CN109084261B - Swinging simulated flame lamp - Google Patents

Abstract

Translated fromChinese

本发明公开一种摇摆仿真火焰灯，包括灯头、承载支架、摇摆支架、仿真火焰、发光体及驱动机构，所述承载支架固定于所述灯头内，所述发光体设置于所述承载支架上且与所述承载支架上的导电端子电连接，所述仿真火焰连接于所述摇摆支架上且套于所述发光体外，所述摇摆支架挂载于所述承载支架上，所述驱动机构驱动所述摇摆支架以带动所述仿真火焰摆动。本发明摇摆仿真火焰灯具有摇摆自然，仿真效果好且节能的优点。

The invention discloses a swing simulated flame lamp, which includes a lamp holder, a bearing bracket, a swing bracket, a simulated flame, a luminous body and a driving mechanism. The bearing bracket is fixed in the lamp holder, and the luminous body is arranged on the bearing bracket. and is electrically connected to the conductive terminals on the bearing bracket, the simulated flame is connected to the swing bracket and is placed outside the luminous body, the swing bracket is mounted on the bearing bracket, and the driving mechanism drives The swing bracket drives the simulated flame to swing. The swing simulation flame lamp of the present invention has the advantages of natural swing, good simulation effect and energy saving.

Description

Translated fromChinese

摇摆仿真火焰灯Swinging simulated flame lamp

技术领域Technical field

本发明涉及一种仿真火焰灯，尤其涉及一种摇摆自然，仿真效果好且节能的摇摆仿真火焰灯。The invention relates to a simulated flame lamp, and in particular to a swing simulated flame lamp that swings naturally, has good simulation effect and is energy-saving.

背景技术Background technique

现有的仿真火焰灯，特别是仿真火焰呈立体可视的火焰灯，一般包括驱动机构、发光体、泡壳及摇摆组件，通过将发光体内置于泡壳内，再将泡壳安装于摇摆组件上，然后通过驱动机构驱动摇摆组件摆动，使泡壳摆动，实现仿真火焰的效果。然而，由于现有的发光体也是安装于摇摆组件上随摇摆组件一起摆动的，因此，连接电源与发光体的电线也会随着发光体的摆动而摇摆。在摇摆的过程中，电线会对泡壳的摇摆造成拖累，从而使整体摇摆不自然，仿真效果差，并且电线会消耗仿真火焰摇摆时的动能，使其消耗更多的电量，节能效果差。Existing simulated flame lamps, especially those in which the simulated flame is three-dimensionally visible, generally include a driving mechanism, a luminous body, a bulb and a swing assembly. The luminous body is placed in the bulb, and then the bulb is installed on the swing. On the assembly, the swing assembly is then driven to swing through the driving mechanism, causing the bulb to swing to achieve the effect of simulated flames. However, since the existing luminous body is also installed on the swing component and swings along with the swing component, the wires connecting the power source and the luminous body will also swing as the luminous body swings. During the swing process, the wires will drag down the swing of the bubble shell, making the overall swing unnatural and the simulation effect poor. Moreover, the wires will consume the kinetic energy of the simulated flame when it swings, causing it to consume more power and the energy saving effect is poor.

发明内容Contents of the invention

本发明的目的在于提供一种摇摆自然，仿真效果好且节能的摇摆仿真火焰灯。The purpose of the present invention is to provide a swing simulated flame lamp with natural swing, good simulation effect and energy saving.

为了实现上述目的，本发明提供的摇摆仿真火焰灯包括灯头、承载支架、摇摆支架、仿真火焰、发光体及驱动机构，所述承载支架固定于所述灯头内，所述发光体设置于所述承载支架上且与所述承载支架上的导电端子电连接，所述仿真火焰连接于所述摇摆支架上且套于所述发光体外，所述摇摆支架挂载于所述承载支架上，所述驱动机构驱动所述摇摆支架以带动所述仿真火焰摆动。In order to achieve the above object, the swing simulated flame lamp provided by the present invention includes a lamp head, a bearing bracket, a swing bracket, a simulated flame, a luminous body and a driving mechanism. The bearing bracket is fixed in the lamp holder, and the luminous body is arranged in the on the carrying bracket and electrically connected to the conductive terminals on the carrying bracket; the simulated flame is connected to the swinging bracket and is placed on the luminous body; the swinging bracket is mounted on the carrying bracket; The driving mechanism drives the swing bracket to drive the simulated flame to swing.

与现有技术相比，由于本发明设置承载支架，使其固定于灯头内，再将发光体固定于所述承载支架，而摇摆支架挂载于所述承载支架上，并使仿真火焰连接于所述摇摆支架上，因此，在所述摇摆支架摇摆时，只有所述仿真火焰随着所述摇摆支架摇摆，而所述发光体并不会摇摆。并且，由于所述发光体设置于所述承载支架上，并与所述承载支架上的导电端子电连接，所述导电端子可与电源或控制电路板连接，因此，所述发光体无需使用导线进行导电，避免现有的火焰灯使用导线连接发光体并与发光体一起摇摆，造成整体摇摆不自然及导线消耗仿真火焰摇摆时的动能的缺点，从而有效提高仿真效果，减少能量的消耗，节约电能；而且取消导线连接可以有效简化结构，提高整个产品的装配效率。Compared with the prior art, the present invention provides a load-bearing bracket to be fixed in the lamp holder, and then fixes the luminous body to the load-bearing bracket, and the swing bracket is mounted on the load-bearing bracket, and the simulated flame is connected to Therefore, when the swing bracket swings, only the simulated flame swings with the swing bracket, and the luminous body does not swing. Moreover, since the luminous body is arranged on the carrying bracket and is electrically connected to the conductive terminals on the carrying bracket, the conductive terminals can be connected to the power supply or the control circuit board. Therefore, the luminous body does not need to use wires. Conduct electricity to avoid the shortcomings of existing flame lamps that use wires to connect the luminous body and swing together with the luminous body, causing the overall swing to be unnatural and the wires to consume the kinetic energy of the simulated flame swing, thereby effectively improving the simulation effect, reducing energy consumption, and saving money. Electric energy; and eliminating wire connections can effectively simplify the structure and improve the assembly efficiency of the entire product.

较佳地，所述承载支架上开设有通孔，所述摇摆支架上设有悬挂件，所述悬挂件穿过所述通孔而挂载于所述承载支架上。Preferably, the load-bearing bracket is provided with a through hole, the swing bracket is provided with a suspension piece, and the suspension piece passes through the through hole and is mounted on the load-bearing bracket.

具体地，所述悬挂件为轴件，所述轴件呈倒V型结构。通过将所述轴件设置成倒V型结构，可以使所述摇摆支架能自动归中，进而保持所述摇摆支架左、右平行，对所述摇摆支架及仿真火焰起到自动定位的作用。Specifically, the suspension member is a shaft member, and the shaft member has an inverted V-shaped structure. By arranging the shaft member into an inverted V-shaped structure, the swing bracket can be automatically centered, thereby keeping the left and right sides of the swing bracket parallel, and automatically positioning the swing bracket and the simulated flame.

具体地，所述承载支架上设有承载薄片，所述承载薄片设有承载孔，所述承载孔与所述通孔对应且孔径小于所述通孔，所述悬挂件穿过所述承载孔并承载于所述承载孔上。由于所述承载薄片很薄，其与所述悬挂件的接触面积很小，因此与所述悬挂件的摩擦阻力非常小，因此，可以使仿真火焰摇摆得更加自然更加逼真，而且可以使所述摇摆支架的摇摆惯性力保持更长时间，有效降低电量的消耗，更加节能环保。Specifically, the load-bearing bracket is provided with a load-bearing sheet, the load-bearing sheet is provided with a load-bearing hole, the load-bearing hole corresponds to the through hole and has a diameter smaller than the through hole, and the suspension member passes through the load-bearing hole. and is carried on the bearing hole. Since the load-bearing sheet is very thin, its contact area with the suspension is very small, so the friction resistance with the suspension is very small. Therefore, the simulated flame can be made to swing more naturally and realistically, and the simulated flame can be made to swing more naturally and realistically. The swing inertial force of the swing bracket is maintained for a longer period of time, effectively reducing power consumption and making it more energy-saving and environmentally friendly.

具体地，所述承载薄片设有卡脚，所述承载支架上开设有卡孔，所述卡脚穿过所述卡孔并弯折地抵压于所述承载支架的另一侧。通过所述卡孔与所述卡脚的配合，可以使所述承载薄片快速且简单地与所述承载支架配合组装，提高装配的便捷性。Specifically, the load-bearing sheet is provided with clamping feet, and the load-bearing bracket is provided with a clamping hole. The clamping feet pass through the clamping hole and bend to press against the other side of the load-bearing bracket. Through the cooperation of the clamping hole and the clamping foot, the bearing sheet can be quickly and simply assembled with the bearing bracket, thereby improving the convenience of assembly.

较佳地，所述承载支架上设有导电金属箔片以形成所述导电端子并实现电路走线。这样可以避免使用导线连接所述发光体，简化了结构，避免导线与摇摆支架相碰撞。Preferably, a conductive metal foil is provided on the carrying bracket to form the conductive terminals and realize circuit routing. This can avoid using wires to connect the luminous body, simplify the structure, and prevent the wires from colliding with the swing bracket.

较佳地，所述仿真火焰的下端设有连接脚，所述摇摆支架的上端设有安装槽，所述连接脚插接并固定于所述安装槽内。这样可以使所述仿真火焰能快速地安装于所述摇摆支架上，提高组装的便利性。Preferably, the lower end of the simulated flame is provided with a connecting foot, the upper end of the swing bracket is provided with a mounting groove, and the connecting foot is inserted into and fixed in the mounting groove. In this way, the simulated flame can be quickly installed on the swing bracket, thereby improving the convenience of assembly.

具体地，所述连接脚及摇摆支架的任一者上设有凸位，另一者设有卡合孔，所述凸位卡入所述卡合孔内。所述凸位与所述卡合孔的配合可以使所述仿真火焰与所述摇摆支架连接得更牢固，防止所述仿真火焰在摇摆时意外松脱。Specifically, one of the connecting legs and the swing bracket is provided with a protruding bit, and the other is provided with an engaging hole, and the protruding bit is inserted into the engaging hole. The cooperation between the protrusion and the engaging hole can make the simulation flame and the swing bracket more firmly connected, preventing the simulation flame from accidentally loosening when swinging.

较佳地，所述承载支架包括两竖边及连接两所述竖边的横边，其中一所述竖边的上端连接所述发光体，另一竖边开设有至少两固定孔，所述固定孔分别与所述灯头的固定柱套接固定。这样可以使所述发光体连接于承载支架与所述承载支架连接于灯头时相互不会发生干扰，结构更加紧凑。Preferably, the carrying bracket includes two vertical sides and a transverse side connecting the two vertical sides. The upper end of one of the vertical sides is connected to the luminous body, and the other vertical side is provided with at least two fixing holes. The fixing holes are respectively sleeved and fixed with the fixing posts of the lamp cap. In this way, the luminous body can be connected to the carrying bracket and the carrying bracket is connected to the lamp head without interfering with each other, and the structure can be more compact.

较佳地，所述摇摆仿真火焰灯还包括外罩、电源及控制电路板，所述控制电路板分别与所述电源及承载支架的导电端子电连接，所述驱动机构、所述控制电路板及所述电源依次位于所述灯头的下方，所述外罩罩于所述灯头、所述驱动机构、所述控制电路板及所述电源外，所述仿真火焰伸出于所述外罩的上端。Preferably, the swing simulated flame lamp also includes an outer cover, a power supply and a control circuit board. The control circuit board is electrically connected to the power supply and the conductive terminals of the carrying bracket respectively. The driving mechanism, the control circuit board and The power supply is located below the lamp holder in turn, the outer cover covers the lamp holder, the driving mechanism, the control circuit board and the power supply, and the simulated flame extends from the upper end of the outer cover.

附图说明Description of the drawings

图1是本发明摇摆仿真火焰灯的立体图。Figure 1 is a perspective view of the swing simulated flame lamp of the present invention.

图2是本发明摇摆仿真火焰灯的内部结构图。Figure 2 is an internal structural diagram of the swing simulated flame lamp of the present invention.

图3是本发明摇摆仿真火焰灯的内部结构分解图。Figure 3 is an exploded view of the internal structure of the swing simulated flame lamp of the present invention.

图4是本发明摇摆仿真火焰灯的剖面结构图。Figure 4 is a cross-sectional structural view of the swing simulated flame lamp of the present invention.

图5是本发明摇摆仿真火焰灯的承载支架与承载薄片的结构图。Figure 5 is a structural diagram of the bearing bracket and the bearing sheet of the swing simulated flame lamp of the present invention.

图6是本发明摇摆仿真火焰灯的摇摆支架的结构图。Figure 6 is a structural diagram of the swing bracket of the swing simulated flame lamp of the present invention.

图7是本发明摇摆仿真火焰灯的仿真火焰的结构图。Figure 7 is a structural diagram of the simulated flame of the swing simulated flame lamp of the present invention.

具体实施方式Detailed ways

为详细说明本发明的技术内容、构造特征、所实现的效果，以下结合实施方式并配合附图详予说明。In order to describe in detail the technical content, structural features, and achieved effects of the present invention, the following is a detailed description in combination with the embodiments and the accompanying drawings.

如图1至图4所示，本发明摇摆仿真火焰灯100包括灯头1、承载支架2、摇摆支架3、仿真火焰4、发光体5、驱动机构6、外罩7、电源8及控制电路板9。所述灯头1分为左灯头11及右灯头12，所述左灯头11的配合面的左右两侧水平伸出两安装柱1a，所述右灯头12设有配合孔，所述安装柱1a插入所述配合孔内使所述左灯头11及右灯头12组合在一起，所述灯头1呈中空结构且上端具有开口。所述承载支架2固定于所述灯头1内，所述发光体5设置于所述承载支架2上且与所述承载支架2上的导电端子电连接，所述发光体5为LED。所述承载支架2上设有导电金属箔片以形成所述导电端子并实现在所述承载支架2上进行电路走线，以避免使用导线连接所述发光体5，防止导线与摇摆支架3相碰撞。本发明的承载支架2实际上是一种电路板材料，发光体5焊在所述承载支架2的顶部的两个焊点上并固定，这样通过电路板实现对发光体5进行固定及连接，避免使用传统的用导线连接走线。所述仿真火焰4呈泡壳结构且内部中空，所述仿真火焰4为立体结构使得其可360度可视，所述仿真火焰4连接于所述摇摆支架3上且套于所述发光体5外，所述摇摆支架3挂载于所述承载支架2上，所述驱动机构6驱动所述摇摆支架3以带动所述仿真火焰4摆动。所述控制电路板9分别与所述电源8及承载支架2的导电端子电连接，所述驱动机构6、所述控制电路板9及所述电源8依次位于所述灯头1的下方，所述外罩7罩于所述灯头1、所述驱动机构6、所述控制电路板9及所述电源8外，所述仿真火焰4伸出于所述灯头1及外罩7的上端。As shown in Figures 1 to 4, the swing simulated flame lamp 100 of the present invention includes a lamp head 1, a carrying bracket 2, a swing bracket 3, a simulated flame 4, a luminous body 5, a driving mechanism 6, a cover 7, a power supply 8 and a control circuit board 9 . The lamp holder 1 is divided into a left lamp holder 11 and a right lamp holder 12. Two mounting posts 1a extend horizontally from the left and right sides of the mating surface of the left lamp holder 11. The right lamp holder 12 is provided with a mating hole into which the mounting posts 1a are inserted. The left lamp holder 11 and the right lamp holder 12 are combined together in the fitting hole. The lamp holder 1 has a hollow structure and an opening at the upper end. The carrying bracket 2 is fixed in the lamp holder 1 , and the luminous body 5 is disposed on the carrying bracket 2 and is electrically connected to the conductive terminals on the carrying bracket 2 .The luminous body 5 is an LED. The carrying bracket 2 is provided with conductive metal foil to form the conductive terminals and realize circuit wiring on the carrying bracket 2 to avoid using wires to connect the luminous body 5 and prevent the wires from intersecting with the swing bracket 3 collision. The carrying bracket 2 of the present invention is actuallya circuit board material. The luminous body 5 is welded and fixed on the two solder joints on the top of the carrying bracket 2. In this way, theluminous body 5 is fixed and connected through the circuit board. Avoid using traditional wire connections . The simulated flame 4 has a bulb structure and is hollow inside. The simulated flame 4 has a three-dimensional structure so that it can be viewed 360 degrees. The simulated flame 4 is connected to the swing bracket 3 and is covered with the luminous body 5 In addition, the swing bracket 3 is mounted on the load-bearing bracket 2, and the driving mechanism 6 drives the swing bracket 3 to drive the simulated flame 4 to swing. The control circuit board 9 is electrically connected to the power supply 8 and the conductive terminals of the carrying bracket 2 respectively. The driving mechanism 6, the control circuit board 9 and the power supply 8 are located under the lamp head 1 in sequence. The outer cover 7 covers the lamp holder 1 , the driving mechanism 6 , the control circuit board 9 and the power supply 8 . The simulated flame 4 extends from the upper ends of the lamp holder 1 and the outer cover 7 .

再如图4及图5所示，具体地，所述承载支架2包括两竖边21及连接于两所述竖边21下端的横边22，所述承载支架2整体大致呈U型结构，其中一所述竖边21的上端连接所述发光体5，另一竖边21开设有至少两中心轴呈水平的固定孔21a，所述固定孔21a分别与所述灯头1内部的水平延伸出来的固定柱1b及安装柱1a套接固定。这样可以使所述发光体5连接于所述承载支架2与所述承载支架2连接于灯头1时相互不会发生干扰，结构更加紧凑。As shown in Figures 4 and 5, specifically, the load-bearing bracket 2 includes two vertical sides 21 and a transverse side 22 connected to the lower ends of the two vertical sides 21. The whole load-bearing bracket 2 has a generally U-shaped structure. The upper end of one of the vertical sides 21 is connected to the luminous body 5, and the other vertical side 21 is provided with at least two fixing holes 21a with horizontal central axes. The fixing holes 21a respectively extend horizontally from the inside of the lamp holder 1. The fixing column 1b and the mounting column 1a are connected and fixed. In this way, the luminous body 5 can be connected to the carrying bracket 2 and the carrying bracket 2 can be connected to the lamp head 1 without interfering with each other, and the structure can be more compact.

请再参阅图4及图5，所述承载支架2上开设有中心轴呈水平的通孔2a，所述承载支架2上设有承载薄片23，所述承载薄片23的厚度为0.15mm，所述通孔2a及所述承载薄片23位于与所述发光体5连接的所述竖边21上。所述承载薄片23设有承载孔23a，所述承载孔23a与所述通孔2a对应且孔径小于所述通孔2a，所述摇摆支架3上设有悬挂件31，所述悬挂件31穿过所述通孔2a及所述承载孔23a并承载于所述承载孔23a上，使得所述摇摆支架3整体挂载于所述承载支架2上。由于所述承载薄片23很薄，其与所述悬挂件31的接触面积很小，因此与所述悬挂件31的摩擦阻力非常小，因此，可以使仿真火焰4摇摆得更加自然更加逼真，而且可以使所述摇摆支架3的摇摆惯性力保持更长时间，有效降低电量的消耗，更加节能环保。具体地，所述悬挂件31为轴件，所述轴件呈倒V型结构。通过将所述轴件设置成倒V型结构，可以使所述摇摆支架3能自动归中，进而保持所述摇摆支架3左、右平行，对所述摇摆支架3及仿真火焰4起到自动定位的作用。所述轴件的两端连接于所述摇摆支架3的上端的两侧。另外，所述摇摆支架3的上端呈圆环形，其中与所述发光体5连接的竖边21从下方穿过圆形向上伸出，另一竖边21位于圆环之外。Please refer to Figures 4 and 5 again. The bearing bracket 2 is provided with a through hole 2a with a horizontal central axis. The bearing bracket 2 is provided with a bearing sheet 23. The thickness of the bearing sheet 23 is 0.15mm. The through hole 2 a and the supporting sheet 23 are located on the vertical edge 21 connected to the luminous body 5 . The bearing sheet 23 is provided with a bearing hole 23a, which corresponds to the through hole 2a and has a diameter smaller than the through hole 2a. The swing bracket 3 is provided with a suspension member 31, and the suspension member 31 passes through Through the through hole 2a and the bearing hole 23a and being carried on the bearing hole 23a, the swing bracket 3 is mounted on the bearing bracket 2 as a whole. Since the load-bearing sheet 23 is very thin, its contact area with the suspension member 31 is very small, so the frictional resistance with the suspension member 31 is very small. Therefore, the simulated flame 4 can be made to swing more naturally and realistically, and The swing inertial force of the swing bracket 3 can be maintained for a longer period of time, effectively reducing power consumption and making it more energy-saving and environmentally friendly. Specifically, the suspension member 31 is a shaft member, and the shaft member has an inverted V-shaped structure. By arranging the shaft member into an inverted V-shaped structure, the swing bracket 3 can automatically return to the center, thereby keeping the left and right sides of the swing bracket 3 parallel, and automatically controlling the swing bracket 3 and the simulated flame 4. The role of positioning. The two ends of the shaft member are connected to both sides of the upper end of the swing bracket 3 . In addition, the upper end of the swing bracket 3 is in the shape of a circular ring, in which the vertical edge 21 connected to the luminous body 5 extends upward through the circle from below, and the other vertical edge 21 is located outside the ring.

再请参阅图4及图5，所述承载薄片23设有呈上、下分布的两卡脚23b，所述承载支架2上开设有呈上、下分布的卡孔2b，两所述卡孔2b分别位于所述通孔2a的两侧，所述卡脚23b穿过所述卡孔2b并弯折地抵压于所述承载支架2的另一侧。通过所述卡孔2b与所述卡脚23b的配合，可以使所述承载薄片23快速且简单地与所述承载支架2配合组装，提高装配的便捷性。Please refer to Figures 4 and 5 again. The load-bearing sheet 23 is provided with two clamping feet 23b distributed up and down. The load-bearing bracket 2 is provided with clamping holes 2b distributed up and down. The two clamping holes are 2b are respectively located on both sides of the through hole 2a, and the clamping feet 23b pass through the clamping hole 2b and bend to press against the other side of the carrying bracket 2. Through the cooperation between the clamping hole 2b and the clamping foot 23b, the bearing sheet 23 can be quickly and simply assembled with the bearing bracket 2, thereby improving the convenience of assembly.

请参阅图6及图7，所述仿真火焰4的下端设有连接脚41，所述连接脚41呈倒T字型结构，且所述倒T字型结构的横截面呈与圆环形的摇摆支架3对应的弧形。所述摇摆支架3的上端设有呈弧形的安装槽32，所述连接脚41插接并固定于所述安装槽32内。这样可以使所述仿真火焰4能快速地安装于所述摇摆支架3上，提高组装的便利性。具体地，所述连接脚41及摇摆支架3的任一者上设有凸位41a，另一者设有卡合孔33，所述凸位41a卡入所述卡合孔33内。所述凸位41a与所述卡合孔33的配合可以使所述仿真火焰4与所述摇摆支架3连接得更牢固，防止所述仿真火焰4在摇摆时意外松脱。Please refer to Figure 6 and Figure 7. The lower end of the simulated flame 4 is provided with a connecting foot 41. The connecting foot 41 has an inverted T-shaped structure, and the cross-section of the inverted T-shaped structure is in the shape of a circular ring. The corresponding arc shape of the swing bracket 3. The upper end of the swing bracket 3 is provided with an arc-shaped installation groove 32, and the connecting feet 41 are inserted and fixed in the installation groove 32. In this way, the simulated flame 4 can be quickly installed on the swing bracket 3, thereby improving the convenience of assembly. Specifically, one of the connecting legs 41 and the swing bracket 3 is provided with a protruding bit 41a, and the other is provided with an engaging hole 33, and the protruding bit 41a is engaged in the engaging hole 33. The cooperation between the protrusion 41a and the engagement hole 33 can make the simulation flame 4 and the swing bracket 3 more firmly connected, preventing the simulation flame 4 from accidentally loosening when swinging.

再如图3及图4所示，所述驱动机构6包括电磁线圈61及永磁体62，所述电磁线圈61与所述控制电路板9电连接，所述永磁体62设置于所述摇摆支架3的下端并且与所述电磁线圈61呈上、下正对。所述控制电路板9可以控制所述电磁线圈61的电流的通断以及通电时间，使得所述电磁线圈61产生电磁场，从而利用磁力推动所述永磁体62动作。当然，所述驱动机构6也可以使用马达与摆杆推动摇摆支架3的形式或者其他形式，在此不再详细描述。As shown in Figures 3 and 4, the driving mechanism 6 includes an electromagnetic coil 61 and a permanent magnet 62. The electromagnetic coil 61 is electrically connected to the control circuit board 9, and the permanent magnet 62 is provided on the swing bracket. 3 and is directly opposite to the upper and lower ends of the electromagnetic coil 61 . The control circuit board 9 can control the on-off current and the energization time of the electromagnetic coil 61, so that the electromagnetic coil 61 generates an electromagnetic field, thereby using magnetic force to push the permanent magnet 62 to move. Of course, the driving mechanism 6 can also use a motor and a swing rod to push the swing bracket 3 or other forms, which will not be described in detail here.

工作时，打开开关，所述控制电路板9通电并通过所述承载支架2上的导电端子向所述发光体5通电，所述发光体5发光。与此同时，所述控制电路板9对所述电磁线圈61间歇地通电，所述电磁线圈61间歇地产生磁场，从而使所述永磁体62受到磁力的作用而带动所述摇摆支架3摇摆，所述摇摆支架3带动所述仿真火焰4摇摆。During operation, when the switch is turned on, the control circuit board 9 is energized and energized to the luminous body 5 through the conductive terminals on the carrying bracket 2, and the luminous body 5 emits light. At the same time, the control circuit board 9 intermittently energizes the electromagnetic coil 61, and the electromagnetic coil 61 intermittently generates a magnetic field, so that the permanent magnet 62 is affected by the magnetic force and drives the swing bracket 3 to swing. The swing bracket 3 drives the simulated flame 4 to swing.

与现有技术相比，由于本发明利用一承载支架2，使其固定于灯头1内，再将发光体5固定于所述承载支架2，而摇摆支架3挂载于所述承载支架2上，并使仿真火焰4连接于所述摇摆支架3上，因此，在所述摇摆支架3摇摆时，只有所述仿真火焰4随着所述摇摆支架3摇摆，而所述发光体5并不会摇摆。并且，由于所述发光体5设置于所述承载支架2上，并与所述承载支架2上的导电端子电连接，所述导电端子可与电源8或控制电路板9连接，因此，所述发光体5无需使用导线进行导电，避免现有的火焰灯使用导线连接发光体5并与发光体5一起摇摆，造成整体摇摆不自然及导线消耗仿真火焰4摇摆时的动能的缺点，从而有效提高仿真效果，减少能量的消耗，节约电能；而且取消导线连接可以有效简化结构，提高整个产品的装配效率。Compared with the prior art, the present invention uses a carrying bracket 2 to be fixed in the lamp head 1, and then fixes the luminous body 5 to the carrying bracket 2, and the swing bracket 3 is mounted on the carrying bracket 2 and connect the simulated flame 4 to the swing bracket 3. Therefore, when the swing bracket 3 swings, only the simulated flame 4 swings with the swing bracket 3, and the luminous body 5 does not swing. Moreover, since the luminous body 5 is arranged on the carrying bracket 2 and is electrically connected to the conductive terminals on the carrying bracket 2, the conductive terminals can be connected to the power supply 8 or the control circuit board 9. Therefore, the The luminous body 5 does not need to use wires to conduct electricity, which avoids the shortcomings of existing flame lamps that use wires to connect the luminous body 5 and swing together with the luminous body 5, causing the overall swing to be unnatural and the wires to consume the kinetic energy of the simulated flame 4 when it swings, thereby effectively improving The simulation effect reduces energy consumption and saves electricity; and eliminating wire connections can effectively simplify the structure and improve the assembly efficiency of the entire product.

以上所揭露的仅为本发明的较佳实例而已，当然不能以此来限定本发明之权利范围，因此依本发明申请专利范围所作的等同变化，仍属于本发明所涵盖的范围。The above disclosures are only preferred examples of the present invention. Of course, they cannot be used to limit the scope of rights of the present invention. Therefore, equivalent changes made based on the patent scope of the present invention still fall within the scope of the present invention.

Claims (8)

1. The utility model provides a rocking emulation flame lamp which characterized in that: the intelligent lamp comprises a lamp cap, a bearing bracket, a swinging bracket, simulated flames, a luminous body and a driving mechanism, wherein the bearing bracket is fixed in the lamp cap, the luminous body is arranged on the bearing bracket and is electrically connected with a conductive terminal on the bearing bracket, the simulated flames are connected on the swinging bracket and are sleeved outside the luminous body, a through hole is formed in the bearing bracket, a bearing sheet is arranged on the bearing bracket, a bearing hole is formed in the bearing sheet, the bearing hole corresponds to the through hole, the aperture is smaller than the through hole, a suspension piece is arranged on the swinging bracket, and the suspension piece is a shaft piece; the hanging piece penetrates through the bearing hole and the through hole and is borne on the bearing hole, so that the swinging bracket is borne on the bearing bracket, and the driving mechanism drives the swinging bracket to drive the simulated flame to swing.

2. The rocking simulated flame lamp of claim 1, wherein: the shaft piece is of an inverted V-shaped structure.

3. The rocking simulated flame lamp of claim 1, wherein: the bearing sheet is provided with a clamping pin, the bearing support is provided with a clamping hole, and the clamping pin penetrates through the clamping hole and is pressed against the other side of the bearing support in a bending mode.

4. The rocking simulated flame lamp of claim 1, wherein: and the bearing bracket is provided with a conductive metal foil to form the conductive terminal and realize circuit routing.

5. The rocking simulated flame lamp of claim 1, wherein: the lower extreme of emulation flame is equipped with the connecting leg, the upper end of rocking support is equipped with the mounting groove, the connecting leg grafting is fixed in the mounting groove.

6. The rocking simulated flame lamp of claim 5, wherein: any one of the connecting pin and the swinging bracket is provided with a convex position, the other is provided with a clamping hole, and the convex position is clamped into the clamping hole.

7. The rocking simulated flame lamp of claim 1, wherein: the bearing support comprises two vertical edges and a transverse edge connected with the two vertical edges, wherein the upper end of one vertical edge is connected with the luminous body, the other vertical edge is provided with at least two fixing holes, and the fixing holes are respectively sleeved and fixed with the fixing columns of the lamp cap.

8. The rocking simulated flame lamp of claim 1, wherein: the swinging simulated flame lamp further comprises an outer cover, a power supply and a control circuit board, wherein the control circuit board is respectively and electrically connected with the power supply and the conductive terminals of the bearing support, the driving mechanism, the control circuit board and the power supply are sequentially positioned below the lamp holder, the outer cover is covered on the lamp holder, the driving mechanism, the control circuit board and the power supply, and the simulated flame extends out of the upper end of the outer cover.