CN206545962U - Save artificial electronic fireplace and artificial electronic fireplace component - Google Patents

Abstract

The utility model provides a kind of energy-conservation artificial electronic fireplace, is related to the technical field of heating system, including body of heater and flame simulating assembly；Flame simulating assembly includes light source, rotating shaft, reflecting piece, orifice plate, light-passing board and emulation bavin；Reflecting piece is connected in rotating shaft, and light source is arranged on reflecting piece side, and orifice plate is connected with light-passing board, reflecting piece and the emulation bavin two sides that to be separately positioned on light-passing board relative；The light that light source is sent is projected to reflecting piece rear portion and reflexes to orifice plate, and another part is projected to emulation bavin by light-passing board.Solve in the prior art, the flame and emulation bavin combustion efficiency of fireplace need two wiring boards, and the problem of wasting the energy has reached the effect for saving the energy.The utility model also provides connection in a kind of artificial electronic fireplace component, including mounting bracket, the mounting bracket multiple described energy-conservation artificial electronic fireplaces.The problem of flare burning simulated effect is poor in the prior art is solved, makes whole artificial electronic fireplace component that there is three-dimensional combustion efficiency.

Description

Save artificial electronic fireplace and artificial electronic fireplace component

Technical field

The utility model is related to the technical field of heating system, more particularly, to one kind energy-conservation artificial electronic fireplace and emulation Electronic wall furnace module.

Background technology

Fireplace, as a kind of independent heating system, is generally built into by wall, and combustible is used for the energy in stove, and And chimney is provided with stove.In current allegro work and life, people thirst for enjoying that part of nature, the temperature that fireplace is brought Warm, romantic leisure is felt, but traditional fireplace is generally using timber as fuel, relatively elaborate when lighting, and when burning also The thermal loss that can be produced in flue dust, pollution indoor environment, and stove is big, causes the thermal efficiency low, the use given people is caused Very big inconvenience.Therefore people are improved fireplace using the instrument of modernization, develop a kind of electronics fireplace, electronic wall Stove is as a kind of household electrical appliance, compared with traditional fireplace, and flue dust and peculiar smell will not be produced when using, not only saves and warms oneself into This, returns the indoor appreciation effect for bringing elegance, and the flame effect used can show moment, and more decoration is brought at home Good visual effect.

In the prior art, used electronics fireplace, as shown in Figure 1 and Figure 2, its primary structure include body of heater and are arranged on Flame simulating assembly in body of heater, described flame simulating assembly include the ＇ of the first LED wiring board 11, the ＇ of flare shaping axle 12, The ＇ of motor 13, the dark brown semi-transparent ＇ of gelatin plate 14,141 ＇ of offset plate front, the ＇ of offset plate reverse side 142, the ＇ of artificial firewood 15, the second LED circuit Plate 16 ＇, the ＇ of the first LED wiring board 11 are arranged on the ＇ of flare shaping axle 12 bottom, and the ＇ of flare shaping axle 12 is provided with multiple Reflecting blade, the ＇ of flare shaping axle 12 one end connection motor, during motor rotate counterclockwise, drives the ＇ of flare shaping axle 12 ceaselessly Rotate, when the ＇ of the first LED wiring board 11 is lighted, produced light is projected by the ＇ of flare shaping axle 12 upper Reflecting blade , at this moment, can from the dark brown semi-transparent ＇ of gelatin plate 14 141 ＇ of offset plate front to the dark brown semi-transparent ＇ of gelatin plate 14 ＇ of offset plate reverse side 142 See that irregular flare shape is being flashed, so as to form effect of the flare in burning；The glue of the dark brown semi-transparent ＇ of gelatin plate 14 141 ＇ bottoms of plate front set the ＇ of artificial firewood 15, the ＇ of artificial firewood 15 to have the effect of printing opacity, be provided with the ＇ of artificial firewood 15 bottom The ＇ of second LED wiring board 16, when the ＇ of the second LED wiring board 16 is lighted, produced light is incident upon on the ＇ of artificial firewood 15, Form the effect of the ＇ of artificial firewood 15 burnings.

But, when forming flare combustion efficiency and artificial firewood combustion efficiency, it is necessary to which two LED wiring boards could be real It is existing, so result in use cost high；The combustion efficiency of flare needs to realize by dark brown transparent offset plate, and artificial firewood It is close to dark brown transparent offset plate, can only thus shows the flare combustion efficiency of plane formula, stereoeffect when making the flare burn Difference；Form flare combustion efficiency and need to use dark brown transparent offset plate, and the cost of dark brown transparent offset plate is high, causes whole fireplace Use cost is high.

Utility model content

The purpose of this utility model is to provide a kind of energy-conservation artificial electronic fireplace, to solve present in prior art, In fireplace when forming flare combustion efficiency and artificial firewood combustion efficiency, flare burning and artificial firewood burning are required to individually Light source could realize, the technical problem for causing the operating cost of fireplace high.

The utility model also provides a kind of artificial electronic fireplace component, to solve present in prior art, the fireplace Two light sources are needed to realize the combustion efficiency of flare and artificial firewood, operating cost is high, and the flare combustion efficiency of formation can only be in Existing plane formula effect, the technical problem of third dimension difference.

A kind of energy-conservation artificial electronic fireplace that the utility model is provided, including body of heater and the flame simulating dress being placed in body of heater Put；

The flame simulating assembly includes light source, the rotating shaft for connecting drive division, reflecting piece, orifice plate, light-passing board and emulation bavin； The reflecting piece is connected in rotating shaft, and the light source is arranged on the side of reflecting piece and one end in orifice plate, the orifice plate One end connection of the other end and light-passing board, the reflecting piece is arranged on the one side of light-passing board, and the emulation bavin is arranged on light-passing board Another side；

The light source emits beam, and a part of light is projected to reflecting piece back reflection to orifice plate, the projection of another part light To reflecting piece, emulation bavin is projected to by light-passing board.

Further, the flame simulating assembly also includes shutter；

One end of the shutter and the other end of light-passing board are connected, and the other end and the bottom of furnace body of the shutter connect Connect, make to form chamber between the light source, orifice plate, light-passing board, shutter and bottom of furnace body.

Further, the rotating shaft is connected in first support, and the drive division is connected on the secondary support bracket, and described first Support is connected to one end of orifice plate, and the second support is connected to the other end of orifice plate, the first support and second support point The other two ends to orifice plate are closed.

Further, there is angle, the number of degrees of the angle are more than 0 degree and are less than 90 degree between the light source and orifice plate.

Further, the drive division includes motor；

The output end of the motor is fixedly connected with rotating shaft, and the motor-driven rotatable shaft rotation, the reflecting piece vertically connects It is connected in rotating shaft.

Further, the orifice plate includes the first supporting plate, connecting plate and the second supporting plate；

One end of first supporting plate is vertical with one end of connecting plate to be connected, the other end of the connecting plate and second Fagging is connected, and has inclined angle between connecting plate and the second supporting plate, reflecting piece is in second be obliquely installed There is the glory hole that multiple light for making reflecting piece are passed through in the medial surface of supporting plate, second supporting plate.

Further, in addition to the grey carbon of emulation and andiron；

The grey carbon of emulation is arranged on the side of andiron, and the emulation bavin is arranged on the opposite side of andiron and in andiron It is interior.

Further, in addition to the heater that is placed in body of heater.

It is multiple that the utility model also provides connection in a kind of artificial electronic fireplace component, including mounting bracket, the mounting bracket Described energy-conservation artificial electronic fireplace.

The energy-conservation artificial electronic fireplace that the utility model is provided, the flame simulating assembly is arranged in stove, makes shape in stove Into the effect of flame simulating；The reflecting piece is connected in rotating shaft, as rotating shaft is rotated together, drives light to be projected；Institute The side that light source is arranged on reflecting piece is stated, when being lighted so as to light source, directly light is incident upon in reflecting piece；The light source is set In the bottom of orifice plate, the position of light source is defined, the other end connection light-passing board of the orifice plate, the reflecting piece is in saturating Below tabula rasa, the emulation bavin is arranged on above light-passing board, so that light source is powered when lighting, a part of light is incident upon instead After on mating plate, directly it is reflected on orifice plate, light is passed through after orifice plate, is incident upon behind body of heater, forms the effect of flare burning, And after another part light is incident upon in reflecting piece, by the light-passing board of upper end, be directly incident upon on emulation bavin, form firewood combustion The effect of burning, at this moment, is incident upon the combustion efficiency of flare combustion efficiency behind body of heater and emulation bavin not at grade, but It is that both use same light source, synchronous can form the shape of flame combustion, use a light source just can be so as to reach simultaneously The purpose of flare combustion efficiency and emulation bavin combustion efficiency is realized, the energy has been saved.

The artificial electronic fireplace component that the utility model is provided, is connected to multiple energy-conservation artificial electronic fireplaces in turn installation In frame, electric energy is not only saved, produced stereoeffect is good, improves the visual effect of whole artificial electronic fireplace component.

Brief description of the drawings

, below will be right in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art The accompanying drawing used required in embodiment or description of the prior art is briefly described, it should be apparent that, describe below In accompanying drawing be some embodiments of the present utility model, for those of ordinary skill in the art, do not paying creativeness On the premise of work, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the front view of electronics fireplace of the prior art；

Fig. 2 is the left view of electronics fireplace of the prior art；

The front view for the energy-conservation artificial electronic fireplace that Fig. 3 provides for the utility model embodiment；

Fig. 4 is the sectional view in Fig. 3 along A-A directions；

Fig. 5 is the sectional view in Fig. 3 along B-B directions；

The right view for the energy-conservation artificial electronic fireplace that Fig. 6 provides for the utility model embodiment；

The structural representation for the energy-conservation artificial electronic fireplace that Fig. 7 provides for the utility model embodiment；

The structural representation of the one side for the flame simulating assembly that Fig. 8 provides for the utility model embodiment；

The structural representation of the another side for the flame simulating assembly that Fig. 9 provides for the utility model embodiment；

The structural representation for the orifice plate that Figure 10 provides for the utility model embodiment.

Icon：11 ＇-the first LED wiring boards；12 ＇-flare shaping axle；13 ＇-motor；14 ＇-dark brown semi-transparent gelatin Plate；15 ＇-artificial firewood；16 ＇-the second LED wiring boards；141 ＇-offset plate front；142 ＇-offset plate reverse side；

11- bodies of heater；12- flame simulating assemblies；13- heaters；121- light sources；122- rotating shafts；123- is reflective Piece；124- orifice plates；125- light-passing boards；126- emulates bavin；127- shutters；The grey carbon of 128- emulation；129- andirons； The supporting plates of 1241- first；1242- connecting plates；The supporting plates of 1243- second.

Embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described Embodiment is a part of embodiment of the utility model, rather than whole embodiments.Based on the embodiment in the utility model, sheet The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality Novel protected scope.

, it is necessary to explanation in description of the present utility model, term " " center ", " on ", " under ", it is "left", "right", " perpendicular Directly ", the orientation or position relationship of the instruction such as " level ", " interior ", " outer " are, based on orientation shown in the drawings or position relationship, to be only Described for the ease of description the utility model and simplifying, rather than to indicate or imply that signified device or element must have specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.In addition, term " the One ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that indicating or implying relative importance.

, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected to by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning of the language in the utility model.

The front view for the energy-conservation artificial electronic fireplace that Fig. 3 provides for the utility model embodiment；Fig. 4 is along A-A in Fig. 3 The sectional view in direction；Fig. 5 is the sectional view in Fig. 3 along B-B directions；The energy-conservation emulation that Fig. 6 provides for the utility model embodiment The right view of electronics fireplace；The structural representation for the energy-conservation artificial electronic fireplace that Fig. 7 provides for the utility model embodiment；Fig. 8 The structural representation of the one side of the flame simulating assembly provided for the utility model embodiment；Fig. 9 is implemented for the utility model The structural representation of the another side for the flame simulating assembly that example is provided；The orifice plate that Figure 10 provides for the utility model embodiment Structural representation.

As shown in Fig. 3~10, a kind of energy-conservation artificial electronic fireplace that the utility model is provided, including body of heater 11 and it is placed in stove Flame simulating assembly 12 in body 11；

The flame simulating assembly 12 include light source 121, connect the rotating shaft 122 of drive division, reflecting piece 123, orifice plate 124, Light-passing board 125 and emulation bavin 126；The reflecting piece 123 is connected in rotating shaft 122, and the light source 121 is arranged on reflecting piece 123 Side and one end in orifice plate 124, the other end of the orifice plate 124 is connected with one end of light-passing board 125, the reflecting piece 123 are arranged on the one side of light-passing board 125, and the emulation bavin 126 is arranged on the another side of light-passing board 125；

The light source 121 emits beam, and a part of light is projected to the back reflection of reflecting piece 123 to orifice plate 124, another part Light is projected to after reflecting piece 123, and emulation bavin 126 is projected to by light-passing board 125.

As shown in figure 3 to figure 7, the body of heater 11 include anterior face glass, the rear baffle at rear portion, left plate, right plate, Top plate and bottom plate, make one installation shell of the formation of body of heater 11, and the face glass can use structure, the structure on convex surface of plane Or the structure of concave surface, One function control box is installed on the right plate, the function control box is to the electricity in body of heater 11 The keying of source circuit is controlled；Bottom sets flame simulating assembly 12 in the body of heater 11, makes the effect of flame simulating to stove Interior upper direction projection；The light source 121 of the flame simulating assembly 12 uses LED wiring board；The reflecting piece 123 is anti- Light blade, is to use to electroplate the plastic tab that reflectorized material is made, and Reflecting blade is directly inserted in rotating shaft 122 and consolidated Fixed, then the two ends of Reflecting blade are fixed by rotary reflective blade helically oar shape with nylon cable tie respectively；It is described LED wiring board is fixedly connected on assist side support, and is arranged on the lower position of Reflecting blade, such as the position institute in Fig. 5 Show, the circuit board mount is fixedly connected on bottom plate, and is inclined to set between bottom plate, the upper end of the circuit board mount The left end of orifice plate 124 can also be fixedly connected on；The left end of the orifice plate 124 sets the outer of assist side support and Reflecting blade Side, the right-hand member of the orifice plate 124 is connected with the left end of light-passing board 125, and the light-passing board 125 is horizontally disposed with, the right side of light-passing board 125 End is connected with the lower inside of glass panel so that the lower inside of glass panel to the light of LED wiring board from front Put and blocked, described orifice plate 124 is the orifice plate that flare passes through, be to be made using Metal plate, the light-passing board 125 is Made using transparent plastic material, to be projected to the light on Reflecting blade；Set reflective below the light-passing board 125 Emulation bavin 126 is set above blade, the light-passing board 125, the light that Reflecting blade is projected is projected to through light-passing board 125 Emulate on bavin 126；The emulation bavin 126 is made using plastic material, it would however also be possible to employ resin material makes, and is several Bavin of different shapes, quantity can using one or at least one；The LED wiring board, orifice plate 124, light-passing board 125, Glass panel and sole shape are into chamber, so that the Reflecting blade rotated with rotating shaft 122 is contained in chamber, LED wiring board When lighting, a part of light is directly incident upon on Reflecting blade on back reflection to orifice plate 124, and the hole for then passing through orifice plate 124 is thrown Penetrate on rear baffle, the effect of flame combustion is formed, after another part light is incident upon on Reflecting blade, by the printing opacity of upper end Plate 125 is incident upon on emulation bavin 126, forms the effect of emulation bavin burning.

Further, the flame simulating assembly also includes shutter 127；

One end of the shutter 127 is connected with the other end of light-passing board 125, the other end and stove of the shutter 127 The bottom of body 11 is connected, and makes to form chamber between the light source 121, orifice plate 124, light-passing board 125, shutter 127 and the bottom of body of heater 11 Room.

The shutter 127 is made using Metal plate, it would however also be possible to employ plastic material makes, the upper end of shutter 127 It is connected with the right-hand member of light-passing board 125, the lower end of shutter 127 is connected with bottom plate, shutter 127 is arranged on before Reflecting blade Portion position；A chamber, Reflecting blade are formed between the light source 121, orifice plate 124, light-passing board 125, shutter 127 and bottom plate It is arranged in chamber.

Further, the rotating shaft 122 is connected in first support, and the drive division connection is on the secondary support bracket, described First support is connected to one end of orifice plate 124, and the second support is connected to the other end of orifice plate 124, the first support and Second support is closed to the two ends of orifice plate 124 respectively.

The rotating shaft 122 uses iron axle, and the rotating shaft 122 is connected by axle adapter sleeve with the rotary shaft on drive division, institute Axle adapter sleeve is stated to make using soft elastomeric material；The rotating shaft 122 is connected in the first support of the left end of body of heater 11, described First support is that flare is molded bracing strut, and the drive division is connected in the second support of the right-hand member of body of heater 11, the second support For electric machine support, the motor is fixedly connected on electric machine support using screw, the flare shaping bracing strut and electric machine support Be connected to the two ends of orifice plate 124, make the light source 121, orifice plate 124, light-passing board 125, shutter 127, bottom plate, flare into An enclosed flare molding structure space is formed between profile shaft support and electric machine support, it is empty that Reflecting blade is arranged on the closing Between inside.

Further, there is angle, the number of degrees of the angle are more than 0 degree and are less than 90 between the light source 121 and orifice plate 124 Degree.

The LED wiring board is connected to the rear positions of bottom plate, and the lower end of LED wiring board is connected with bottom plate, upper end Hanging to set, the LED wiring board can also be arranged on the left end of orifice plate 124, so that LED wiring board and orifice plate 124 An acute angle is formed between left end, LED wiring board can rotate in the range of 90 degree, light is projected.

Further, the drive division includes motor；

The output end of the motor is fixedly connected with rotating shaft 122, and the motor-driven rotatable shaft 122 rotates, the reflecting piece 123 are vertically connected in rotating shaft 122.

When the motor-driven rotatable shaft 122 rotates, Reflecting blade does spinning movement with rotating shaft 122.The motor can be with Using synchronous motor, it would however also be possible to employ stepper motor.

Further, the orifice plate 124 includes the first supporting plate 1241, the supporting plate 1243 of connecting plate 1242 and second；

One end of first supporting plate 1241 is vertical with one end of connecting plate 1242 to be connected, the connecting plate 1242 it is another One end is connected with the second supporting plate 1243, and has inclined angle between the supporting plate 1243 of connecting plate 1242 and second, is made Reflecting piece 123, which is in the medial surface for the second supporting plate 1243 being obliquely installed, second supporting plate 1243, has multiple make The glory hole that the light of reflecting piece 123 is passed through.

As shown in Figure 10, first supporting plate 1241, the supporting plate 1243 of connecting plate 1242 and second are oblong-shaped Tabular, the lower end of first supporting plate 1241 is vertical with bottom plate to be connected, and attachment structure is more firm, or described first The lower end of fagging 1241 is not vertical with bottom plate to be connected, that is to say, that left between the lower end of the first supporting plate 1241 and bottom plate certain Gap, make the mould molding of orifice plate 124 simpler；The upper end of first supporting plate 1241 is with being horizontally set on connecting plate 1242 left end is vertically connected, and the lower end of second supporting plate 1243 of the right-hand member of the connecting plate 1242 with tilting upward setting connects Connect, the upper end of the second supporting plate 1243 is connected with being horizontally set on the left end of light-passing board 125；The Reflecting blade is arranged on The medial surface of two supporting plates 1243, multiple glory holes are formed in second supporting plate 1243, so that the light of Reflecting blade It is incident upon through glory hole on rear baffle.

Further, in addition to the grey carbon 128 of emulation and andiron 129；

As shown in Fig. 8~9, the grey carbon 128 of emulation is arranged on the side of andiron 129, and the emulation bavin 126 is arranged on bavin The opposite side of frame 129 is simultaneously in andiron 129.

The grey carbon 128 of described emulation and andiron 129 are that, using plastic material making, the grey carbon 128 of emulation uses spiral shell Nail is fixedly connected on below andiron 129, and the emulation bavin 126, which is screwed, to be connected to above andiron 129, the emulation Grey carbon 128, andiron 129 and emulation bavin 126 constitute emulation bavin component, and emulate bavin and need not be fixed on body of heater 11, can be with It is directly placed above light-passing board 125, emulation bavin component can also be fixedly connected on body of heater 11 using screw.

Further, in addition to the heater 13 that is placed in body of heater 11.

Power supply pcb board is also associated with the dividing plate, the power supply pcb board is connected on pcb board support, the power supply Pcb board is that heater 13 provides power supply, and using the keying of function control box control heater 13.

In one embodiment of the present utility model, opening function control box starts the power supply of flame simulating assembly 12, motor Rotate counterclockwise, motor drives rotating shaft 122 to rotate counterclockwise, and Reflecting blade is rotated counterclockwise under the drive of rotating shaft 122, LED The LED of lamp driver plate is lighted, after a part of light of LED is projected on Reflecting blade, is reflexed on orifice plate 124, is passed through Glory hole is formed after irregular flare shape, is incident upon on rear baffle, forms the effect of flame combustion, another portion of LED After light splitter is projected on Reflecting blade, it is incident upon by the light-passing board 125 of upper end on emulation bavin 126, forms emulation bavin 126 and fire The effect of burning；Start the power supply of heater 13, after power supply pcb board is powered, heater 13 is begun to warm up, produced heat Flow direction is indoor；The lower end of body of heater 11 is supported to body of heater 11, the position of body of heater 11 is more stablized.

A kind of energy-conservation artificial electronic fireplace that the utility model is provided, the flare combustion efficiency and emulation bavin combustion efficiency When, it is common using a light source, save cost；Rear baffle and emulation bavin are but same between the two not in approximately the same plane Step projection flare shape, shows a kind of combustion efficiency with third dimension flare；Excessive projector panel need not be used, from And material is saved, reduce the cost of manufacture.

It is multiple that the utility model also provides connection in a kind of artificial electronic fireplace component, including mounting bracket, the mounting bracket Described energy-conservation artificial electronic fireplace.

A kind of artificial electronic fireplace component that the utility model is provided, installs multiple energy-conservation artificial electronic walls in mounting bracket Stove, overall flare is burnt, stereoeffect is more life-like, and the third dimension of flare is stronger；Realized using a light source, greatly The energy is reduced greatly, the cost of manufacture is also saved.

Finally it should be noted that：Various embodiments above is only limited to illustrate the technical solution of the utility model, rather than to it System；Although the utility model is described in detail with reference to foregoing embodiments, one of ordinary skill in the art should Understand：It can still modify to the technical scheme described in foregoing embodiments, or to which part or whole Technical characteristic carries out equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly The scope of each embodiment technical scheme of type.

Claims (9)

1. one kind energy-conservation artificial electronic fireplace, it is characterised in that including body of heater (11) and the flame simulating being placed in body of heater (11) Device (12)；

The flame simulating assembly (12) includes light source (121), the rotating shaft (122) for connecting drive division, reflecting piece (123), orifice plate (124), light-passing board (125) and emulation bavin (126)；The reflecting piece (123) is connected in rotating shaft (122), the light source (121) It is arranged on the side of reflecting piece (123) and one end in orifice plate (124), the other end and light-passing board of the orifice plate (124) (125) one end connection, the reflecting piece (123) is arranged on the one side of light-passing board (125), and the emulation bavin (126) is arranged on The another side of light-passing board (125)；

The light source (121) emits beam, and a part of light is projected to reflecting piece (123) back reflection to orifice plate (124), another portion Light splitter is projected to after reflecting piece (123), and emulation bavin (126) is projected to by light-passing board (125).

2. energy-conservation artificial electronic fireplace according to claim 1, it is characterised in that the flame simulating assembly also includes hiding Baffle plate (127)；

One end of the shutter (127) is connected with the other end of light-passing board (125), the other end of the shutter (127) with Body of heater (11) bottom is connected, and makes the light source (121), orifice plate (124), light-passing board (125), shutter (127) and body of heater (11) Chamber is formed between bottom.

3. energy-conservation artificial electronic fireplace according to claim 1, it is characterised in that the rotating shaft (122) is connected to first On support, on the secondary support bracket, the first support is connected to one end of orifice plate (124), described second for the drive division connection Support is connected to the other end of orifice plate (124), and the first support and second support are sealed to the two ends of orifice plate (124) respectively Close.

4. energy-conservation artificial electronic fireplace according to claim 1, it is characterised in that the light source (121) and orifice plate (124) Between there is angle, the number of degrees of the angle are more than 0 degree less than 90 degree.

5. energy-conservation artificial electronic fireplace according to claim 1, it is characterised in that the drive division includes motor；

The output end of the motor is fixedly connected with rotating shaft (122), motor-driven rotatable shaft (122) rotation, the reflecting piece (123) it is vertically connected in rotating shaft (122).

6. energy-conservation artificial electronic fireplace according to claim 1, it is characterised in that the orifice plate (124) includes first Fagging (1241), connecting plate (1242) and the second supporting plate (1243)；

One end of first supporting plate (1241) is vertical with one end of connecting plate (1242) to be connected, the connecting plate (1242) The other end is connected with the second supporting plate (1243), and is had between connecting plate (1242) and the second supporting plate (1243) inclined Angle, makes reflecting piece (123) be in the medial surface for the second supporting plate (1243) being obliquely installed, second supporting plate (1243) The upper glory hole passed through with multiple light for making reflecting piece (123).

7. energy-conservation artificial electronic fireplace according to claim 1, it is characterised in that also including the grey carbon (128) of emulation and bavin Frame (129)；

The grey carbon (128) of emulation is arranged on the side of andiron (129), and the emulation bavin (126) is arranged on the another of andiron (129) Side is simultaneously interior in andiron (129).

8. energy-conservation artificial electronic fireplace according to claim 1, it is characterised in that also including being placed in adding in body of heater (11) Thermal (13).

9. connection is multiple as right will in a kind of artificial electronic fireplace component, it is characterised in that including mounting bracket, the mounting bracket Seek the energy-conservation artificial electronic fireplace any one of 1-8.