CN110822359A - Energy-saving dynamic lamp - Google Patents

Abstract

The invention discloses an energy-saving dynamic lamp which comprises a lampshade shell, wherein a transparent glass plate is embedded on the inner wall of the lampshade shell, a hollow interlayer is arranged in the transparent glass plate, a plurality of sliding plug strips are connected in the hollow interlayer in a sealing and sliding manner, balancing weights are embedded in the sliding plug strips, the hollow interlayer is divided into a plurality of closed cavities by the sliding plug strips, and each closed cavity is filled with a silver ion solution. According to the invention, different closed chambers are continuously switched on and off along with the change of music through the power supply device, so that a mirror surface is formed on the surface of the indium tin oxide electrode layer when silver ions are electrified, or the silver ions return to the solution closed chambers to become transparent after the electricity is lost, the light emitting position can be continuously changed along with the continuous change of sound frequency, a dynamic effect is realized without installing a plurality of lamp beads, the electric energy is greatly saved, meanwhile, the influence of an electric field and vibration in the environment where the lamp is located is avoided, the service life is long, no noise is generated during use, and the user experience is good.

Description

Energy-saving dynamic lamp

Technical Field

The invention relates to the technical field of lamp equipment, in particular to an energy-saving dynamic lamp.

Background

In the field of entertainment lighting lamps, the lamps are required to have certain dynamic change functions, and particularly, the lamps can generate corresponding dynamic changes along with changes of on-site music rhythms, melodies and the like so as to achieve harmonious and consistent acousto-optic effects.

In the existing lamps used in the recreation grounds, the most common LED crystal magic ball is arranged in the lamp, the light-emitting position of the lamp is changed by controlling the continuous on and off of the lamp beads through the sound control element, then the dynamic change is completed, and meanwhile, the shell rotates back and forth along with the motor, so that the light beam scanning effect is formed. The lamp not only needs to light a plurality of lamp beads, but also needs to supply power to the motor to operate, thereby consuming electric energy; meanwhile, the voice control element for controlling the on and off of the lamp beads is mostly a resistance type sensor, and the sensor is easily influenced by an electric field, a magnetic field, vibration, radiation, air pressure, sound pressure, air flow and the like, so that the service life of the lamp is short; and adopt the motor to make the shell rotatory not only need complicated structure, cause the lamps and lanterns quality great simultaneously, increased the load of motor, further increaseed the consumption of electric energy, each complicated working part and motor still can produce the working noise when the operation, influence user experience.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides an energy-saving dynamic lamp, which enables different closed chambers to be continuously switched on and off along with the change of music through a power supply device, so that a mirror surface can be formed on the surface of an indium tin oxide electrode layer when silver ions are electrified, or the silver ions return to a solution closed chamber to be transparent after the silver ions are electrified, the light emitting position can be continuously changed along with the continuous change of sound frequency, a plurality of lamp beads are not required to be installed to realize a dynamic effect, and the electric energy is greatly saved; meanwhile, the lamp is not influenced by an electric field and vibration in the environment where the lamp is located, and the service life is long; and the use is noiseless, and the user experience is good.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an energy-conserving developments lamps and lanterns, includes the lamp shade shell, it is equipped with the clear glass board to inlay on the inner wall of lamp shade shell, the cavity intermediate layer has been seted up in the clear glass board, cavity intermediate layer inner seal sliding connection has a plurality of plug strips, the embedded balancing weight that is equipped with of plug strip, it is a plurality of airtight cavities, every are cut apart into with the cavity intermediate layer to the plug strip all the packing has silver ion solution, and every in the airtight cavity all the plating system has transparent indium tin oxide electrode layer on two glass inner walls of airtight cavity, the lateral wall of lamp shade shell is seted up with the arc wall, install the power supply unit to the indium tin oxide electrode layer power supply in the arc wall.

Preferably, power supply unit is including inlaying the bar magnet of establishing on the lamp shade shell, fixedly connected with spiral coil on bar magnet's one side inner wall is kept away from to the arc wall, spiral coil's both ends respectively with two indium tin oxide electrode layer couplings, just bar magnet's lower extreme extends to in the spiral coil.

The invention has the following beneficial effects:

1. by arranging a plurality of different spiral coils to receive sound with different frequencies to generate resonance, so that the spiral coil generating vibration moves up and down rapidly relative to the bar magnet, the magnetic flux in the spiral coil is changed to generate induction current in the spiral coil, at the moment, the indium tin oxide electrode layer coupled with the spiral coil can be electrified, so that an electric field is generated between the two indium tin oxide electrode layers, silver ions are separated out under the action of the electric field and are electroplated on the surface of one indium tin oxide electrode layer, thereby forming a mirror surface and preventing the light from emitting from the closed cavity, thereby changing the emitting position of the light, thus continuously changing the emitting position of the light along with the continuous change of the sound frequency, the lamp has the function of dynamic change along with the change of music, the dynamic effect is realized without installing a plurality of lamp beads, and the electric energy is greatly saved;

2. the lamp can generate a dynamic effect along with the change of music through a single lamp bead, a sound control sensor is not needed to control the light to flicker, the lamp is not influenced by an electric field and vibration in the environment where the lamp is located, and the service life is long;

3. through arranging the sliding plug strips in the hollow interlayer and embedding the weight blocks in the sliding plug strips, when silver ions in a silver ion solution are separated out, the volume of the solution is reduced, the pressure in the closed cavity is reduced, negative pressure can be generated and the sliding plug strips can move, the center of gravity of the whole device is changed, the device can be rotatably installed at a specified place, and thus the device also rotates along with the change of sound frequency, the dynamic effect of the lamp is further improved, a complex motor driving structure is not needed, the electric energy consumption is reduced, and the equipment cost is also reduced;

4. the device has the advantages that the sliding plug strip is rotated through the change of the position of the sliding plug strip in the device, a driving motor is not required to be installed, the load of electric energy is reduced, meanwhile, the structure is simple, the sliding plug strip slides in the solution of the hollow interlayer, the resistance of the solution to sound waves is far greater than that of air, and the noise generated when the device operates can be greatly reduced.

Drawings

Fig. 1 is a schematic structural diagram of an energy-saving dynamic lamp according to the present invention;

fig. 2 is an enlarged schematic view of a structure at a position a of the energy-saving dynamic lamp provided by the invention.

In the figure: 1 lampshade shell, 2 arc-shaped grooves, 3 transparent glass plates, 4 hollow interlayers, 5 sliding plug strips, 6 balancing weights, 7 bar-shaped magnets and 8 spiral coils.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-2, an energy-saving dynamic lamp comprises a lampshade shell 1, wherein a transparent glass plate 3 is embedded on the inner wall of the lampshade shell 1, a hollow interlayer 4 is arranged in the transparent glass plate 3, a plurality of sliding plug strips 5 are connected in the hollow interlayer 4 in a sealing and sliding manner, balancing weights 6 are embedded in the sliding plug strips 5, the hollow interlayer 4 is divided into a plurality of closed chambers by the sliding plug strips 5, and each closed chamber is filled with silver ion solution.

Transparent indium tin oxide electrode layers are plated on the inner walls of the two pieces of glass of each closed chamber, the side wall of the lampshade shell 1 is provided with an arc-shaped groove 2, and a power supply device for supplying power to the indium tin oxide electrode layers is installed in the arc-shaped groove 2. It should be noted that the silver ion solution fills the whole sealed chamber, and the content of silver ions in the solution is high enough to completely cover the indium tin oxide electrode layer on the inner wall of the glass in the sealed chamber.

When the device is specifically installed, the lampshade shell 1 can be rotatably installed at a designated place, and the device can freely rotate due to small rotation resistance during installation.

The power supply device comprises a bar magnet 7 embedded on the lampshade shell 1, a spiral coil 8 is fixedly connected to the inner wall of one side, away from the bar magnet 7, of the arc-shaped groove 2, two ends of the spiral coil 8 are respectively coupled with two indium tin oxide electrode layers, and the lower end of the bar magnet 7 extends into the spiral coil 8.

It should be noted that the natural frequencies of the spiral coils 8 are different, each spiral coil 8 corresponds to a piece of music, and when music with different frequencies appears, the corresponding spiral coil 8 can generate a resonance effect.

In the invention, when sounds with different frequencies appear in music playing, the spiral coil 8 with the same frequency as the sound of the section can vibrate to enable the spiral coil 8 to rapidly shake up and down, so that the spiral coil 8 can continuously cut the magnetic induction line of the bar magnet 7 and generate induction current in the spiral coil 8, an electric field is generated between two indium tin oxide electrode layers in a closed chamber coupled with the spiral coil 8, at the moment, silver ions in a solution are separated out under the action of the electric field and are electroplated on the surface of one indium tin oxide electrode layer to form a mirror surface, light in the lampshade shell 1 is prevented from being emitted from the closed chamber, the position where the light is emitted is changed, when the sound of the section of frequency disappears, the spiral coil 8 stops vibrating along with the electric field, the induction current in the spiral coil 8 disappears, and the silver ions are returned to the solution after the indium tin oxide electrode layers lose power, the closed chamber becomes transparent again. Therefore, when a whole piece of music is played, the light emitting position in the device is continuously changed along with the change of the music, and the device has good dynamic ornamental effect.

Meanwhile, when silver ions in each closed cavity are electroplated on the indium tin oxide electrode layer, the volume of the solution in the electrified closed cavity is reduced due to the fact that the content of the silver ions in the solution is high, the pressure intensity is reduced accordingly, negative pressure can be generated to suck the sliding plug strips 5 to move, the balancing weight 6 is embedded in the sliding plug strips 5, the gravity center position of the whole device is changed accordingly along with the change of the positions of the sliding plug strips 5, the whole device can rotate under the action of gravity, and the dynamic change effect of the lamp is further improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (2)

1. The utility model provides an energy-conserving developments lamps and lanterns, includes lamp shade shell (1), its characterized in that, inlay on the inner wall of lamp shade shell (1) and be equipped with transparent glass board (3), cavity intermediate layer (4) have been seted up in transparent glass board (3), cavity intermediate layer (4) inner seal sliding connection has a plurality of sliding plug strip (5), the embedded balancing weight (6) that is equipped with in sliding plug strip (5), it is a plurality of airtight cavities, every sliding plug strip (5) are cut apart into cavity intermediate layer (4) a plurality of airtight cavities, every it has silver ion solution, and every all to plate the system on two glass inner walls of airtight cavity has transparent indium tin oxide electrode layer, the lateral wall of lamp shade shell (1) is seted up with arc wall (2), install the power supply unit to indium tin oxide electrode layer power supply in arc wall (2).

2. The dynamic energy-saving lamp set according to claim 1, wherein the power supply device comprises a bar magnet (7) embedded in the lamp housing (1), a spiral coil (8) is fixedly connected to an inner wall of the arc-shaped groove (2) on a side away from the bar magnet (7), two ends of the spiral coil (8) are respectively coupled to two indium tin oxide electrode layers, and a lower end of the bar magnet (7) extends into the spiral coil (8).

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