KR101323914B1 - Mood lamp - Google Patents

Abstract

The present invention relates to a mood lamp capable of generating various indoor atmospheres by storing solar light transmitted through a window as energy and supplying this energy as a light source for irradiating light.
The present invention, in the mood lamp, a main body having a light source cover made of a light-transmitting material and a suction plate adsorbed to the transmission member through which the sunlight is transmitted, the main body to convert the sunlight transmitted through the transmission member into electrical energy A solar cell mounted on the solar cell, a storage battery storing the electrical energy converted by the solar cell, a light source built in the light source cover to emit light by the power supplied from the storage battery, and an intermittent switch to control the blinking of the light source. It is.

Description

Mood lamp {MOOD LAMP}

The present invention relates to a mood lamp, and relates to a mood lamp capable of generating various indoor atmospheres by storing solar light transmitted through windows and supplying this energy as a light source.

As is well known, mood lamps are used to irradiate light to create an interior decoration or a variety of atmospheres.

Conventional mood lamps include a pedestal having a socket to be connected to a light source and a cover of translucent or opaque material connected to the pedestal to gently reflect light emitted from the light source.

Therefore, the conventional mood lamps are bulky and have limitations in miniaturization, so a position to install the pedestal must be secured, which is not only convenient to use in a narrow space, but also makes it difficult to produce various decorations or atmospheres. there was.

In addition, as a light source used in the conventional mood lamps, incandescent lamps, halogen lamps, gas discharge lamps, EL lamps, etc. are widely used. These light sources are not only bulky but also consume a lot of power and require a long lighting time. As it causes environmental pollutants such as heavy metals, there is a drawback to increasing the discharge of industrial waste.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to miniaturize the volume to easily install even in a narrow place and to produce a variety of decorations and atmosphere at the same time save energy and prevent environmental pollution To provide a mood lamp that can.

In order to achieve the above object, a first embodiment of the present invention includes a main body having a light source cover made of an adsorption plate and a light transmissive material adsorbed on a transmissive member through which a solar light is transmitted, and a sun transmitted through the transmissive member. A solar cell mounted on the main body to convert light into electric energy, a battery for storing the electric energy converted by the solar cell, a light source built in the light source cover and emitting light by the power supplied from the battery, It includes an intermittent switch to control the blinking of the light source.

In order to achieve the above object, a second embodiment of the present invention includes a main body having a light source cover made of a light transmitting material and an adsorption plate and a light absorbing material adsorbed to a transmitting member through which a solar light is transmitted, and a sun transmitting through the transmitting member. A solar cell mounted on the main body to convert light into electrical energy, a storage battery for storing the electrical energy converted by the solar cell, a light source built in the light source cover and emitting light by power supplied from the storage battery; A flashing switch unit electrically connected between the storage batteries and blinking the light source according to a signal input from the outside, a measuring unit measuring a magnitude of electrical energy of the solar cell and outputting a measured value, and a measured value input from the measuring unit. A control unit for outputting a corresponding signal to the flashing switch unit so as to flash the light source automatically by comparing with a preset reference value To also.

In order to achieve the above object, a third embodiment of the present invention includes a main body having a light source cover made of a light transmitting material and an adsorption plate adsorbed on a transmission member through which a solar light is transmitted, and a sun transmitted through the transmission member. A solar cell mounted on the main body to convert light into electrical energy, a storage battery for storing the electrical energy converted by the solar cell, a light source built in the light source cover and emitting light by power supplied from the storage battery; A flashing switch unit electrically connected between the batteries to flash the light source according to an input signal from the outside, an illuminance sensor measuring the illuminance value of sunlight passing through the transmission member, and a predetermined illuminance value input from the illuminance sensor A control unit for outputting a corresponding signal to the flashing switch unit to automatically flash the light source in comparison with a reference value To.

In order to achieve the above object, a fourth embodiment of the present invention includes a main body having a light source cover made of a light absorbing plate and an adsorption plate and a light transmitting material adsorbed to a transmission member through which a solar light is transmitted, and a sun transmitted through the transmission member. A solar cell mounted on the main body to convert light into electrical energy, a storage battery for storing the electrical energy converted by the solar cell, a light source built in the light source cover and emitting light by power supplied from the storage battery; A flashing switch unit electrically connected between the batteries to flash the light source according to an input signal from the outside, a measurement unit measuring the magnitude of electric energy of the solar cell and outputting a measured value, and controlling to output an on or off signal. The measured value input from the measurement unit at the time of the ON signal provided from the switch and the control switch, It includes a control unit for outputting a corresponding signal to the flashing switch unit to automatically flash the light source.

In order to achieve the above object, a fifth embodiment of the present invention includes a main body having a light source cover made of a light transmitting material and an adsorption plate and a light transmitting material adsorbed on a transmission member through which a solar light is transmitted, and a sun transmitted through the transmission member. A solar cell mounted on the main body to convert light into electrical energy, a storage battery for storing the electrical energy converted by the solar cell, a light source built in the light source cover and emitting light by power supplied from the storage battery; A flashing switch unit electrically connected between the batteries to flash the light source according to an input signal from the outside, an illuminance sensor measuring an illuminance value of sunlight passing through the transmission member, and a control switch to output an on or off signal; When the ON signal provided from the control switch is compared to the measured value input from the illuminance sensor and a preset reference value It includes a control unit for outputting a corresponding signal to the flashing switch unit to automatically flash the circle.

Here, in the first to fifth embodiments of the present invention, the main body may further include a decorative connection portion for connecting the adsorption plate and the light source cover at predetermined intervals.

In the first to fifth embodiments of the present invention, the light transmissive light source cover, the impermeable adsorption plate, and the decorative connection part are made of different resins and may be integrally formed by double injection.

In addition, in the first to fifth embodiments of the present invention, the main body may be provided with a cell cover having a light transmittance to protect the solar cell.

In addition, in the first to fifth embodiments of the present invention, the interrupt switch may be a push switch. In this case, the main body is formed of a synthetic resin material having an elasticity, the push switch is built in the interior of the main body can be operated by a push acting on the outside of the main body. Optionally, the push knob of the push switch may be embedded by protruding out of the main body and operated by a push acting on the outside of the main body.

In addition, in the first to fifth embodiments of the present invention, each component embedded in the main body is preferably molded integrally with the main body by insert injection, the light source may be made of an LED.

On the other hand, in the fourth and fifth embodiments of the present invention, the control switch may be made of a push switch.

And in the first to fifth embodiments of the present invention, the main body is formed of a synthetic resin material having an elasticity, the push switch is built in the interior of the main body to be operated by a push acting on the outside of the main body Can be. Optionally, the push knob of the push switch may be embedded by protruding out of the main body and operated by a push acting on the outside of the main body.

According to the present invention implemented by the above means, the solar light irradiated during the day by being adsorbed to the transmission member such as glass through the adsorption plate as electrical energy and supplying the electrical energy to the light source at night or as needed to emit light Therefore, it is possible to produce a variety of decorations and atmosphere, at the same time has a very useful effect that can save energy and prevent environmental pollution.

According to the present invention, when the sunlight is strongly irradiated, the light source is automatically turned off, and when the sunlight is weakly irradiated, the light source is automatically turned on, so that the decoration and atmosphere can be conveniently produced automatically.

In addition, according to the present invention, since the light source is automatically turned on or off only when the signal from the control switch is output, there is an effect that can be expected to save energy.

In addition, according to the present invention, because the light source cover is connected at a predetermined interval by the decorative connection can cause aesthetics and curiosity to the viewer, the main body is made of a synthetic resin material having elasticity, the control switch and the control switch is As it is implemented as a push switch, there is an effect that the switch can be conveniently operated by pressing the main body elastically.

1 is a perspective view according to a first embodiment of the present invention.
2 is a cross-sectional view according to a first embodiment of the present invention.
3 is an operation diagram according to the first embodiment of the present invention.
Figure 4 is a use state according to the first embodiment of the present invention.
5 is a cross-sectional view showing a cell cover according to a first embodiment of the present invention.
6 to 8 are cross-sectional views and operation diagrams showing another embodiment of the interrupt switch according to the first embodiment of the present invention.
9 and 10 are a cross-sectional view and a block diagram according to a second embodiment of the present invention.
11 and 12 are a cross-sectional view and a block diagram according to a third embodiment of the present invention.
13 and 14 are a cross-sectional view and a block diagram according to a fourth embodiment of the present invention.
15 and 16 are a cross-sectional view and a block diagram according to a fifth embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 4, the mood lamp according to the first embodiment of the present invention includes a light source cover 130 made of an adsorption plate 110 and a light-transmitting material adsorbed to the light-transmitting member 10. A main body 100 having a), a solar cell 200 mounted on the main body 100 to convert solar light transmitted through the transmission member 10 into electric energy, and the electric energy converted from the solar cell 200 is stored. It includes a battery 300, the light source cover 130 is built in the light source cover 130 to emit light by the power supplied from the battery 300, and the intermittent switch 500 to control the blinking of the light source 400. .

First, although the transmissive member 10 is preferably implemented by a glass plate that can transmit sunlight and have a smooth surface, it will be clearly clarified that the transmissive member 10 can be implemented by a synthetic resin plate or the like that can transmit sunlight as needed. .

The main body 100 forms the center of the mood lamp according to the first embodiment of the present invention, and the main body 100 is roughly divided into a suction plate 110 made of a synthetic resin material, a decorative connection part 120, and a light source cover 130. do.

Adsorption plate 110 is to be adsorbed in a vacuum to the permeable member 10, this adsorption plate 110 as shown in Figs. 1 and 2 is a disc shape that is concave inside and thinner in the direction from the center to the circumferential edge Since it is formed, the inner edge of the suction plate 110 is hermetically adhered to the transparent member 10 whose surface is smooth and is adsorbed in a vacuum state. In addition, a mounting groove 112 is formed at the center of the inner surface of the adsorption plate 110, and the solar cell 200, the circuit board B, the storage battery 300, and the intermittent switch 500 are mounted.

The decorative connector 120 connects between the suction plate 110 and the light source cover 130, whereby the suction plate 110 and the light source cover 130 are maintained at a predetermined interval. In FIGS. 1 and 2, the decorative connector 120 is illustrated in a substantially conical shape, but the decorative connector 120 may be formed in various shapes to connect the suction plate 110 and the light source cover 130. In addition, a through hole 122 is formed at the center of the decorative connection part 120 so as to be connected to the mounting groove 112 so that a wire 410 for electrically connecting the circuit board B and the light source 400 to be described later is installed. do. The decorative connector 120 configured as described above connects the light source cover 130 at a predetermined distance from the transmission member 10, whereby the suction plate 110 and the decorative connection part 120 are not visible at night and the light source cover 130 is not visible. Since only the light emitted from) is observed, the viewer feels aesthetic and induces curiosity.

The light source cover 130 is made of a material having a light transmittance to transmit light emitted from the light source 400 to lightly surround the light source. In FIG. 1 and FIG. 2, the light source cover 130 is shown in a round sphere shape. However, the light source cover 130 may be formed in various ways depending on the shape of the light source.

The above-mentioned adsorption plate 110, the decorative connector 120 and the light source cover 130 is preferably formed integrally by being made of silicone (silicone) having elasticity of the synthetic resin. In particular, the light source cover 130, the suction plate 110 and the decorative connection portion 120 is preferably made of different silicon and integrally molded by multiple injection. That is, the light source cover 130 injects the light-transmitting silicon into the mold, and the adsorption plate 110 and the decorative connection part 120 are integrally formed by double injection injecting the light-impermeable silicon into the mold. will be. At this time, the solar cell 200, the storage battery 300, the circuit board (B), the light source 400 and the intermittent switch 500 is preferably inserted into the mold and integrally formed with the main body 100.

The solar cell 200 converts light energy of sunlight into electrical energy, and the solar cell is mounted in the mounting groove 112 of the main body 100, as shown in FIG. The light energy transmitted through) is converted into electrical energy. The circuit board B on which the circuit is formed is mounted on the solar cell 200, and the storage battery 300 and the interrupt switch 500 are mounted on the circuit board B.

Optionally, the solar cell 200 is protected by a cell cover 114 having a light transmission. The cell cover 114 is integrally formed with the main body 100 as shown in FIG. At the same time to protect the solar cell 200 is mounted and serves to prevent the solar cell 200 from being separated from the mounting groove 112 when the intermittent switch 500 is pressed.

The storage battery 300 is electrically connected to the solar cell 200 to store the electrical energy converted by the solar cell 200. The storage battery 300 is mounted on the circuit board B and the main body 100. Is built into the interior.

The light source 400 is embedded in the light source cover 130 to emit light. For this purpose, the light source 400 is electrically connected to the circuit board through the wire 410 to receive power from the storage battery 300. . Accordingly, the light emitted from the light source 400 passes through the light source cover 130 to lightly illuminate the surroundings. In addition, the light source 400 is preferably implemented as an LED (Light Emitting Diode (LED)), and because the LED is simple in structure, mass production is possible and economically inexpensive, and it is small in size and has strong advantages in vibration and long life. .

The intermittent switch 500 is electrically connected between the light source 400 and the storage battery 300 to interrupt the blinking of the light source 400, and the intermittent switch 500 includes a tack switch that can be pressed. Preferably, the push switch is implemented as a push switch, and the push switch is mounted on an upper portion of the circuit board B as shown in FIG. 2 and embedded in the main body 100. Therefore, when the main body 100 made of an elastic material is pressed, the push knob 510 of the push switch is turned on to turn on the light source 400 or to turn off the light source 400. In addition, as shown in FIGS. 1 and 2, the push knob 510 of the push switch is preferably embedded to protrude to the outside of the main body 100 so as to visually easily indicate its position. Optionally, the push knob 510 of the push switch may be displayed on the outer surface of the main body 100 through printing or the like to indicate its position. Optionally, the push switch may be installed in the main body 100 such that the push knob 510 is exposed to the outside of the main body 100, wherein the push knob 510 is directly pressed by the user without passing through the main body 100. Works by.

In the mood lamp according to the first embodiment of the present invention configured as described above, the main body 100 is pushed in the direction of the transmission member 10 in a state where the edge of the suction plate 110 is in contact with the transmission member 10 as a whole. As shown in FIG. 4, the edge of the suction plate 110 is tightly adhered to the permeable member 10 and is adsorbed in a vacuum state.

Accordingly, the sunlight irradiated during the day passes through the transmission member 10 and is converted into electrical energy through the solar cell 200, and thus the electrical energy converted by the solar cell 200 is stored in the storage battery 300. .

Subsequently, in order to turn on the light source 400 after sunset or if necessary, when the intermittent switch 500 is pressed in the direction of the arrow shown in FIG. 3, the light source 400 emits light by the power supplied from the battery 300. In this way, the light emitted from the light source 400 passes through the light source cover 130 so as to lightly surround the surroundings.

At this time, the mood lamp according to the first embodiment of the present invention, because only the light shining from the light source cover 130 is visible without the adsorption plate 110 and the decorative connection portion 120 in the dark night, causing the viewer's curiosity and beautiful The interior decoration will be produced.

On the contrary, in order to turn off the light source 400 in the daytime or as needed, if the intermittent switch 500 is pressed once more in the direction of the arrow shown in FIG. 3, the power supplied from the battery 300 is cut off and the light source 400 is turned off. do.

On the other hand, Figure 6 is a cross-sectional view showing another embodiment of the intermittent switch 500 according to the first embodiment of the present invention, the intermittent switch 500 is implemented as a push switch, wherein the push switch is shown in FIG. As described above, the circuit board B is disposed between the circuit board B and the solar cell 200. In detail, the push switch is mounted under the circuit board B, and the push knob 510 of the push switch is disposed in close contact with or close to the solar cell 200.

7 and 8 are views showing the operation of the push switch, pressing the main body 100 made of an elastic material in the direction of the arrow shown in Figure 7, the adsorption plate 110 is elastically deformed and the push knob of the push switch 510 is in contact with the solar cell 200. Subsequently, since the main body 100 is elastically restored as shown in FIG. 8 and the push knob 510 is also dropped from the solar cell 200 to be in an on state, the main body 100 is turned on by the power supplied from the battery 300. 400 is lit.

On the contrary, when the main body 100 is pressed again, the adsorption plate 110 is elastically deformed and restored, so that the push knob 510 is brought into contact with the solar cell 200 and falls off to form an off state. Power is supplied from the cut off the light source 400 is turned off.

As shown in FIGS. 9 and 10, the mood lamp according to the second embodiment of the present invention includes a light source cover 130 made of an adsorption plate 110 and a light-transmitting material adsorbed to the light-transmitting member 10. A main body 100 having a), a solar cell 200 mounted on the main body 100 to convert solar light transmitted through the transmission member 10 into electric energy, and the electric energy converted from the solar cell 200 is stored. Built in the battery 300, the light source cover 130 is a light source 400 for emitting light by the power supplied from the battery 300, electrically connected between the light source 400 and the storage battery 300 from the outside Input from the measuring unit 700 and the measuring unit 700 for outputting the measured value by measuring the amount of electrical energy of the flashing switch unit 600, the solar cell 200 to flash the light source 400 according to the input signal The flashing switch unit 600 to automatically flash the light source by comparing the measured measured value with a preset reference value. And a controller 800 for outputting the corresponding signal.

The main body 100, the solar cell 200, the storage battery 300, and the light source 400 of the mood lamp according to the second embodiment of the present invention may be formed on the components of the mood lamp according to the first embodiment of the present invention. Corresponding description thereof will be omitted.

The flashing switch unit 600 is electrically connected between the light source 400 and the storage battery 300 to supply or cut off power to the light source 400 according to a signal input from the controller 800. That is, the flashing switch unit 600 is in an on state for supplying power to the light source 400 or an off state for interrupting power according to the corresponding signal output from the control unit 800, so that the power supply to the light source 400 It is to crack down on whether or not.

The measuring unit 700 measures the magnitude of the electric energy converted by the solar cell 200 and outputs the measured value to the controller 800. For example, since the sunlight is strongly irradiated on a clear day, the measurement value of the measuring unit 700 measuring the magnitude of the electrical energy of the solar cell 200 increases, while the sunlight is weakly irradiated on a cloudy day with clouds or fog. Therefore, the measured value of the measuring unit 700 is reduced.

The control unit 800 compares the measured value output from the measuring unit 700 with a preset reference value and outputs a corresponding signal to the blinking switch unit 600 to blink the light source 400. That is, when the measured value input from the measuring unit 700 is smaller than the preset reference value, the control unit 800 outputs a lighting signal to the flashing switch unit 600 to light the light source 400, and from the measuring unit 700. When the input measured value is larger than the preset reference value, the light source 400 is turned off by outputting a light off signal to the flashing switch unit 600.

The mood lamp according to the second embodiment of the present invention configured as described above is hermetically adhered to the permeable member 10 through the adsorption plate 110 and is adsorbed in a vacuum state.

Accordingly, the sunlight irradiated during the day passes through the transmission member 10 and is converted into electrical energy through the solar cell 200, and thus the electrical energy converted by the solar cell 200 is stored in the storage battery 300. .

And when sunlight is strongly irradiated during the day or a sunny day, the amount of electrical energy converted by the solar cell 200 is increased, the measuring unit 700 outputs a large measured value, the control unit 800 in the measuring unit 700 Since the large measured value input from) is greater than the preset reference value, the light-out signal is output, and the flashing switch unit 600 is turned off by the light-off signal input from the controller 800, so the light source 400 is turned off. .

On the other hand, when sunlight is weakly irradiated at night or on a cloudy day, the amount of electrical energy converted by the solar cell 200 is reduced, so that the measurement unit 700 outputs a small measurement value, and the control unit 800 measures the measurement unit. Since the small measured value input from the 700 is smaller than the already set reference value, the lighting signal is output, and the flashing switch unit 600 is turned on by the lighting signal input from the controller 800, so the light source 400 is Lights up.

That is, in the mood lamp according to the second embodiment of the present invention, when the sunlight is strongly irradiated, the light source 400 is automatically turned off by the measuring unit 700, the control unit 800, and the flashing switch unit 600. If the light does not emit light, but the sunlight is weakly irradiated or almost or completely, the light source 400 automatically emits light to softly illuminate the surroundings.

As shown in FIGS. 11 and 12, the mood lamp according to the third embodiment of the present invention includes a light source cover 130 made of an adsorption plate 110 and a light-transmitting material adsorbed to the light-transmitting member 10. A main body 100 having a), a solar cell 200 mounted on the main body 100 to convert solar light transmitted through the transmission member 10 into electric energy, and the electric energy converted from the solar cell 200 is stored. Built in the battery 300, the light source cover 130 is a light source 400 for emitting light by the power supplied from the battery 300, electrically connected between the light source 400 and the storage battery 300 from the outside The illuminance value input from the illuminance sensor 900 and the illuminance sensor 900 mounted on the main body 100 to measure the illuminance value of sunlight, the flashing switch unit 600 which flashes the light source 400 according to the input signal. By the flashing switch unit 600 to automatically flash the light source 400 in comparison with the preset reference value And a control unit 800 for outputting the sugar signal.

The main body 100, the solar cell 200, the storage battery 300, the light source 400 and the flashing switch unit 600 of the mood lamp according to the third embodiment of the present invention are the first and second of the present invention described above. Corresponding to the components of the mood lamp according to the embodiment, detailed description thereof will be omitted.

The illuminance sensor 900 is mounted on the sensor mounting groove 116 formed on the inner surface of the adsorption plate 110 to measure illuminance irradiated from sunlight and output the measured illuminance value to the controller 800. The illuminance sensor is preferably implemented as a CdS sensor (semiconductor photo sensor) having a photo conductive effect in which the resistance decreases upon receiving light. For example, since the sunlight is strongly irradiated on a clear day, the illuminance value of the illuminance sensor 900 is increased, while the illuminance value of the illuminance sensor 900 is decreased because the sunlight is weakly irradiated on a cloudy day with clouds or fog. .

The control unit 800 compares the illuminance value output from the illuminance sensor 900 with a preset reference value and outputs a corresponding signal to the flashing switch unit 600 so as to flash the light source 400. That is, when the illuminance value input from the illuminance sensor 900 is smaller than the preset reference value, the controller 800 outputs a lighting signal to the flashing switch unit 600 to turn on the light source 400, and from the illuminance sensor 900. When the input illuminance value is larger than the preset reference value, the light source 400 is turned off by outputting a light off signal to the flashing switch unit 600.

The mood lamp according to the third embodiment of the present invention configured as described above is hermetically adhered to the permeation member 10 through the adsorption plate 110 of the main body 100 and is adsorbed in a vacuum state.

Accordingly, the sunlight irradiated during the day passes through the transmission member 10 and is converted into electrical energy through the solar cell 200, and thus the electrical energy converted by the solar cell 200 is stored in the storage battery 300. .

And when the sunlight is strongly irradiated during the day or a sunny day, the illumination sensor 900 outputs a large illuminance value, the control unit 800 is a large illuminance value input from the illumination sensor 900 is larger than the preset reference value The light source 400 outputs an off signal, and the flashing switch unit 600 is turned off by the extinguished signal input from the controller 800, so that the light source 400 is turned off.

On the other hand, when sunlight is weakly irradiated at night or on a cloudy day, the illuminance sensor 900 outputs a small illuminance value, and the control unit 800 outputs a small illuminance value smaller than the preset reference value. Therefore, the lighting signal is output, and the blinking switch unit 600 is turned on by the lighting signal input from the controller 800, so the light source 400 is turned on.

That is, in the mood lamp according to the third embodiment of the present invention, when the sunlight is strongly irradiated, the light source 400 is automatically turned off by the illumination sensor 900, the control unit 800, and the flashing switch unit 600. If the light does not emit light, but the sunlight is weakly irradiated or almost or completely, the light source 400 automatically emits light to softly illuminate the surroundings.

As shown in FIGS. 13 and 14, the mood lamp according to the fourth embodiment of the present invention includes a light source cover 130 made of an adsorption plate 110 and a light-transmitting material adsorbed to the light-transmitting member 10. A main body 100 having a), a solar cell 200 mounted on the main body 100 to convert solar light transmitted through the transmission member 10 into electric energy, and the electric energy converted from the solar cell 200 is stored. Built in the battery 300, the light source cover 130 is a light source 400 for emitting light by the power supplied from the battery 300, electrically connected between the light source 400 and the storage battery 300 from the outside The flashing switch 600 for blinking the light source 400 according to the input signal, the measuring unit 700 for measuring the magnitude of the electrical energy of the solar cell 200 to output the measured value, and outputs an on or off signal The control switch 810, input from the measuring unit 700 at the time of the ON signal provided from the control switch 810 Comparison with a reference value to the predetermined setpoint by a controller 800 which outputs the signal to flash the switch unit 600 to flasher by the light source 400.

The main body 100, the solar cell 200, the storage battery 300, the light source 400, the flashing switch 600 and the measuring unit 700 of the mood lamp according to the fourth embodiment of the present invention described above Corresponding to the components of the mood lamp according to the first and second embodiments, detailed description thereof will be omitted.

The control switch 810 outputs an on or off signal to the control unit 800. The control switch 810 is preferably implemented as a push switch including a pushable tack switch, wherein the push switch is shown in FIG. As shown in the diagram, the circuit board B is installed between the cell 200. In detail, the push switch is mounted on the lower portion of the circuit board B and the push knob 812 is disposed in close contact with or close to the solar cell 200.

The operation of the push switch is such as the operation of the interrupt switch 500 of the mood lamp according to the first embodiment of the present invention (see Figs. 7 and 8), pressing down the main body 100 made of an elastic material adsorption plate ( After the 110 is elastically deformed and the push knob 812 is in contact with the solar cell 200, the push knob 812 is also dropped from the solar cell 200 by the main body 100 which is elastically restored. As a result, the on-signal is output to the controller 800. On the contrary, when the main body 100 is pressed once more, while the adsorption plate 110 is elastically deformed and restored, the push knob 812 is in contact with the solar cell 200 and is turned off to output an off signal to the controller 800. Done.

Optionally, the push switch is mounted on an upper portion of the circuit board B as in the operation of the interrupt switch 500 of the mood lamp according to the first embodiment of the present invention (see FIG. 2 and FIG. 3). ) Can be embedded inside. That is, when the main body 100 made of an elastic material is pressed, the push knob 812 is operated to output an on or off signal to the controller 800. In addition, the push knob 812 of the push switch is preferably embedded to protrude to the outside of the main body 100 to visually indicate the position thereof. If necessary, the push knob 812 of the push switch may be displayed on the outer surface of the main body 100 through printing or the like to indicate its position.

The controller 800 compares the measured value output from the measurement unit 700 with the preset reference value when the on signal is input from the control switch 810 and outputs the corresponding signal to the flashing switch unit 600. That is, the controller 800 is operated when the signal input from the control switch 810 is the on signal and is stopped when the signal is off. For example, when the signal output from the control switch 810 is an on signal, the control unit 800 outputs a lighting signal to the flashing switch unit when the measured value input from the measuring unit 700 is smaller than the preset reference value, thereby generating a light source 400. ) Is turned on, and when the measured value input from the measuring unit 700 is larger than the already set reference value, the light-out signal is output to the blinking switch unit 600 to turn off the light source 400, while the control switch 810 If the signal output from) is an off signal, the controller 800 does not perform such an operation.

The mood lamp according to the fourth embodiment of the present invention configured as described above is hermetically adhered to the permeable member 10 through the adsorption plate 110 of the main body 100, and is adsorbed in a vacuum state.

Accordingly, the sunlight irradiated during the day passes through the transmission member 10 and is converted into electrical energy through the solar cell 200, and thus the electrical energy converted by the solar cell 200 is stored in the storage battery 300. .

Subsequently, when the control switch 810 is pressed to output the on signal to the controller 800, the controller 800 starts to drive. That is, when sunlight is strongly irradiated during the day or on a sunny day, the magnitude of the electric energy converted by the solar cell 200 increases, and the measuring unit 700 outputs the measured large measured value, and the control unit 800 measures the measurement. Since the large measured value input from the unit 700 is larger than the preset reference value, the light-out signal is output, and the flashing switch unit 600 is turned off by the light-off signal input from the control unit 800, so that the light source 400 Is turned off. On the other hand, when sunlight is weakly irradiated at night or on a cloudy day, the amount of electrical energy converted by the solar cell 200 is reduced, so that the measuring unit 700 outputs the measured small measured value, and the controller 800 Since the small measurement value input from the measuring unit 700 is smaller than the preset reference value, the lighting signal is output, and the flashing switch unit 600 is turned on by the lighting signal input from the control unit 800, so that the light source 400 is turned on. ) Lights up.

That is, in the mood lamp according to the fourth embodiment of the present invention, when the control switch 810 outputs an on signal, when the controller 800 is driven and the sunlight is strongly irradiated, the measurer 700 and the controller 800 And the light source 400 is automatically turned off by the flashing switch unit 600 does not emit light, but when the sunlight is weakly irradiated or almost or completely, the light source 400 automatically emits light to lightly illuminate the surroundings On the other hand, when the control switch 810 outputs an off signal, the control unit 800 stops and does not perform such an operation.

As shown in FIGS. 15 and 16, the mood lamp according to the fifth embodiment of the present invention includes a light source cover 130 made of an adsorption plate 110 and a light-transmitting material adsorbed to the light-transmitting member 10. A main body 100 having a), a solar cell 200 mounted on the main body 100 to convert solar light transmitted through the transmission member 10 into electric energy, and the electric energy converted from the solar cell 200 is stored. Built in the battery 300, the light source cover 130 is a light source 400 for emitting light by the power supplied from the battery 300, electrically connected between the light source 400 and the storage battery 300 from the outside Flashing switch 600 for blinking the light source 400 according to the input signal, the illumination sensor 900 mounted on the main body 100 to measure the illuminance value of sunlight, the control switch for outputting an on or off signal 810 ), The measured value input from the illuminance sensor 900 in the on-signal provided from the control switch 810 Comparison with a reference value predetermined by a controller 800 which outputs the signal to flash the switch unit 600 to flasher by the light source 400. The

The main body 100, the solar cell 200, the storage battery 300, the light source 400, the flashing switch 600, the illumination sensor 900 and the control switch 810 of the mood lamp according to the fifth embodiment of the present invention Corresponds to the components of the mood lamp according to the first, second and fourth embodiments of the present invention described above, and thus a detailed description thereof will be omitted.

The control unit 800 compares the illuminance value output from the illuminance sensor 900 with the preset reference value when the ON signal is provided from the control switch 810 and transmits the corresponding signal to the flashing switch unit 600 so as to flash the light source 400. Output That is, the controller 800 is operated when the signal input from the control switch 810 is the on signal and is stopped when the signal is off. For example, when the signal output from the control switch 810 is an on signal, the controller 800 outputs a lighting signal to the flashing switch unit 600 when the measured value input from the illuminance sensor 900 is smaller than the preset reference value. While the light source 400 is turned on, when the illuminance value input from the illuminance sensor 900 is larger than the preset reference value, the light source 400 outputs an unlit signal to the flashing switch unit 600 to turn off the light source 400. When the signal output from the control switch 810 is an off signal, the controller 800 does not perform such an operation.

The mood lamp according to the fifth embodiment of the present invention configured as described above is hermetically adhered to the permeation member 10 through the adsorption plate 110 of the main body 100, and is adsorbed in a vacuum state.

Accordingly, the sunlight irradiated during the day passes through the transmission member 10 and is converted into electrical energy through the solar cell 200, and thus the electrical energy converted by the solar cell 200 is stored in the storage battery 300. .

Subsequently, when the control switch 810 is pressed to output the on signal to the controller 800, the controller 800 starts to drive. That is, when sunlight is strongly irradiated during the day or a sunny day, the illumination sensor 900 outputs a large illuminance value, and the controller 800 outputs a large illumination value input from the illuminance sensor 900 because it is larger than a preset reference value. The light source 400 is turned off, and in the flashing switch unit 600, the light source 400 is turned off because the light is turned off by the light off signal input from the controller 800. On the other hand, when sunlight is weakly irradiated at night or on a cloudy day, the illuminance sensor 900 outputs a small illuminance value, and the control unit 800 outputs a small illuminance value smaller than the preset reference value. Therefore, the lighting signal is output, and the blinking switch unit 600 is turned on by the lighting signal input from the controller 800, so the light source 400 is turned on.

That is, in the mood lamp according to the fifth embodiment of the present invention, when the control switch 810 outputs an on signal, when the controller 800 is driven and the sunlight is strongly irradiated, the illumination sensor 900 and the controller 800 And the light source 400 is automatically turned off by the flashing switch unit 600 does not emit light, but when the sunlight is weakly irradiated or almost or completely, the light source 400 automatically emits light to lightly illuminate the surroundings On the other hand, when the control switch 810 outputs an off signal, the control unit 800 stops and does not perform such an operation.

The present invention is not limited only to the above-described embodiments, but can be modified, changed, replaced, or added in various forms without departing from the gist of the present invention. I can understand. It is obvious that the technical idea belongs to the invention if the practice of such improvement, change, substitution or addition is included in the scope of the following claims.

10: transmission member 100: main body
110: adsorption plate 120: decorative connection
130: light source cover 200: cell
300: storage battery 400: light source
500: intermittent switch 600: flashing switch
700 measuring unit 800 control unit
810 control switch B: circuit board

Claims (16)

In a mood lamp,
A main body having a light source cover made of a light absorbing plate and a light transmitting material adsorbed to a transmission member through which sunlight is transmitted, a solar cell mounted to the main body to convert sunlight transmitted through the transmission member into electrical energy, and in the solar cell A storage battery for storing the converted electrical energy, a light source built in the light source cover to emit light by the power supplied from the storage battery, and an intermittent switch for controlling the blinking of the light source,
The main body is a mood lamp, characterized in that it comprises a decorative connector for connecting the suction plate and the light source cover spaced apart at a predetermined interval.
In a mood lamp,
A main body having a light source cover made of a light absorbing plate and a light transmitting material adsorbed to a transmission member through which sunlight is transmitted, a solar cell mounted to the main body to convert sunlight transmitted through the transmission member into electrical energy, and in the solar cell Battery for storing the converted electrical energy, a light source built in the light source cover to emit light by the power supplied from the battery, electrically connected between the light source and the battery is blinking the light source in accordance with the signal input from the outside A switch unit, a measuring unit for measuring the magnitude of the electrical energy of the solar cell and outputs a measured value, the corresponding signal to the flashing switch unit to automatically flash the light source by comparing the measured value input from the measuring unit with a predetermined reference value Including a control unit for outputting,
The main body is a mood lamp, characterized in that it comprises a decorative connector for connecting the suction plate and the light source cover spaced apart at a predetermined interval.
In a mood lamp,
A main body having a light source cover made of a light absorbing plate and a light transmitting material adsorbed to a transmission member through which sunlight is transmitted, a solar cell mounted to the main body to convert sunlight transmitted through the transmission member into electrical energy, and in the solar cell Battery for storing the converted electrical energy, a light source built in the light source cover to emit light by the power supplied from the battery, electrically connected between the light source and the battery is blinking the light source in accordance with the signal input from the outside Switch unit, an illuminance sensor for measuring the illuminance value of sunlight passing through the transmission member, and outputs the corresponding signal to the flashing switch unit to automatically flash the light source by comparing the illuminance value input from the illuminance sensor with a preset reference value Including a control unit,
The main body is a mood lamp, characterized in that it comprises a decorative connector for connecting the suction plate and the light source cover spaced apart at a predetermined interval.
In a mood lamp,
A main body having a light source cover made of a light absorbing plate and a light transmitting material adsorbed to a transmission member through which sunlight is transmitted, a solar cell mounted to the main body to convert sunlight transmitted through the transmission member into electrical energy, and in the solar cell Battery for storing the converted electrical energy, a light source built in the light source cover to emit light by the power supplied from the battery, electrically connected between the light source and the battery is blinking the light source in accordance with the signal input from the outside A switch unit, a measuring unit for measuring the magnitude of the electrical energy of the solar cell to output the measured value, a control switch for outputting an on or off signal, the measured value input from the measuring unit at the time of the ON signal provided by the control switch Outputs the corresponding signal to the blinking switch unit to automatically flash the light source in comparison with the set reference value. Comprising a control unit,
The main body is a mood lamp, characterized in that it comprises a decorative connector for connecting the suction plate and the light source cover spaced apart at a predetermined interval.
In a mood lamp,
A main body having a light source cover made of a light absorbing plate and a light transmitting material adsorbed to a transmission member through which sunlight is transmitted, a solar cell mounted to the main body to convert sunlight transmitted through the transmission member into electrical energy, and in the solar cell Battery for storing the converted electrical energy, a light source built in the light source cover to emit light by the power supplied from the battery, electrically connected between the light source and the battery is blinking the light source in accordance with the signal input from the outside A switch unit, an illuminance sensor for measuring an illuminance value of sunlight passing through the transmission member, a control switch for outputting an on or off signal, and a reference value preset from a measured value input from the illuminance sensor upon an on signal provided from the control switch. Outputting a corresponding signal to the flashing switch unit to automatically flash the light source in comparison with Including a control unit,
The main body is a mood lamp, characterized in that it comprises a decorative connector for connecting the suction plate and the light source cover spaced apart at a predetermined interval.
delete delete The method according to any one of claims 1 to 5,
The main body is a mood lamp, characterized in that the cell cover having a light transmission to protect the solar cell.
The method according to claim 1,
The interrupt switch is a mood lamp, characterized in that consisting of a push switch.
The method of claim 9,
The body is formed of a synthetic resin material having elasticity,
The push switch is built in the inside of the main body, characterized in that the operation by the push acting on the outside of the main body lamp.
delete delete delete The method according to claim 4 or 5,
The control switch is a mood lamp, characterized in that consisting of a push switch.
The method according to claim 14,
The body is formed of a synthetic resin material having elasticity,
The push switch is built in the inside of the main body, characterized in that the operation by the push acting on the outside of the main body lamp.
delete

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