KR200470372Y1 - Moving electric LED candles - Google Patents

Abstract

The present invention relates to a moving LED electric candle using a light emitting diode (LED) as a light source, in particular a moving LED electric candle that can be used for lighting or decoration in various places such as homes, offices, general businesses and religious groups.
Moving LED electric candle of the present invention, LED lamp module; A support on which the LED lamp module is mounted, and protruded from both sides of the first terminal shaft and the second terminal shaft; A permanent magnet mounted to the bottom of the support; A body to which the support is rotatably coupled; An electromagnet mounted on the body and disposed adjacent to the permanent magnet; A power supply unit supplying power to the LED lamp module and the electromagnet; It includes, wherein the support is detachably coupled to the body, the body is in contact with the first step shaft and the second terminal shaft, respectively, the first contact portion and the second to support the support in the upward direction A contact portion is formed to protrude, and the power supply portion is connected to the first contact portion and the second contact portion to supply power to the LED lamp module, and the LED lamp module includes: a circuit board mounted on an upper portion of the support; An LED element mounted on the circuit board; A bridge rectifier mounted on the circuit board and configured to supply DC power in a predetermined polarity direction to the LED element regardless of the polarity direction of the power supplied from the power supply unit through the first terminal shaft and the second terminal shaft; The first terminal shaft is in contact with any one of the first contact portion, which is a (+) pole and the second contact portion, which is a (-) pole, regardless of electrical polarity when the support and the body are coupled to each other. The second terminal shaft contacts the other one of the first contact portion, which is a (+) pole, and the second contact portion, which is a (-) pole, regardless of electrical polarity when the support and the body are coupled, and the LED mounted on the support. The lamp module is characterized in that the pendulum movement about the first terminal axis and the second terminal axis by the magnetic interaction of the permanent magnet and the electromagnet.

Description

Moving electric LED candles {Moving electric LED candles}

The present invention relates to a moving LED electric candle using a light emitting diode (LED) as a light source, in particular a moving LED electric candle that can be used for lighting or decoration in various places such as homes, offices, general businesses and religious groups.

Paraffin candles are widely used in homes, offices, general businesses, and religious organizations for lighting or special purposes, but paraffin candles have a problem such as not only smells and soots, but also a high risk of fire.

In order to solve such a problem, an electric candle is disclosed in Registration Utility Model No. 20-0255417.

1 is an exploded perspective view showing the configuration of a conventional electric candle.

1, a conventional electric candle includes a first cylindrical body 12, a PCB substrate 22, a second cylindrical body 28, a lamp module 36, a safety cap 48, And includes a body 56, wires 76, 78, 80, 82, 84, a fourth cylindrical body 86, and a working cylindrical body 88.

The first cylindrical body 12 has a predetermined accommodation space 10 formed inside the upper end thereof and a first cylindrical conductor wire 14 and a second cylindrical conductor wire And the electromagnet 18 and the cylindrical conductor wires 14 and 16 are brought into contact with the outer circumferential surface of the electromagnet 18 The insulating tape 20 is tightly fixed.

The PCB substrate 22 has a first cylindrical body conductor 14 and a second cylindrical body conductor 16 fixedly coupled to both sides of an upper end thereof and a first connection And a second connection terminal 26 connected to the terminal 24 and the second cylindrical conductor wire 16 are provided.

The second cylindrical body 28 has the first cylindrical body 12 inserted therein and the hook 30 protruded on both sides of the upper end of the outer circumferential surface and the catching piece 32 protruding outward at the lower end of the outer circumferential surface .

The lamp module 36 has a lamp 34 at its upper end and a weight 38 inserted into the accommodation space 10 of the first cylindrical body 12 is coupled and fixed to the lower end of the lamp 34, A permanent magnet 40 is fixedly coupled to the bottom surface of the blade piece 38 and a blade piece 42 protrudes between the lamp 34 and the weight piece 38. The blade piece 42 has a cylindrical And the lead wires 44, which are in contact with the lead wires 14, 16, are engaged and fixed.

The safety cap 48 is formed with a slot 46 in which a weight 38 and a blade piece 42 of the lamp module 36 are inserted and fixed and a second cylindrical body 28 An engaging groove 50 into which the hook 30 is engaged is formed.

The third cylindrical body is composed of a first body 52 and a second body 54 that are configured to be detachable and the second cylindrical body 52 is formed on the upper inner peripheral surface of the first body 52 and the second body 54, A fastening groove 58 in which a fastening piece 32 protruding from the lower end of the outer circumferential surface of the first body 52 and the second body 54 is inserted and fixed is formed in the center of the first body 52 and the second body 54, The battery housing space 64 is formed by the diaphragm 62 and the elastic coil conductors 60a and 60b which are in contact with the polarities of the battery 66 at the lower end of the upper diaphragm 60 and at the upper end of the lower diaphragm 62 And a battery inlet and outlet 68 are formed in the lower end portions of the first and second bodies 52 and 54 so that the battery 66 can be received in the battery housing space 64, A switch terminal 70 for selectively supplying and disconnecting the power source of the battery 66 housed in the battery accommodating space 64 is provided at one side of the lower end of the outer periphery of the first body 52 and the second body 54, It said, this is the first body the third connection terminal 72 and the fourth connection terminals 74 to 52 and the lower outer peripheral surface sides of the second body 54 is provided.

A plurality of leads 76, 78, 80, 82, 84 are provided to supply power and commercial power of the dry battery to the PCB substrate.

The first cylindrical body 12, the second cylindrical body 28, and the third cylindrical body 56 are inserted into the fourth cylindrical body 86.

The upper end of the operation cylindrical body 88 is fixed to the lower end of the fourth cylindrical body 86 and a switch groove 90 into which the switch terminal 70 is inserted and fixed is formed in a vertical direction.

However, such a conventional electric candle when the lamp module 36 is coupled, the weight 38 and the blade piece 42 of the lamp module 36 through the slot 46 formed on the top of the safety cap 48 ), The lamp module 36 is rotated so that the conductive wire 44 fixed to the lower surface of the blade piece 42 is brought into contact with the cylindrical body wires 14 and 16.

In addition, since the blade piece 42 and the cylindrical conductor wires 14 and 16 should be in contact with each other according to electrical polarity, there is a problem in that the lamp module 36 is inconvenient to be coupled.

The object of the present invention is to provide a moving LED electric candle that is easy to combine and has a semi-permanent life, regardless of the electrical polarity of the lamp module while producing a natural movement of the lamp module.

In order to achieve the above object, the moving LED electric candle of the present invention includes: an LED lamp module; A support on which the LED lamp module is mounted, and protruded from both sides of the first terminal shaft and the second terminal shaft; A permanent magnet mounted to the bottom of the support; A body to which the support is rotatably coupled; An electromagnet mounted on the body and disposed adjacent to the permanent magnet; A power supply unit supplying power to the LED lamp module and the electromagnet; It includes, wherein the support is detachably coupled to the body, the body is in contact with the first step shaft and the second terminal shaft, respectively, the first contact portion and the second to support the support in the upward direction A contact portion is formed to protrude, and the power supply portion is connected to the first contact portion and the second contact portion to supply power to the LED lamp module, and the LED lamp module includes: a circuit board mounted on an upper portion of the support; An LED element mounted on the circuit board; A bridge rectifier mounted on the circuit board and configured to supply DC power in a predetermined polarity direction to the LED element regardless of the polarity direction of the power supplied from the power supply unit through the first terminal shaft and the second terminal shaft; The first terminal shaft is in contact with any one of the first contact portion, which is a (+) pole and the second contact portion, which is a (-) pole, regardless of electrical polarity when the support and the body are coupled to each other. The second terminal shaft contacts the other one of the first contact portion, which is a (+) pole, and the second contact portion, which is a (-) pole, regardless of electrical polarity when the support and the body are coupled, and the LED mounted on the support. The lamp module pendulum moves about the first and second terminal shafts by magnetic interaction between the permanent magnet and the electromagnet.

And a pulse generator connected to the power supply unit to supply power to the electromagnet intermittently at predetermined time units.

And a voltage boosting unit connected to the first contact unit, the second contact unit, and the pulse generator, respectively, to increase the voltage of the power supply unit to supply power to the LED lamp module and the electromagnet.

Moving LED electric candle according to the present invention has the following effects.

The LED lamp module, which is mounted on the support and pendulum moves about the first and second terminal shafts by magnetic interaction between the permanent magnet and the electromagnet, has the polarity of the power supplied from the power supply unit through the first and second terminal shafts. By including a bridge rectifier for supplying a DC power supply of a constant polarity direction to the LED element irrespective of the direction, the first terminal shaft is the first contact portion and the (-) pole which is a (+) pole when the support and the body is coupled Regardless of the electrical polarity of the contact portion, the second terminal shaft is in contact with the other one of the first contact portion (+) pole and the second contact portion (-) pole when the support and the body are coupled, regardless of the electrical polarity In contact with each other, the LED lamp module can produce a natural movement and can be easily combined with the LED lamp module regardless of the electrical polarity.

In addition, by being connected to the power supply unit is made of a pulse generator for supplying power to the electromagnet intermittently in a predetermined time unit, it is possible to produce a natural shaking of the LED lamp module like a paraffin candle while saving energy of the power supply.

In addition, it is connected to the first contact portion, the second contact portion and the pulse generator, respectively, and further comprises a voltage boosting unit for supplying power to the LED lamp module and the electromagnet by increasing the voltage of the power supply unit, thereby providing a low voltage power supply unit Also, the LED lamp module can be stably operated.

1 is a view showing a conventional electric candle,
2 is a perspective view of a moving LED electric candle according to an embodiment of the present invention,
3 is an exploded perspective view of a moving LED electric candle according to an embodiment of the present invention,
4 is a circuit diagram of a moving LED electric candle according to an embodiment of the present invention,
5 is an operating state of the moving LED electric candle according to an embodiment of the present invention,

Figure 2 is a perspective view of a moving LED electric candle according to an embodiment of the present invention, Figure 3 is an exploded perspective view of a moving LED electric candle according to an embodiment of the present invention, Figure 4 is a moving LED electric according to an embodiment of the present invention 5 is a circuit diagram of a candle, and FIG. 5 is a state diagram of a moving LED electric candle according to an embodiment of the present invention.

Moving LED electric candle according to the present invention, as shown in Figure 2 to 5, the LED lamp module 100, the support 200, permanent magnet 300, the body 400, the electromagnet 500, the power supply ( 600), a pulse generator 700, and a voltage booster 800.

The LED lamp module 100 is mounted to the support 200 and the pendulum movement by the magnetic interaction of the permanent magnet 300 and the electromagnet 500.

As shown in FIG. 3, the LED lamp module 100 includes a board mounting guard 110, a circuit board 120, an LED device 130, a bridge rectifier 140, and a cap member 150. )

The substrate mounting guard 110 is mounted on an upper portion of the support 200, and the circuit board 120 is mounted on the substrate mounting guard 110.

The LED element 130 and the bridge rectifier 140 are mounted on the circuit board 120.

The bridge rectifier 140 supplies the power supplied from the power supply unit 600 to the LED element 130.

Specifically, the support 200 is formed with a first terminal shaft 210 and a second terminal shaft 220, the power supply unit 600 through the first terminal shaft 210 and the second terminal shaft 220. The power supplied from the bridge rectifier 140 to the bridge rectifier 140 by the bridge rectifier 140, the DC power supply of a constant polarity direction to the LED element 130 irrespective of the polarity direction of the power input to the bridge rectifier 140 Supply.

The cap member 150 is mounted on the substrate mounting guard 110 to cover the circuit board 120 on which the LED element 130 and the bridge rectifier 140 are mounted.

The support 200 has the substrate mounting guard 110 mounted thereon, and the first terminal shaft 210 and the second terminal shaft 220 protrude from both sides.

And the support 200 is rotatably coupled to the upper portion of the body 400, the power of the power supply unit 600 through the first terminal shaft 210 and the second terminal shaft 220 is the LED lamp Supplied to module 100.

As described above, since the bridge rectifier 140 transmits a current having a polarity corresponding to the LED element 130 regardless of the polarity of the input power, when the support 200 is coupled to the body 400. It is not necessary to consider the polarity of the power source that is energized in contact with the first terminal shaft 210 and the second terminal shaft 220.

Therefore, it is easy to combine the support 200 and the body 400.

In addition, since the support 200 is detachably coupled to the body 400, it is also easy to separate the support 200 and the body 400.

Therefore, the LED lamp module 100 composed of various shapes of the cap member 150 or the LED elements 130 of various colors can be coupled to the body 400 according to a user's preference to produce a diverse and individual atmosphere. have.

The permanent magnet 300 is mounted to the lower portion of the support 200, when the support 200 is coupled to the body 400 is disposed on the upper portion of the body 400.

The permanent magnet 300 disposed above the body 400 is disposed adjacent to the electromagnet 500 mounted on the body 400.

The permanent magnet 300 is rotated about the first terminal shaft 210 and the second terminal shaft 220 by the magnetic interaction with the electromagnet 500 is applied power, the role of weight To generate an inertial force on the LED lamp module 100 pendulum motion.

The support 200 is rotatably coupled to the body 400.

Specifically, as shown in FIG. 2, the body 400 has a first contact portion 410 in contact with the first terminal shaft and the second terminal shaft 220 to support the support 200 in an upward direction. And a second contact portion 420 is formed to protrude.
Upper ends of the first contact portion 410 and the second contact portion 420, which are in contact with the first terminal shaft 210 and the second terminal shaft 220, are formed in an arc shape, and the first contact portion The permanent magnet 300 is disposed between the 410 and the second contact portion 420.
The permanent magnet 300 is separated from the body 400 with the support 200 in the upward direction.

The first contact portion 410 and the second contact portion 420 are connected to the power supply unit 600 and energized with the first terminal shaft 210 and the second terminal shaft 220, respectively, thereby providing the power supply unit 600. ) Is supplied to the LED lamp module 100.

The electromagnet 500 is mounted to the body 400 is disposed adjacent to the permanent magnet (300).

The electromagnet 500 receives power from the power supply unit 600 and the LED lamp module 100 is connected to the first terminal shaft 210 and the second terminal by magnetic interaction with the permanent magnet 300. It forms a polarity opposite to the permanent magnet 300 to pendulum movement about the axis (220).

The power supply unit 600 supplies power to the LED lamp module 100 and the electromagnet 500.

Specifically, the power supply unit 600 is connected to the first contact unit 410 and the second contact unit 420 to supply power to the LED lamp module 100, and is connected to the pulse generator 700 Power is supplied to the electromagnet 500.

The power supply unit 600 may be made of a battery inserted into the body 400 to facilitate the carrying and use of the electric candle.

In addition, the power supply unit 600 may be formed of an external AC power supply.

The pulse generator 700 is connected to the power supply unit 600 to supply power to the electromagnet 500 intermittently at predetermined time units.

As a specific example, the pulse generator 700 may adjust the off time and the on time of the electromagnet 500, and typically sets the off time to 20 to 30 seconds and the on time to about 0.3 to 0.5 seconds. Can be driven.

As such, when power is supplied to the electromagnet 500, the electromagnet 500 and the permanent magnet 300 are opposite to each other, and the permanent magnet 300 is the first terminal shaft 210 and the second terminal shaft. When the power supply to the electromagnet 500 is cut off while being rotated around the 220, the LED lamp module 100 is connected to the first terminal shaft 210 by the weight of the permanent magnet 300. The pendulum movement is performed around the second terminal shaft 220.

The LED lamp module 100 is a pendulum movement while shaking for a predetermined time by the inertia force even if the electromagnet 500 is cut off after the power is supplied.

As such, by supplying power to the electromagnet 500 intermittently by a predetermined time unit by the pulse generator 700, the energy of the LED lamp module 100 may be reduced, such as a paraffin candle, while saving energy of the power supply unit 600. Can produce natural shaking.

When the power supply unit 600 is connected to the electromagnet 500 without the pulse generator 700, power is continuously supplied to the electromagnet 500, and energy consumption is increased, and the operation of the LED lamp module 100 is also performed. It can be unnatural.

The voltage boosting unit 800 is connected to the first contact unit 410, the second contact unit 420, and the pulse generator 700, respectively, and increases the voltage of the power supply unit 600 to the LED lamp module. Power is supplied to the 100 and the electromagnet 500.

If one 1.5V battery is used, the LED element 130 cannot be emitted, and thus the LED ramp module 100 is stably operated even with a low voltage power supply unit 600 having the voltage boosting unit 800. You can.

As such, since the voltage supplied from the power supply unit 600 is boosted by the voltage boosting unit 800, the LED lamp module 100 may be stably operated even with a low voltage power supply unit 600.

As described above, the LED electric candle according to the present embodiment has the advantage of easily coupling and semi-permanent life regardless of the electrical polarity of the LED lamp module 100 while directing the natural movement of the LED lamp module 100. have.

Hereinafter, with reference to the circuit diagram of Figure 4 to explain the operating method of the moving LED electric candle of the present invention.

The power supply unit 600 is connected to the voltage boosting unit 800, and the voltage boosting unit 800 boosts the voltage of the power supply unit 600.

The voltage boosting unit 800 is connected to the first contact unit 410, the second contact unit 420, and the pulse generator 700, respectively, and the voltage boosting unit 800 in the power supply unit 600. Power supplied to the bridge rectifier 140 through the first terminal shaft 210 and the second terminal shaft 220 in contact with the first contact portion 410 and the second contact portion 420, respectively. Is passed to.

On the other hand, the first terminal shaft 210 of the second contact portion 420 of the first contact portion 410 and (-) pole that is the (+) pole when the support 200 and the body 400 is coupled Regardless of the electrical polarity, the second terminal shaft 220 is in contact with any one, and the second terminal shaft 220 is the first contact portion 410 and the (-) pole which is a (+) pole when the support member 200 and the body 400 are coupled. The second contact portion 420 is in contact with the other regardless of the electrical polarity.

Therefore, the LED lamp module 100 so that the first terminal shaft 210 and the second terminal shaft 220 are in contact with any one of the first contact portion 410 and the second contact portion 420 without being distinguished from each other. The mounted support 200 can be easily coupled to the body 400.

As such, the first terminal shaft 210 and the second terminal shaft 220 are in contact with the first contact portion 410 or the second contact portion 420, and power is supplied to the bridge rectifier 140. The bridge rectifier 140 supplies a DC current according to the polarity of the LED element 130 so that the LED element 130 emits light.

In addition, the power supplied from the voltage boosting unit 800 to the pulse generator 700 intermittently supplies power to the electromagnet 500 by the perth generator.

Accordingly, as shown in FIG. 5, the LED lamp module 100 is connected to the first terminal shaft 210 and the second terminal shaft 220 by the magnetic interaction between the electromagnet 500 and the permanent magnet 300. Rotating around), it can be shaken to produce natural movement like paraffin candles.

Moving LED electric candle of the present invention is not limited to the above-described embodiment can be carried out in a variety of modifications within the range allowed by the technical idea of the present invention.

100: LED lamp module, 110: board mounting guard, 120: circuit board, 130: LED element, 140: bridge rectifier, 150: cap member,
200: support, 210: first terminal shaft, 220: second terminal shaft,
300: permanent magnet,
400: body, 410: first contact portion, 420: second contact portion,
500: electromagnet,
600: power supply,
700: pulse generator,
800: voltage boosting unit,

Claims (3)

An LED lamp module;
A support on which the LED lamp module is mounted, and protruded from both sides of the first terminal shaft and the second terminal shaft;
A permanent magnet mounted to the bottom of the support;
A body to which the support is rotatably coupled;
An electromagnet mounted on the body and disposed adjacent to the permanent magnet;
A power supply unit supplying power to the LED lamp module;
A voltage boosting unit for raising a voltage of the power supply unit;
It is made to include a pulse generator connected to the power supply for supplying power to the electromagnet intermittently at a predetermined time unit,
The power supply unit is made of a battery that is inserted into the body,
The support is detachably coupled to the body,
The body has a first contact portion and a second contact portion protrudingly formed to contact the first terminal shaft and the second terminal shaft, respectively, to support the support upward.
Upper ends of the first contact portion and the second contact portion that the first terminal shaft and the second terminal shaft are in contact with each other are formed in an arc shape.
The permanent magnet is disposed between the first contact portion and the second contact portion is separated from the body with the support upwards,
The power supply unit is connected to the first contact portion and the second contact portion to supply power to the LED lamp module,
In the LED lamp module,
A circuit board mounted on the top of the support;
An LED element mounted on the circuit board;
A bridge rectifier mounted on the circuit board and configured to supply DC power in a predetermined polarity direction to the LED element regardless of the polarity direction of the power supplied from the power supply unit through the first terminal shaft and the second terminal shaft; And,
The first terminal shaft is in contact with any one of the first contact portion that is a (+) pole and the second contact portion that is a (-) pole regardless of electrical polarity when the support and the body are coupled,
The second terminal shaft is in contact with the other of the first contact portion that is a (+) pole and the second contact portion that is a (-) pole, regardless of the electrical polarity when the support and the body are coupled,
The LED lamp module mounted to the support is a moving LED electric candle, characterized in that the pendulum movement around the first terminal shaft and the second terminal shaft by the magnetic interaction of the permanent magnet and the electromagnet. delete delete

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