CN204678247U - Projection simulation flame lamp stand - Google Patents

Abstract

The utility model discloses a kind of projection simulation flame lamp stand and comprises lampshade, flame sheet, support, swing circuit plate, conductive shaft, LED, magnet drive, the first magnet, control circuit board and battery case; The middle part of described swing circuit plate has conductive through hole, and described conductive shaft passes described conductive through hole by described swing circuit plate carry in described support; Described LED is fixed on one end of described swing circuit plate and to described flame sheet projection, the positive pole of described LED is electrically connected with described conductive through hole, and negative pole is connected with the negative electricity of described swing circuit plate; Described first magnet is fixed on the other end of described swing circuit plate, and described magnet drive is positioned at the below of described first magnet, and described magnet drive is electrically connected with described control circuit board; The positive pole of described control circuit board is electrically connected with described conductive shaft, and negative pole is connected with the negative electricity of described swing circuit plate.The utility model is better than the simulated effect of traditional lamp stand.

Description

Projection simulation flame lamp stand

Technical field

The utility model relates to a kind of emulation light fixture, particularly relates to the projection simulation flame lamp stand that a kind of simulated effect is good.

Background technology

Flame sheet is normally articulated on lamp holder by existing emulation lamp stand, a LED is fixed again on lamp holder, the light that LED is penetrated is irradiated to the side of flame sheet, by being built in the driving mechanism in lampshade, flame sheet is driven to wave around drive-connecting shaft is left and right, thus realize the swing of flame sheet, then coordinate the effect of light, reach the simulated effect of flame combustion.

But in the flame flicking process of reality, flame goes to upper and lower beats, and the flame sheet of existing emulation lamp stand is left and right waving, although can flame effect be simulated, flame combustion effect is not really true to life, and simulated effect is unsatisfactory.

Utility model content

The purpose of this utility model is to provide a kind of simulated effect better projection simulation flame lamp stand.

To achieve these goals, the projection simulation flame lamp stand that the utility model provides comprises lampshade, flame sheet, support, swing circuit plate, conductive shaft, LED, magnet drive, the first magnet, control circuit board and battery case; Described support is fixed on described battery case, and described lampshade is located at outside described support, and described flame sheet to be arranged on described support and to stretch out described lampshade; The middle part of described swing circuit plate has conductive through hole, and described conductive shaft passes described conductive through hole by described swing circuit plate carry in described support; Described LED is fixed on one end of described swing circuit plate and to described flame sheet projection, the positive pole of described LED is electrically connected with described conductive through hole, and negative pole is connected with the negative electricity of described swing circuit plate; Described first magnet is fixed on the other end of described swing circuit plate, and described magnet drive is positioned at the below of described first magnet, and described magnet drive is electrically connected with described control circuit board; The positive pole of described control circuit board is electrically connected with described conductive shaft, and negative pole is connected with the negative electricity of described swing circuit plate; Described battery case is electrically connected with described control circuit board.

Compared with prior art, because described LED is fixed on described swing circuit plate one end by the utility model, again described swing circuit plate is passed through described conductive shaft carry on described support, make the conductive through hole electrical contact of described conductive shaft and described swing circuit plate, thus make described conductive shaft both play the effect that described in carry, swing circuit plate makes it wave, can realize again powering to described LED, then the active force that the magnetic heteropole of described first magnet and magnet drive repels is utilized, thus drive described swing circuit plate to wave, because described swing circuit plate waves at perpendicular, therefore, described LED is then presented, under wave, thus project out on described flame sheet and present, the projection light of lower movement, and then simulate the upper of real flame, under the effect of beating, thus make the utility model projection simulation flame lamp stand more true to nature, simulated effect is better.

Preferably, described magnet drive comprises ejector and the second magnet, and be positioned at the below of described first magnet in the ejection channel that described second magnet is upper and lower is placed in described ejector slidably, described ejector drives described second magnet upwards to launch.By using described ejector to drive described second magnet upper and lower motion, make described second magnet and described first magnet close to each other, thus the active force utilizing heteropole to repel each other order about the swing of described swing circuit plate.

Preferably, described swing circuit plate comprises and has the first negative pole and the second negative pole, described first negative pole is positioned at one end of being provided with described LED and is connected with the negative electricity of described LED, and described second negative pole is near described conductive through hole and be connected by the negative electricity of annealed copper wire with described control circuit board.Because described control circuit board is connected on described swing circuit plate by annealed copper wire, and described annealed copper wire can bring resistance when described swing circuit plate waves, therefore, second negative pole of described swing circuit plate is arranged near described conductive through hole, effectively can reduce the resistance to described swing circuit plate, avoid affecting upper and lower drop shadow effect of beating; And described annealed copper wire self is comparatively tiny, resistance when swing circuit plate is waved can be reduced further.

Preferably, the described swing circuit plate one end being provided with described LED is provided with weight block.Described weight block can balance described swing circuit plate, makes it swing better effects if.

Preferably, the middle part carry of described flame sheet is on the lamp holder of described support.By by described flame sheet carry on described support, the flame making it imitate out not only can upper and lowerly be beated, and can reach the left and right airflow effects waved, and makes imitation more true to nature.

Particularly, described support is provided with iron plate, and described iron plate is fixed on the lamp holder of described support, and stretches out carry portion to the central authorities of described lamp holder, and described flame sheet carry is in described carry portion.

Preferably, described swing circuit plate to wave plane mutually vertical with the side of described flame sheet, described LED can be made like this to project on described flame sheet, and go to upper and lower when described swing circuit plate swings and beat.

Preferably, described support comprises lamp bracket and support bar, and described support bar is fixed on described battery case, and described lamp bracket is fixed on described support bar.

Preferably, the positive pole of described LED is electrically connected by annealed copper wire with the conductive through hole of described swing circuit plate.Described annealed copper wire effectively can reduce the resistance to described swing circuit plate, avoids affecting drop shadow effect.

Preferably, the lower end of described flame sheet is provided with the 3rd magnet, and described 3rd magnet is positioned at the top of described magnet drive, and described magnet drive drives described first magnet and the 3rd magnet simultaneously.By arranging the 3rd magnet under described flame sheet, can drive the first magnet and the 3rd magnet in order to described magnet drive simultaneously, thus described LED and described flame sheet are waved simultaneously, the flicker effect of flame is more true to nature.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model projection simulation flame lamp stand.

Fig. 2 is the structural representation of swing circuit plate in the utility model projection simulation flame lamp stand.

Fig. 3 is the structural representation that the utility model projection simulation flame lamp stand Flame sheet arranges the 3rd magnet.

Detailed description of the invention

For describing technology contents of the present utility model, structural feature, the effect that realizes in detail, accompanying drawing is coordinated to be explained in detail below in conjunction with embodiment.

As shown in Figure 1 and Figure 2, the utility model projection simulation flame lamp stand 100 comprises lampshade 1, flame sheet 2, support 3, swing circuit plate 4, conductive shaft 5, LED 6, magnet drive 7, first magnet 8, control circuit board 9 and battery case 10; Described support 3 is fixed on described battery case 10, and described lampshade 1 covers at outside described support 3, and described flame sheet 2 to be arranged on described support 3 and to stretch out described lampshade 1; Described swing circuit plate 4 both ends horizontal, middle part is curved; The Central Symmetry point of described swing circuit plate 4 has conductive through hole 41, and described conductive through hole 41 is for filling with copper vias, and namely inwall is coated with copper sheet, to realize conduction; Described conductive shaft 5 passes described conductive through hole 41 by described swing circuit plate 4 carry in described support 3, described conductive shaft 5 and the electrical contact of described conductive through hole 41; Described LED 6 is fixed on one end of described swing circuit plate 4 and projects to described flame sheet 2, described swing circuit plate 4 to wave plane mutually vertical with the side of described flame sheet 2, described LED 6 can be made like this to project on described flame sheet 2, and go to upper and lower when described swing circuit plate 4 swings and beat.The positive pole of described LED 6 is electrically connected with described conductive through hole 41, and negative pole is connected with the negative electricity of described swing circuit plate 4; Described first magnet 8 is fixed on the other end of described swing circuit plate 4, and described magnet drive 7 is positioned at the below of described first magnet 8, and described magnet drive 7 is electrically connected with described control circuit board 9; The positive pole of described control circuit board 9 is electrically connected with described conductive shaft 5, and negative pole is connected with the negative electricity of described swing circuit plate 4; Described battery case 10 is electrically connected with described control circuit board 9 by wire and switch 10a.

Refer to Fig. 1 again, described magnet drive 7 comprises ejector 71 and the second magnet 72, be positioned at the below of described first magnet 8 in the ejection channel that described second magnet 72 is upper and lower is placed in described ejector 71 slidably, described ejector 71 drives described second magnet 72 upwards to launch.By using described ejector 71 to drive the upper and lower motion of described second magnet 72, make described second magnet 72 close to each other with described first magnet 8, thus the active force utilizing heteropole to repel each other order about described swing circuit plate 4 swings.

Refer to Fig. 2 again, described swing circuit plate 4 comprises and has the first negative pole 42 and the second negative pole 43, described first negative pole 42 is positioned at one end of being provided with described LED 6 and is connected with the negative electricity of described LED 6, described second negative pole 43 is near described conductive through hole 41 and be connected by the negative electricity of annealed copper wire with described control circuit board 9, described second negative pole 43 is not more than 2mm with the distance of described conductive through hole 41, and this distance is set to 2mm by the utility model.Because described control circuit board 9 is connected on described swing circuit plate 4 by annealed copper wire, and described annealed copper wire can bring resistance when described swing circuit plate 4 waves, therefore, second negative pole 43 of described swing circuit plate 4 is arranged near described conductive through hole 41, effectively can reduce the resistance to described swing circuit plate 4, avoid affecting upper and lower drop shadow effect of beating; And described annealed copper wire self is comparatively tiny, resistance when swing circuit plate 4 is waved can be reduced further.In addition, the positive pole of described LED 6 also can be electrically connected by annealed copper wire with the conductive through hole 41 of described swing circuit plate 4, can reduce the resistance to described swing circuit plate so further, avoid affecting drop shadow effect.Described swing circuit plate 4 one end being provided with described LED 6 is provided with weight block 44.Described weight block 44 can balance described swing circuit plate 4, makes it swing better effects if.

Shown in composition graphs 1, described support 3 comprises lamp bracket 31 and support bar 32, and described support bar 32 is in 7 character form structures, and described support bar 32 is fixed on described battery case 10, and described lamp bracket 31 is fixed on described support bar 32.Described lamp bracket 31 is fixedly provided with iron plate 33, and described iron plate 33 stretches out carry portion to the central authorities of described lamp holder, and described flame sheet 2 carry in described carry portion, thus makes its carry on the lamp holder of described support 3.By by described flame sheet 2 carry on described support 3, the flame making it imitate out not only can upper and lowerly be beated, and can reach the left and right airflow effects waved, and makes imitation more true to nature.

Refer to Fig. 3 again, the utility model can also arrange the 3rd magnet 21 in the lower end of described flame sheet 2, described 3rd magnet 21 is positioned at the top of described magnet drive 7, namely described first magnet 8 and described 3rd magnet 21 are positioned at the both sides of the top of described magnet drive 7 simultaneously, and described magnet drive 7 can drive described first magnet 8 and the 3rd magnet 21 simultaneously.By arranging the 3rd magnet 21 for 2 times at described flame sheet, can drive the first magnet 8 and the 3rd magnet 21 in order to described magnet drive 7 simultaneously, thus described LED 6 and described flame sheet 2 are waved simultaneously, the flicker effect of flame is more true to nature.

Compared with prior art, because described LED 6 is fixed on described swing circuit plate 4 one end by the utility model, again described swing circuit plate 4 is passed through described conductive shaft 5 carry on described support 3, make conductive through hole 41 electrical contact of described conductive shaft 5 and described swing circuit plate 4, thus make described conductive shaft 5 both play the effect that described in carry, swing circuit plate 4 makes it wave, can realize again powering to described LED 6, then the active force that described first magnet 8 repels with the magnetic heteropole of magnet drive 7 is utilized, thus drive described swing circuit plate 4 to wave, because described swing circuit plate 4 waves at perpendicular, therefore, described LED 6 is presented, under wave, thus project out on described flame sheet 2 and present, the projection light of lower movement, and then simulate the upper of real flame, under the effect of beating, thus make the utility model projection simulation flame lamp stand 100 more true to nature, simulated effect is better.

Swing circuit plate 4 involved by the utility model projection simulation flame lamp stand 100 and the circuit theory of control circuit board 9 are well known to those of ordinary skill in the art, are no longer described in detail at this.

Above disclosedly be only preferred embodiments of the present utility model, certainly can not limit the interest field of the utility model with this, therefore according to the equivalent variations that the utility model claim is done, still belong to the scope that the utility model is contained.

Claims (10)

1. a projection simulation flame lamp stand, is characterized in that: comprise lampshade, flame sheet, support, swing circuit plate, conductive shaft, LED, magnet drive, the first magnet, control circuit board and battery case; Described support is fixed on described battery case, and described lampshade is located at outside described support, and described flame sheet to be arranged on described support and to stretch out described lampshade; The middle part of described swing circuit plate has conductive through hole, and described conductive shaft passes described conductive through hole by described swing circuit plate carry in described support; Described LED is fixed on one end of described swing circuit plate and to described flame sheet projection, the positive pole of described LED is electrically connected with described conductive through hole, and negative pole is connected with the negative electricity of described swing circuit plate; Described first magnet is fixed on the other end of described swing circuit plate, and described magnet drive is positioned at the below of described first magnet, and described magnet drive is electrically connected with described control circuit board; The positive pole of described control circuit board is electrically connected with described conductive shaft, and negative pole is connected with the negative electricity of described swing circuit plate; Described battery case is electrically connected with described control circuit board.

2. projection simulation flame lamp stand as claimed in claim 1, it is characterized in that: described magnet drive comprises ejector and the second magnet, be positioned at the below of described first magnet in the ejection channel that described second magnet is upper and lower is placed in described ejector slidably, described ejector drives described second magnet upwards to launch.

3. projection simulation flame lamp stand as claimed in claim 1, it is characterized in that: described swing circuit plate comprises and has the first negative pole and the second negative pole, described first negative pole is positioned at one end of being provided with described LED and is connected with the negative electricity of described LED, and described second negative pole is near described conductive through hole and be connected by the negative electricity of annealed copper wire with described control circuit board.

4. projection simulation flame lamp stand as claimed in claim 1, is characterized in that: the described swing circuit plate one end being provided with described LED is provided with weight block.

5. projection simulation flame lamp stand as claimed in claim 1, is characterized in that: the middle part carry of described flame sheet is on the lamp holder of described support.

6. projection simulation flame lamp stand as claimed in claim 5, it is characterized in that: described support is provided with iron plate, described iron plate is fixed on the lamp holder of described support, and stretches out carry portion to the central authorities of described lamp holder, and described flame sheet carry is in described carry portion.

7. projection simulation flame lamp stand as claimed in claim 1, is characterized in that: described swing circuit plate to wave plane mutually vertical with the side of described flame sheet.

8. projection simulation flame lamp stand as claimed in claim 1, it is characterized in that: described support comprises lamp bracket and support bar, described support bar is fixed on described battery case, and described lamp bracket is fixed on described support bar.

9. projection simulation flame lamp stand as claimed in claim 1, is characterized in that: the positive pole of described LED is electrically connected by annealed copper wire with the conductive through hole of described swing circuit plate.

10. projection simulation flame lamp stand as claimed in claim 1, it is characterized in that: the lower end of described flame sheet is provided with the 3rd magnet, described 3rd magnet is positioned at the top of described magnet drive, and described magnet drive drives described first magnet and the 3rd magnet simultaneously.