, so that the projection of the simulation firewood can only present a plane flame effect, the electric fireplace can not present a flame effect of a three-dimensional sense, and the authenticity of the flame effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an electric fireplace, aim at improving the third dimension of electric fireplace's flame effect to the authenticity of reinforcing flame effect.

In order to achieve the above object, the utility model provides an electric fireplace, electric fireplace includes fixed plate, emulation grey carbon, emulation firewood, flame formed part, preceding flame device and back flame device. Wherein the simulated gray carbon is mounted on the fixing plate; the simulation firewood is arranged on the simulation gray carbon; the flame forming piece is arranged on the fixing plate, and a plurality of flame holes are formed in the flame forming piece; the front flame device comprises a front light source and a front light reflecting assembly, the front light source is arranged on one side of the simulated gray carbon, and the front light reflecting assembly is suitable for reflecting light rays emitted by the front light source to the simulated gray carbon and the simulated firewood; the rear flame device comprises a rear light source and a rear light reflecting assembly, the rear light source is arranged on one side of the flame forming piece, and the rear light reflecting assembly is suitable for reflecting light rays emitted by the rear light source to penetrate through the flame holes and project the light rays to an external device so that the surface energy of the external device presents a flame effect.

Optionally, the electric fireplace further comprises a projection device, the projection device is arranged on one side of the rear flame device and comprises a projection assembly and a projection light source, and the projection assembly is suitable for projecting light emitted by the projection light source onto an external device so that the surface of the external device can present patterns of different shapes.

Optionally, a front control plate is configured between the front flame device and the simulated ash carbon, a front light source is arranged on the front control plate, and light emitted by the front light source can be projected to one side of the simulated ash carbon; and/or a rear control plate is constructed between the rear flame device and the simulated gray carbon, a rear light source is constructed on the rear control plate, and light rays emitted by the rear light source can be projected to the other side of the simulated gray carbon.

Optionally, the front flame device further comprises a front light blocking member, the front light blocking member is mounted on the fixing plate and located at one side of the front light reflecting assembly, and the front control plate is mounted on the front light blocking member; the rear flame device further comprises a rear light blocking part, the rear light blocking part is installed on the fixed plate and located between the front light blocking part and the flame forming parts, and the rear control panel is installed on the flame forming parts.

Optionally, a first bracket is configured at one end of the rear light blocking member, a second bracket is configured at the opposite end of the rear light blocking member, the first bracket, the second bracket, the fixing plate and the front light blocking member enclose a first accommodating cavity for accommodating the front light reflecting assembly, and one side of the first accommodating cavity facing the simulated gray carbon is open; the first support, the second support, the fixed plate, the rear light blocking part and the flame forming part enclose to form a second accommodating cavity for accommodating the rear light reflecting component.

Optionally, the front reflecting assembly includes a front rotating shaft and a front reflecting blade connected to the front rotating shaft, one end of the front rotating shaft is connected to the first bracket, and the other end of the front rotating shaft is connected to the second bracket; the rear reflecting component comprises a rear rotating shaft and a rear reflecting blade connected with the rear rotating shaft, one end of the rear rotating shaft is connected with the first support, and the other end of the rear rotating shaft is connected with the second support.

Optionally, the electric fireplace further comprises two motors, one of the two motors is connected with the front rotating shaft to drive the front rotating shaft to rotate, and the other motor is connected with the rear rotating shaft to drive the rear rotating shaft to rotate.

Optionally, the electric fireplace further comprises a first transparent plate and a second transparent plate, the first transparent plate is installed at the opening of the first accommodating cavity and connected with the front light blocking piece, and the second transparent plate is installed outside the flame hole and connected with the flame forming piece.

Optionally, a simulated firewood lamp is installed in the simulated firewood.

Optionally, the electric fireplace further comprises an electric heater device, and the electric heater device is arranged below the fixing plate.

The technical proposal of the utility model is that, a fixing plate is arranged in an electric fireplace, the simulation ash carbon, the simulation firewood, a flame forming part, a front flame device and a rear flame device, the front flame device comprises a front light source and a front reflecting component, the front reflecting component is suitable for reflecting the light emitted by the front light source to the simulation ash carbon and the simulation firewood, so that the simulation ash carbon and the simulation firewood can form the flame combustion effect, the rear flame device comprises a rear light source and a rear reflecting component, the rear reflecting component is suitable for reflecting the light emitted by the rear light source to pass through a flame hole and project the light to an external device, so that the surface of the external device can present the flame effect, the flame effect projected to the surface of the external device is not on the same plane with the flame combustion effects of the simulation ash carbon and the simulation firewood, the flame effect of the external device is combined with the flame combustion effects of the simulation ash carbon and, the electric fireplace can form a flame effect with three-dimensional sense, and the authenticity of the flame effect of the electric fireplace is enhanced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of an electric fireplace of the present invention;

FIG. 2 is a schematic view of the electric fireplace of FIG. 1 in another perspective;

FIG. 3 is a schematic exploded view of the structure of FIG. 1;

FIG. 4 is a cross-sectional view taken along line I-I of FIG. 2_；

FIG. 5 is a schematic view of a portion of the structure of FIG. 1;

FIG. 6 is a schematic view of a portion of the structure of FIG. 5;

FIG. 7 is a schematic structural view of the assembly of the simulated gray carbon and the simulated wood of FIG. 1;

fig. 8 is a schematic structural view of the flame molding in fig. 1.

The reference numbers illustrate:

the purpose of the present invention is to provide a novel and improved method and apparatus for operating a computer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides an electric fireplace, electric fireplace is used for building inside and resident family to decorate and beautify, electric fireplace can improve the third dimension of flame effect, strengthens the authenticity of flame effect.

Referring to fig. 1 to 4, in an embodiment of the electric fireplace 10 of the present invention, the electric fireplace 10 includes a fixing plate 100, a simulated ash 200, a simulated wood 300, a flame forming member 400, a front flame device 500, and a rear flame device 600. Wherein, the artificial gray carbon 200 is installed on the fixing plate 100; the simulated firewood 300 is arranged on the simulated gray carbon 200; the flame forming member 400 is mounted on the fixing plate 100, and a plurality of flame holes 421 are formed in the flame forming member 400; the front flame device 500 comprises a front light source 510 and a front light reflecting component 520, wherein the front light source 510 is arranged on one side of the simulated gray carbon 200, and the front light reflecting component 520 is suitable for reflecting light rays emitted by the front light source 510 to the simulated gray carbon 200 and the simulated firewood 300; the rear flame device 600 includes a rear light source 610 and a rear light reflecting member 620, the rear light source 610 is disposed at one side of the flame forming member 400, and the rear light reflecting member 620 is adapted to reflect light emitted from the rear light source 610 through the flame holes 421 and project the light onto an external device, so that the surface of the external device can present a flame effect.

For ease of description, the side of the electric fireplace 10 facing the user is referred to as the front, the side of the electric fireplace 10 facing away from the user is referred to as the back, the side of the electric fireplace 10 on the left hand of the user is referred to as the left, and the side of the electric fireplace 10 on the right hand of the user is referred to as the right.

Specifically, the artificial ash charcoal 200 is mounted on the fixing plate 100, the front flame device 500 and the rear flame device 600 are accommodated in the artificial ash charcoal 200, the flame forming member 400 is disposed on a side of the artificial ash charcoal 200 facing the external device, the flame forming member 400 can be made of a metal material or an opaque plastic material, and a plurality of flame holes 421 are formed in the flame forming member 400 to allow light to pass therethrough and be projected onto the external device. The external device need only be capable of imaging, such as but not limited to: a wall, or an imaging screen.

Further, the front light source 510 is disposed above the fixing plate 100, the front light source 510 may be a bulb or an LED lamp, in this embodiment, the front light source 510 is an LED lamp, and the LED lamp may select a light color of the LED lamp according to a flame color requirement, such as but not limited to: the LED lamp emitting red light, or the LED lamp emitting yellow light, or the LED lamp emitting blue light is selected, which is not limited herein. The LED lamp can have a plurality ofly, a plurality of LED lamps and control panel electric connection, the switch of control panel control LED lamp. The rear light source 610 has a similar composition to the front light source 510, and thus, a detailed description thereof is omitted.

In addition, the front light reflecting component 520 is arranged on one side of the front light source 510, and the front light reflecting component 520 is suitable for reflecting the light emitted by the front light source 510 to the simulated gray carbon 200 and the simulated diesel 300, so that the flame burning effect is formed on the simulated gray carbon 200 and the simulated diesel 300. The artificial gray carbon 200 and the artificial wood 300 can be made of light-transmitting wood or light-transmitting resin material, and the number of the artificial wood 300 can be one or more. The rear reflector assembly 620 is disposed on a side of the flame form 400 facing away from the external device. The composition of the front and rear light reflecting members 520 and 620 will be described in more detail later, and will be referred to later.

The technical scheme of the utility model, through set up the fixed plate 100 in the electric fireplace 10, emulation grey carbon 200, emulation firewood 300, flame formed part 400, preceding flame device 500 and back flame device 600, preceding flame device 500 includes front light source 510 and preceding reflection of light subassembly 520, preceding reflection of light subassembly 520 is applicable to the light reflection that sends the front light source 510 to emulation grey carbon 200 and emulation firewood 300, can form the effect of flame burning on emulation grey carbon 200 and the emulation firewood 300, back flame device 600 includes back light source 610 and back reflection of light subassembly 620, back reflection of light subassembly 620 is applicable to the light reflection that sends the back light source 610 and passes flame hole 421 and project on the external device, so that the surface energy of external device presents the flame effect, the flame effect that projects on the surface of external device is not in the same plane with the flame burning effect of emulation grey carbon 200 and emulation firewood 300, the flame effect of external device combines each other with the flame burning effect of emulation grey carbon 200 and emulation firewood 300, so that the electric fireplace 10 can form a flame effect with three-dimensional sense and the authenticity of the flame effect of the electric fireplace 10 is enhanced.

Referring to fig. 2, 4 and 7, in one embodiment, in order to facilitate the user to control the electric fireplace 10, optionally, the electric fireplace 10 further includes a projection device 700, the projection device 700 is disposed at one side of the rear flame device 600, the projection device 700 includes a projection assembly 710 and a projection light source (not shown), and the projection assembly 710 is adapted to project light emitted by the projection light source onto an external device, so that the surface of the external device can present patterns with different shapes.

Specifically, the projection device 700 is disposed in the simulated soot 200, the interior of the simulated soot 200 is hollow, the side plate of the simulated soot 200 facing the external device is provided with the mounting opening 210, and the projection device 700 is mounted in the mounting opening 210 of the simulated soot 200. The projection light source comprises a plurality of control panels and LED lamps, and the control panels are electrically connected with the LED lamps to control the LED lamps to be turned on or off. The projection assembly 710 includes a projection cover 711 and a projection part 712, the projection cover 711 is installed at the installation opening 210, the projection part 712 is provided with a plurality of projection holes, the plurality of projection holes correspond to the plurality of LED lamps, the LED lamps emit light, and the light is projected onto an external device through the projection holes to form a projected pattern, and the control board controls the on and off of the LED lamps, so that the external device can present different patterns, which may be in a digital shape, a symbol shape, or a combination thereof, and the number of the numbers or the symbols may be one or more, which is not limited herein.

Further, the electric fireplace 10 further comprises a function control box (not shown), the function control box is electrically connected with the control board of the projection device 700, when the function control box is adjusted, the pattern projected onto the external device by the projection device 700 can be changed, different patterns represent different functions, and the current pattern on the external device represents the function executed by the current state of the electric fireplace 10. The size of the pattern projected by the projection device 700 to the external device can vary according to the distance between the electric fireplace 10 and the external device, for example, when the distance between the two is close, the external device presents a smaller pattern appearance; when the distance between the two is longer, the pattern appearance presented by the outer wall device is larger, thereby facilitating the user to observe the pattern and control the electric fireplace 10.

Referring to fig. 3 to 5, in an embodiment, in order to improve the flame burning effect of the simulated ash carbon 200 and the simulated firewood 300 and increase the reality of the flame effect of the electric fireplace 10, optionally, a front control board 101 is configured between the front flame device 500 and the simulated ash carbon 200, a front light source 102 is disposed on the front control board 101, and light emitted by the front light source 102 can be projected to one side of the simulated ash carbon 200; and/or a rear control plate 103 is configured between the rear flame device 600 and the simulated gray carbon 200, a rear light source 104 is configured on the rear control plate 103, and light rays emitted by the rear light source 104 can be projected to the other side of the simulated gray carbon 200.

Specifically, the headlight light source 102 may be a bulb or an LED lamp, and in this embodiment, the headlight light source 102 is an LED lamp, and the LED lamp may have a light color selected according to the flame color requirements of the simulated gray carbon 200 and the simulated diesel 300, such as but not limited to: the LED lamp emitting red light, or the LED lamp emitting yellow light, or the LED lamp emitting blue light is selected, which is not limited herein. The LED lamps can be multiple, the LED lamps are electrically connected with the front control panel 101, and the front control panel 101 controls the on-off of the LED lamps. The backlight source 104 is similar to the headlight source 102 and will not be described in detail.

Further, the artificial gray carbon 200 and the artificial wood 300 can be made of light-transmitting wood or light-transmitting resin material, the number of the artificial wood 300 can be one or more, and the artificial wood 300 is installed on the artificial gray carbon 200. The light emitted by the headlight light source 102 is directly projected to one side of the simulated gray carbon 200, so that one side of the simulated gray carbon 200 is illuminated, the simulated gray carbon 200 is made of a light-transmitting material, part of the light can be transmitted through the simulated gray carbon 200 to be irradiated on the simulated firewood 300, so that the simulated firewood 300 is also illuminated, and the brightness of the simulated gray carbon 200 and the brightness of the simulated firewood 300 are improved; and/or the light emitted by the rear light source 104 is directly projected to the other side of the simulated ash carbon 200, so that the other side of the simulated ash carbon 200 is illuminated, the simulated ash carbon 200 is made of a light-transmitting material, part of the light can penetrate through the simulated ash carbon 200 and irradiate onto the simulated firewood 300, so that the simulated firewood 300 is also illuminated, the brightness of the simulated ash carbon 200 and the simulated firewood 300 is improved, the front light source 102 and the rear light source 104 jointly act, so that the whole simulated ash carbon 200 and the simulated firewood 300 are illuminated, and the light reflected by the front light-reflecting component 520 is matched, so that the light on the simulated ash carbon 200 and the simulated firewood 300 is richer, the flame combustion effect of the simulated ash carbon 200 and the simulated firewood 300 is improved, and the authenticity of the flame effect of the electric fireplace 10 is improved.

Referring to fig. 4 to 6, in an embodiment, in order to improve the stability of the flame effect of the electric fireplace 10 and prevent the light emitted from the light source inside the simulated gray carbon 200 from affecting the flame effect of the electric fireplace 10, optionally, the front flame device 500 further includes a front light-blocking member 530, the front light-blocking member 530 is mounted on the fixing plate 100 and located at one side of the front light-reflecting member 520, and the front control plate 101 is mounted on the front light-blocking member 530; the rear flame device 600 further includes a rear light blocking member 630, the rear light blocking member 630 is installed on the fixing plate 100 between the front light blocking member 530 and the flame molding member 400, and the rear control panel 103 is installed on the flame molding member 400.

Specifically, the front light blocking member 530 is disposed above the fixing plate 100 and on a side of the front light reflecting member 520 facing away from the front light source 510, the front light blocking member 530 includes a first front light blocking plate 531, a second front light blocking plate 532, and a third front light blocking plate 533, one end of the first front light blocking plate 531 is connected to one end of the second front light blocking plate 532, the other end of the second front light blocking plate 532 is connected to the third front light blocking plate 533, the first front light blocking plate 531 is disposed on a side of the front light reflecting member 520 facing away from the flame molding member 400, an included angle is formed between the second front light blocking plate 532 and the first front light blocking plate 531 such that the second front light blocking plate 532 is disposed in an inclined shape, the front control panel 101 is mounted on the second front light blocking plate 532, the third front light blocking plate 533 is disposed above the front light reflecting member 520, the front light reflecting member 520 is disposed between the front light blocking member 530 and the front light source 510, the front light blocking member 530 is made of an opaque material such that light emitted from the front light source 510 can be projected toward only one, the influence on the flame effect of the electric fireplace 10 caused by the fact that the light rays emitted by the front light source 510 are projected towards the front or the upper side of the electric fireplace 10 is avoided, and the stability of the flame effect of the electric fireplace 10 is improved. The front light blocking member 530 may be made of an opaque metal material or an opaque plastic material.

Further, a rear barrier 630 is disposed above the fixed plate 100, and the rear barrier includes a first rear barrier 631, a second rear barrier 632, a third rear barrier 633, the fourth rear light barrier 634, one end of the first rear light barrier 631 is connected to one end of the second rear light barrier 632, the other end of the second rear light barrier 632 is connected to one end of the third rear light barrier 633, the other end of the third rear light barrier 633 is connected to one end of the fourth rear light barrier 634, the first rear light barrier 631 protrudes downwards to form a third mounting bar 635, the control board of the front light source 510 is mounted on the third mounting bar 635, the second rear light barrier 632 is disposed between the rear light reflecting assembly 620 and the front light reflecting assembly 520, an included angle is formed between the third rear light barrier 633 and the second rear light barrier 632, the third rear light barrier 633 is obliquely disposed above the rear light reflecting assembly 620, and the fourth rear light barrier 634 is disposed above the rear light reflecting assembly 620. The rear light reflecting component 620 is arranged between the rear light blocking part 630 and the rear light source 610, and the rear light blocking part 630 is made of opaque materials, so that light rays emitted by the rear light source 610 can only be projected towards one side back to the rear light blocking part 630, the influence on the flame effect of the electric fireplace 10 caused by the fact that the light rays emitted by the rear light source 610 are projected towards the front or the upper side of the electric fireplace 10 is avoided, and the stability of the flame effect of the electric fireplace 10 is improved. The rear light blocking member 630 may be made of a metal material that does not transmit light, or may be made of a plastic material that does not transmit light.

In addition, the flame formed part 400 includes a first mounting plate 410, a flame forming plate 420, a second mounting plate 430 and a third mounting plate 440, one end of the first mounting plate 410 is connected with one end of the flame forming plate 420, the other end of the flame forming plate 420 is connected with one end of the second mounting plate 430, the other end of the second mounting plate 430 is connected with the third mounting plate 440, the first mounting plate 410 is arranged above the rear light reflecting component 620, an included angle is formed between the flame forming plate 420 and the first mounting plate 410, so that the flame forming plate 420 is obliquely arranged on one side of the rear light reflecting component 620 facing an external device, the second mounting plate 430 is arranged below the rear light reflecting component 620, and the third mounting plate 440 is arranged on the fixing plate 100. The first mounting plate 410 is provided with a first mounting bar 411 protruding from one side of the rear light reflecting component 620, the rear control panel 103 is mounted on the first mounting bar 411, and the rear control panel 103 is further provided with a light shielding plate 112 facing one side of the external device so as to be suitable for shielding light projected to the external device by the rear light source 104. The flame holes 421 are formed in the flame forming plate 420, a second mounting bar 431 is protruded from one side of the second mounting plate 430 facing the rear reflector assembly 620, and a control panel of the rear light source 610 is mounted on the second mounting bar 431 (as shown in fig. 8).

Referring to fig. 3 and 4, in an embodiment, in order to improve the stability of the flame effect of the electric fireplace 10 and prevent the light emitted from the light source in the simulated ash carbon 200 from projecting to the left and right of the electric fireplace 10 to affect the flame effect of the electric fireplace 10, optionally, one end of the rear light blocking member 630 is configured with a first bracket 105, the opposite end of the rear light blocking member 630 is configured with a second bracket 106, the first bracket 105, the second bracket 106, the fixing plate 100 and the front light blocking member 530 enclose a first accommodating cavity 107 for accommodating the front light reflecting component 520, and one side of the first accommodating cavity 107 facing the simulated ash carbon 200 is open; the first bracket 105, the second bracket 106, the fixing plate 100, the rear light blocking member 630 and the flame forming member 400 enclose to form a second accommodating cavity 108 for accommodating the rear light reflecting assembly 620.

Specifically, the first bracket 105 is mounted on the fixing plate 100, the second bracket 106 is mounted on the fixing plate 100 and is disposed opposite to the first bracket 105, and the first bracket 105 and the second bracket 106 are respectively located at the left and right ends of the rear light blocking member 630. The front light reflecting component 520 is disposed in the first accommodating cavity 107, one side of the first accommodating cavity 107 facing the simulated gray carbon 200 is open, the rear light reflecting component 620 is disposed in the second accommodating cavity 108, and the flame hole 421 is disposed on the flame forming member 400.

Further, when the front light source 510 emits light, the light reflected by the front light reflecting component 520 can only be projected onto the simulated ash carbon 200 through the opening of the first accommodating cavity 107, a light transmitting opening (not shown) is arranged between the front end and the rear end of the simulated ash carbon 200, and the light projected onto the simulated ash carbon 200 can be projected onto the simulated firewood 300 through the light transmitting opening, so that the simulated ash carbon 200 and the simulated firewood 300 can form a flame combustion effect, the influence on the flame effect of the electric fireplace 10 caused by the fact that the light emitted by the front light source 510 is projected towards the left and right directions of the electric fireplace 10 is avoided, and the stability of the flame effect of the electric fireplace 10 is improved; when the back light source 610 emits light, the light reflected by the back light reflecting component 620 can be projected to an external device only through the flame holes 421, so that the influence of the light emitted by the back light source 610 on the flame effect of the electric fireplace 10 due to the fact that the light is projected towards the left and right directions of the electric fireplace 10 is avoided, and the stability of the flame effect of the electric fireplace 10 is improved.

Referring to fig. 5 and 6, in an embodiment, to achieve the function of reflecting light by the front reflector assembly 520 and the rear reflector assembly 620, optionally, the front reflector assembly 520 includes a front rotating shaft 521 and a front reflector blade 522 connected to the front rotating shaft 521, one end of the front rotating shaft 521 is connected to the first bracket 105, and the other end of the front rotating shaft 521 is connected to the second bracket 106; the rear reflecting component 620 includes a rear rotating shaft 621 and a rear reflecting blade 622 connected to the rear rotating shaft 621, one end of the rear rotating shaft 621 is connected to the first support 105, and the other end of the rear rotating shaft 621 is connected to the second support 106.

Specifically, the front reflective vanes 522 are provided in a plurality, the front reflective vanes 522 are made of plastic material and have a reflective material plated on the surface, the front reflective vanes 522 are fixedly connected to the front rotary shaft 521, and the plurality of front reflective vanes 522 and the front rotary shaft 521 are spirally disposed, so that the front reflective vanes 522 can reflect light in different directions. The rear light reflecting member 620 is similar to the front light reflecting member 520 in composition and will not be described in detail herein.

Further, the electric fireplace 10 further comprises two motors 109, wherein one of the motors 109 is connected with the front rotating shaft 521 to drive the front rotating shaft 521 to rotate, and the other motor 109 is connected with the rear rotating shaft 621 to drive the rear rotating shaft 621 to rotate.

For convenience of description, the two motors 109 are defined as a first motor 109a and a second motor 109 b. Connecting sleeves (not shown) are arranged on the motor shafts of the two motors 109, one of the connecting sleeves is suitable for fixedly connecting the motor shaft of the first motor 109a with the front rotating shaft 521, and the other connecting sleeve is suitable for fixedly connecting the motor shaft of the second motor 109b with the rear rotating shaft 621. The connecting sleeve is made of an elastic material so that the connecting sleeve can be elastically deformed, such as but not limited to: a silicone material or a nitrile rubber material.

When the first motor 109a works, the motor shaft of the first motor 109a drives the front rotating shaft 521 to rotate through the connecting sleeve, the front rotating shaft 521 rotates to drive the front reflecting blade 522 to rotate, so that the front reflecting blade 522 can reflect the light projected to the front reflecting blade, the function of reflecting the light by the front reflecting component 520 is realized, and the reflected light has a dynamic effect. The principle of the rear light reflecting member 620 for reflecting light is similar to that of the front light reflecting member 520, and thus the description thereof is omitted.

Referring to fig. 3 and 4, in an embodiment, in order to improve the safety of the electric fireplace 10 and prevent a user from contacting the front light reflecting component 520 or the rear light reflecting component 620 during the operation of the electric fireplace 10 and causing possible injuries, optionally, the electric fireplace 10 further includes a first transparent plate 110 and a second transparent plate 111, the first transparent plate 110 is installed at the opening of the first receiving cavity 107 and connected with the front light blocking member 530, and the second transparent plate 111 is installed outside the flame holes 421 and connected with the flame molding member 400.

Specifically, the first transparent plate 110 and the second transparent plate 111 are made of a transparent plastic material, one end of the third front light blocking plate 533 is provided with a first clamping groove (not shown), one end of the first rear light blocking plate 631 is provided with a second clamping groove (not shown), one end of the first transparent plate 110 is disposed in the first clamping groove of the third front light blocking plate 533, and the other end of the first transparent plate 110 is disposed in the second clamping groove of the first rear light blocking plate 631, so that the first transparent plate 110 can be fixedly connected with the third front light blocking plate 533 and the first rear light blocking plate 631. When the electric fireplace 10 is in operation, the first transparent plate 110 prevents a user from easily extending into the opening of the first receiving cavity 107 to contact the front light reflecting member 520, thereby improving the safety of the electric fireplace 10.

Further, the inside of the artificial ash carbon 200 is hollow, an opening is provided on a side plate of the artificial ash carbon 200 facing the external device, the flame forming member 400 is provided inside the artificial ash carbon 200, the flame hole 421 of the flame forming member 400 is located at the opening of the artificial ash carbon 200, and the second transparent plate 111 is installed between the flame forming plate 420 and the side plate of the artificial ash carbon 200. When the electric fireplace 10 operates, the second transparent plate 111 makes it difficult for a user to extend from the flame holes 421 of the flame molding part 400 to contact the rear light reflecting member 620, thereby improving the safety of the electric fireplace 10.

Referring to fig. 1 and 3, in one embodiment, in order to improve the flame effect of the simulated firewood 300, a simulated firewood lamp 800 is optionally installed in the simulated firewood 300. The emulation firewood lamp 800 enables the emulation firewood 300 to form the combustion effect of different colours, and emulation firewood lamp 800 can be bulb or LED lamp, and in this embodiment, the emulation firewood lamp adopts the LED lamp, and the LED lamp can select the light colour of LED lamp according to the demand of flame colour, for example but not limited to: the LED lamp emitting red light, or the LED lamp emitting yellow light, or the LED lamp emitting blue light is selected, which is not limited herein. Still be equipped with the control panel (not shown in the drawing) in the emulation firewood, LED lamp can have a plurality ofly, a plurality of LED lamps and control panel electric connection, and the control panel is used for controlling the switch of LED lamp. In addition, the electric fireplace 10 further includes a simulated wood frame 113, the simulated wood frame 113 is installed at a front end of the simulated ash charcoal 200 and connected with the fixing plate 100, and the simulated wood frame 113 is used for decoration.

Referring to fig. 2 and 3, in an embodiment, the electric fireplace 10 further includes an electric heater 900, and the electric heater 900 is disposed below the fixing plate 100. A bottom plate, a front panel, a rear back plate, a left side plate and a rear side plate are further disposed below the fixing plate 100, and the electric heater 900 is mounted on the bottom plate. Electric heater unit 900 includes fan subassembly, the subassembly that generates heat and control circuit part, and the subassembly that generates heat can produce the heat, and the fan subassembly is applicable to the external environment that blows the heat that the subassembly produced to the casing that generates heat, and control circuit part and fan subassembly and the subassembly electric connection that generates heat.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. An electric fireplace, comprising:

a fixing plate;

the simulated ash carbon is arranged on the fixing plate;

the simulation firewood is arranged on the simulation gray carbon;

the flame forming piece is arranged on the fixing plate and is provided with a plurality of flame holes;

the front flame device comprises a front light source and a front light reflecting assembly, the front light source is arranged on one side of the simulated gray carbon, and the front light reflecting assembly is suitable for reflecting light rays emitted by the front light source to the simulated gray carbon and the simulated firewood; and

the back flame device, the back flame device includes back light source and back reflection of light subassembly, the back light source is located one side of flame formed part, back reflection of light subassembly is applicable to with the light reflection that the back light source sent passes the flame hole and project on the external device to make the surface energy of external device present the flame effect.

2. The electric fireplace of claim 1, further comprising a projection device disposed on one side of the rear flame device, the projection device including a projection assembly and a projection light source, the projection assembly adapted to project light from the projection light source onto an external device such that a surface of the external device can present different shaped patterns.

3. The electric fireplace as claimed in claim 1, wherein a front control plate is configured between the front flame device and the simulated ash carbon, and a front light source is provided on the front control plate, and light emitted from the front light source can be projected to one side of the simulated ash carbon; and/or a rear control plate is constructed between the rear flame device and the simulated gray carbon, a rear light source is constructed on the rear control plate, and light rays emitted by the rear light source can be projected to the other side of the simulated gray carbon.

4. The electric fireplace of claim 3, wherein the front flame device further comprises a front light shield mounted to the fixing plate on one side of the front light reflecting assembly, the front control panel being mounted to the front light shield; the rear flame device further comprises a rear light blocking part, the rear light blocking part is installed on the fixed plate and located between the front light blocking part and the flame forming parts, and the rear control panel is installed on the flame forming parts.

5. The electric fireplace as defined in claim 4, wherein one end of the rear light barrier is configured with a first bracket, an opposite end of the rear light barrier is configured with a second bracket, the first bracket, the second bracket, the fixing plate and the front light barrier enclose a first accommodating cavity for accommodating the front light reflecting component, and one side of the first accommodating cavity facing the simulated gray carbon is open; the first support, the second support, the fixed plate, the rear light blocking part and the flame forming part enclose to form a second accommodating cavity for accommodating the rear light reflecting component.

6. The electric fireplace as defined in claim 5, wherein the front light reflecting component includes a front rotating shaft and a front light reflecting vane connected to the front rotating shaft, one end of the front rotating shaft is connected to the first bracket, and the other end of the front rotating shaft is connected to the second bracket; the rear reflecting component comprises a rear rotating shaft and a rear reflecting blade connected with the rear rotating shaft, one end of the rear rotating shaft is connected with the first support, and the other end of the rear rotating shaft is connected with the second support.

7. The electric fireplace as claimed in claim 6, further comprising two motors, wherein one of the two motors is connected with the front rotating shaft to drive the front rotating shaft to rotate, and the other motor is connected with the rear rotating shaft to drive the rear rotating shaft to rotate.

8. The electric fireplace of claim 5, further comprising a first transparent plate mounted at the opening of the first receiving cavity and connected to the front light shield and a second transparent plate mounted outside the flame holes and connected to the flame molding.

9. The electric fireplace of any one of claims 1 to 8, wherein a simulated wood light is mounted in the simulated wood.

10. The electric fireplace of any one of claims 1 to 8, further comprising an electric heater disposed below the fixing plate.

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