CN215118267U - Holographic projection device capable of being used for illumination - Google Patents

Abstract

The utility model provides a holographic projection arrangement that can be used to illumination, include: a lamp panel and a 3D holographic drive motor; the lamp panel is connected with the 3D holographic driving motor; the 3D holographic driving motor is configured to drive the lamp panel to rotate so as to realize holographic projection; the surface of the lamp panel plate is provided with a holographic LED lamp bar and an LED lamp bead for illumination; when holographic projection is carried out, the LED lamp bar for holography and the 3D holographic driving motor work, and the LED lamp bead for illumination does not work; when lighting, the LED lamp beads for lighting work, and the LED lamp strips for holography and the 3D holographic driving motor do not work. The utility model discloses use lamp panel formula structure to replace current fan formula structure for holographic projection arrangement can be provided with holographic LED lamp strip and for the illumination LED lamp pearl simultaneously, when not carrying out holographic projection but carrying out conventional illumination, holographic LED lamp strip outage for, LED lamp pearl circular telegram for the illumination, sufficient, the even and resources are saved of light of luminance when making holographic projection arrangement carry out conventional illumination.

Description

Holographic projection device capable of being used for illumination

Technical Field

The utility model relates to a holographic image technical field especially relates to a holographic projection arrangement that can be used to illumination.

Background

The existing holographic projection device based on the holographic fan adopts a fan-type structure, holographic LED lamp beads are arranged on fan wings, based on a POV (persistence of vision) display technology, through continuous change of display crystals (holographic LED lamp beads) in rotation, a complete and continuous picture is formed by utilizing the persistence of vision principle of human eyes, so that the effect of 3D holographic imaging is achieved through display, and the holographic projection device can be applied to the fields of product display and propaganda and the like.

However, when the holographic projection is not performed, the holographic LED lamp beads on the fan wing of the holographic projection device are fewer, the light is not uniform, and the brightness is insufficient, so that the requirement of performing conventional illumination cannot be met; meanwhile, the holographic fan has extremely high requirements on the quality and the reaction capability of the lamp beads, so the specification cost of the holographic LED lamp beads is much higher than that of the LED lamp for illumination, and the holographic LED lamp beads are also wasted in resources when being used for illumination.

SUMMERY OF THE UTILITY MODEL

In view of the above, an object of the present invention is to provide a holographic projection device for illumination.

Based on the above-mentioned purpose, the utility model provides a holographic projection arrangement that can be used to illumination, include: a lamp panel and a 3D holographic drive motor;

the lamp panel is connected with the 3D holographic driving motor; the 3D holographic driving motor is configured to drive the lamp panel to rotate to realize holographic projection;

the surface of the lamp panel plate is provided with a holographic LED lamp bar and an LED lamp bead for illumination; when holographic projection is carried out, the LED lamp bar for holography and the 3D holographic driving motor work, and the LED lamp bead for illumination does not work; when lighting, the LED lamp beads for lighting work, the LED lamp strips for holography and the 3D holographic driving motor do not work.

Optionally, the lamp panel plate includes a first plate surface and a second plate surface which are oppositely arranged; the holographic LED lamp strip and the lighting LED lamp bead are arranged on the first board surface; the second plate surface is connected with the 3D holographic drive motor.

Optionally, the holographic LED light bar extends to the edge of the lamp panel through the rotation center of the lamp panel.

Optionally, two holographic LED light bars are provided; two LED lamp strips for holography are arranged in a cross shape.

Optionally, the lighting LED lamp beads are arranged in an array.

Optionally, the first plate surface and the second plate surface are both provided with a lampshade.

Optionally, the position of the lamp cover of the first panel corresponding to the holographic LED lamp strip is transparent or hollowed.

Optionally, a wireless power supply coil is further arranged on the lampshade of the second plate surface; the wireless power supply coil is configured to supply power to the LED lamp strip for holography and the LED lamp bead for illumination.

Optionally, the device further comprises a housing; the housing covers the lamp panel and the 3D holographic driving motor.

Optionally, a light adjusting film is further disposed on the housing; when holographic projection is carried out, the light adjusting film is in a transparent state; when the lighting is carried out, the light adjusting film is in an opaque state; the light adjusting film is in a transparent state when being electrified and in an opaque state when being powered off.

From the above, it can be seen that the present invention provides a holographic projection device for illumination, comprising: a lamp panel and a 3D holographic drive motor; the lamp panel is connected with the 3D holographic driving motor; the 3D holographic driving motor is configured to drive the lamp panel to rotate so as to realize holographic projection; the surface of the lamp panel plate is provided with a holographic LED lamp bar and an LED lamp bead for illumination; when holographic projection is carried out, the LED lamp bar for holography and the 3D holographic driving motor work, and the LED lamp bead for illumination does not work; when lighting, the LED lamp beads for lighting work, and the LED lamp strips for holography and the 3D holographic driving motor do not work. The utility model discloses use lamp panel formula structure to replace current fan formula structure for holographic projection arrangement can be provided with holographic LED lamp strip and for the illumination LED lamp pearl simultaneously, when not carrying out holographic projection but carrying out conventional illumination, holographic LED lamp strip outage for, LED lamp pearl circular telegram for the illumination, sufficient, the even and resources are saved of light of luminance when making holographic projection arrangement carry out conventional illumination.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the related art, the drawings required for the description of the embodiments or the related art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a holographic projection apparatus that can be used for illumination according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an LED lamp control system provided in the embodiment of the present disclosure;

fig. 3 is a schematic structural view of an upper lampshade provided in an embodiment of the present invention;

fig. 4 is a schematic structural view of a lower lampshade provided in an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a 3D holographic drive motor according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a control structure of a holographic projection apparatus according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a housing according to an embodiment of the present invention;

fig. 8 is a more specific structural schematic diagram of a holographic projection apparatus that can be used for illumination according to an embodiment of the present invention.

Description of reference numerals:

1. a lamp panel plate; 2. a 3D holographic drive motor; 101. a holographic LED light bar; 102. LED lamp beads for illumination; 103. a holographic LED light bar control system; 104. an LED lamp bead control system for illumination; 105. a lower lampshade; 106. an upper lampshade; 301. a first wireless power supply coil; 302. a second wireless power supply coil; 201. a 3D holographic drive motor boss; 202. a 3D holographic drive motor recess; 203. a 3D holographic drive motor control system; 204. a motor housing; 401. a housing; 402. a light adjusting film; 403. a base plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings.

It should be noted that unless otherwise defined, technical or scientific terms used in the embodiments of the present invention should have the ordinary meaning as understood by those having ordinary skill in the art to which the present invention belongs. The use of "first," "second," and similar terms in the embodiments of the invention do not denote any order, quantity, or importance, but rather the embodiments are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

In various industrial fields, especially product exhibition and publicity, holographic projection technology has been approved and applied, which has led to the gradual development of 3D holographic projection technology. The 3D stereoscopic vision effect in the past can only be seen through a movie theater, meanwhile, special 3D eyes are required to be worn, the holographic projection technology is available, 3D glasses are not required to be worn, and the 3D stereoscopic vision effect can be experienced in any occasions. The 3D holographic projection is a method for recording and reproducing a real three-dimensional image of an object by utilizing interference and diffraction principles, and a viewer can experience a real 3D image visual effect without wearing 3D glasses.

The 3D holographic projection technology is realized based on the holographic fan, the holographic fan is similar to a fan in appearance design, but is not similar to an ordinary fan, the existing holographic fan is only provided with 2 fan blades, namely an LED lamp strip, the application of the holographic fan is that continuous and complete images are gradually formed through high-speed rotation, the three-dimensional effect is achieved, and the visual effect is very vivid. By the holographic fan, the illusion that an object rotates in the air can be manufactured; the microprocessor and the sensor locate the angle, speed and position of each light emitting diode (LED lamp bead) and then send a signal to each light emitting diode (LED lamp bead) to create a realistic three-dimensional image.

The existing holographic projection device based on the holographic fan adopts a fan type structure, holographic LED lamp beads are arranged on fan wings, based on a POV (persistence of vision) display technology, complete and continuous pictures are formed by continuously changing display crystals (holographic LED lamp beads) in rotation and utilizing the persistence of vision principle of human eyes, and therefore the 3D holographic imaging effect is achieved through display.

However, when the holographic projection is not performed, the holographic LED lamp beads on the fan wing of the holographic projection device are fewer, the light is not uniform, and the brightness is insufficient, so that the requirement of performing conventional illumination cannot be met; meanwhile, the holographic fan has extremely high requirements on the quality and the reaction capability of the lamp beads, so the specification cost of the holographic LED lamp beads is much higher than that of the LED lamp for illumination, and the holographic LED lamp beads are also wasted in resources when being used for illumination.

In order to solve the problem of insufficient brightness, uneven light and resource waste when the conventional holographic projection device carries out conventional illumination, the utility model provides a holographic projection device that can be used to the illumination.

Referring to fig. 1, which is a schematic structural diagram of a holographic projection apparatus that can be used for illumination according to an embodiment of the present invention, referring to (a) in fig. 1, the holographic projection apparatus that can be used for illumination includes:

a lamp panel 1 and a 3D holographic driving motor 2;

the lamp panel board 1 is connected with the 3D holographic driving motor 2; the 3D holographic driving motor 2 is configured to drive the lamp panel 1 to rotate to realize holographic projection;

referring to fig. 1 (b), a holographic LED light bar 101 and an illuminating LED light bead 102 are disposed on a panel surface of the lamp panel 1; when holographic projection is carried out, the holographic LED lamp strip 101 and the 3D holographic driving motor 2 work, and the lighting LED lamp bead 102 does not work; when lighting is performed, the lighting LED lamp bead 102 works, and the holographic LED lamp bar 101 and the 3D holographic driving motor 2 do not work.

The lamp panel board 1 comprises a first board surface and a second board surface which are oppositely arranged; the holographic LED lamp strip 101 and the lighting LED lamp beads 102 are arranged on the first board surface; the second plate surface is connected with the 3D holographic drive motor 2.

In some embodiments, the holographic LED light bar 101 extends from the center of rotation of the lamp panel 1 to the edge of the lamp panel 1.

In some embodiments, two holographic LED light bars 101 are provided; two LED lamp strips 101 for holography are arranged in a cross shape.

In some embodiments, the illumination LED beads 102 are arranged in an array.

As an example, as shown in fig. 1 (b), two hologram LED light bars 101 are arranged perpendicular to each other in a cross shape across the rotation center of the lamp panel 1, and in this case, the hologram LED light bar 101 divides the lamp panel 1 into 4 regions, and each region is provided with an LED bead 102 for illumination. The LED lamp beads 102 for illumination are arranged in an array mode, and uniform illumination effect can be guaranteed.

In the above embodiment, the two holographic LED light bars 101 are arranged in a cross shape, but the application is not limited thereto, for example, in one possible embodiment, only one holographic LED light bar 101 is provided. In one possible embodiment, the holographic LED light bar 101 is provided with three strips arranged at an angle of 60 degrees with respect to each other. When the number of the holographic LED light bars 101 is large, the speed range of the rotation becomes large, and thus a richer effect can be exhibited.

Referring to fig. 2, a schematic structural diagram of an LED lamp control system according to an embodiment of the present disclosure is shown.

In some embodiments, the second panel surface is further provided with a holographic LED light bar control system 103 and an illumination LED light bead control system 104.

The holographic LED light bar control system 103 is used for controlling the power on and off of the holographic LED light bar 101, and the lighting LED lamp bead control system 104 is used for controlling the power on and off of the lighting LED lamp bead 102. Optionally, the lamp panel 1 is a PCB board integrating the holographic LED light bar 101, the lighting LED light bead 102, the holographic LED light bar control system 103, and the lighting LED light bead control system 104. And the PCB can integrate circuit electric elements.

In some embodiments, a lampshade is disposed on each of the first plate surface and the second plate surface.

The lampshade plays a dustproof and waterproof role, and protects the holographic LED lamp strip 101, the lighting LED lamp bead 102, the holographic LED lamp strip control system 103 and the lighting LED lamp bead control system 104 from being damaged easily.

For convenience, the first surface of the lamp housing is defined as an upper lamp housing 105, and the second surface of the lamp housing is defined as a lower lamp housing 106.

Refer to fig. 3, which is a schematic structural diagram of an upper lampshade provided in an embodiment of the present invention.

In some embodiments, the position of the upper lamp cover 105 corresponding to the holographic LED light bar is transparent or hollowed out.

The lampshade at the position of the holographic LED lamp strip 101 is transparent or hollow so as to carry out holographic projection clearly; the lampshade at the position of the illumination LED lamp bead 102 may be transparent or opaque, and is not limited herein, for example, in one possible embodiment, the lampshade at the position of the illumination LED lamp bead 102 is yellow or green, which can achieve an eye protection effect.

Refer to fig. 4, which is a schematic structural diagram of a lower lampshade according to an embodiment of the present invention.

In some embodiments, a wireless power coil is further disposed on the lower lamp housing 106.

Optionally, the first wireless power supply coil 301 is disposed on the second plate surface of the lamp panel 1 through the lower lamp cover 106. When 3D holographic drive motor 2 is high-speed rotatory, can drive lamp panel board 1 high-speed rotatory, nevertheless need give lamp panel board 1 power supply simultaneously, the utility model discloses can adopt the power supply of wireless power supply coil. In this case, correspondingly, the 3D holographic driving motor 2 is provided with a second wireless power supply coil 302 on a side close to the lamp panel 1 to cooperate with the first wireless power supply coil 301 provided on the lamp panel 1.

Referring to fig. 5, it is a schematic structural diagram of a 3D holographic drive motor according to an embodiment of the present invention.

The convex part 201 of the 3D holographic drive motor is used for being connected with the lamp panel board 1 through the lower lamp shade 106, and the concave part 202 of the 3D holographic drive motor is used for bearing the second wireless power supply coil 302 so as to cooperate with the first wireless power supply coil 301 arranged on the lamp panel board 1.

Referring to fig. 6, it is a schematic structural diagram of a control structure of a holographic projection apparatus according to an embodiment of the present invention.

The 3D holographic drive motor side supplies power to the components and the control assembly on the lamp panel side through a coil (wireless power supply coil), and transmits control signals to the components and the control assembly on the lamp panel side through infrared signals so as to control the lamp strip and the lamp bead on the lamp panel.

The 3D holographic drive motor side comprises a power supply end, a remote control on-off unit, a motor control unit, a key detection unit and a key signal transmission unit.

The lamp panel side comprises a 3D holographic display control unit, an LED illuminating lamp control unit and an infrared remote control signal processing unit.

In the above embodiment, the components on the lamp panel 1 are powered by the wireless power supply coil, but the application is not limited to this, and for example, in one possible implementation, the components on the lamp panel 1 may be powered by an electrical rotary joint.

Referring to fig. 7, it is a schematic structural diagram of a housing according to an embodiment of the present invention.

In some embodiments, further comprises a housing 401; the cover 401 covers the lamp panel 1 and the 3D hologram driving motor 2.

The housing 401 can play the roles of reducing noise, preventing water and dust and protecting safety. When holographic projection is performed, the lamp panel 1 rotates at a high speed, friction between the lamp panel 1 and air generates large noise, and noise of the 3D holographic driving motor 2 is relatively large, and the housing 401 is arranged to effectively reduce the noise. Meanwhile, when the lamp panel board 1 rotates at a high speed, if foreign objects fall into the rotating surface of the lamp panel board 1, the lamp panel board 1 is easily damaged, if a human body is close to the rotating surface of the lamp panel board 1, the human body is easily injured, and the housing 401 can play a role in protection to a certain extent.

In some embodiments, the housing 401 is transparent to enable clear holographic projection of the light panel 1. As an alternative embodiment, the cover 401 is made of acrylic. The acrylic plate is specially treated organic glass and is a replacement product of the organic glass, and the housing 401 made of the acrylic plate has good light transmission performance, pure color, excellent rigidity and strength and excellent chemical resistance. In this case, the front plate can play a role of protection and will not interfere with the holographic projection of the lamp panel 1.

The above embodiment has been described by taking the case 401 as an example of a cylindrical shape, but the present application is not limited thereto, for example, in one possible embodiment, the case 401 has a polygonal columnar structure including a triangular column, a square column, a pentagonal column, or a hexagonal column.

In some embodiments, a light adjusting film 402 is further disposed on the housing 401; when holographic projection is carried out, the light adjusting film is in a transparent state; when the lighting is performed, the light adjusting film 402 is in an opaque state; the light adjusting film 402 is transparent when it is powered on and opaque when it is powered off.

Optionally, the dimming film 402 is an electrically controlled dimming film. The electric control dimming film is formed by clamping a layer of liquid crystal film between two pieces of glass, and when the liquid crystal film is electrified, the glass becomes transparent. By controlling the on-off of the power supply, the electric control dimming film can be freely switched between transparency and opacity. In this case, the light adjusting film 402 is in a transparent state when it is powered on and in an opaque state when it is powered off. When holographic projection is performed, the light adjusting film 402 is powered on; when lighting is performed, the dimming film 402 is powered off.

The above embodiment has been described by taking the light adjusting film 402 as an electrically controlled light adjusting film as an example, but the application is not limited to this, and for example, in one possible implementation, the light adjusting film 402 is an optically controlled light adjusting film. The light-operated dimming film is transparent at normal temperature, can be changed into opaque ground glass from transparent glass when the temperature is increased, and can be changed back into transparent glass when the temperature is reduced. In this case, the light adjusting film 402 is transparent at normal temperature and opaque at high temperature.

Referring to fig. 8, a more specific structural diagram of a holographic projection device that can be used for illumination according to an embodiment of the present invention is shown.

A lamp panel 1 and a 3D holographic driving motor 2; the lamp panel 1 is connected with the 3D holographic driving motor 2. The 3D holographic driving motor 2 is configured to drive the lamp panel 1 to rotate to realize holographic projection.

The surface of the lamp panel board 1 is provided with a holographic LED lamp strip 101 and an LED lamp bead 102 for illumination. When holographic projection is carried out, the holographic LED lamp strip 101 and the 3D holographic driving motor 2 work, and the lighting LED lamp bead 102 does not work; when lighting is performed, the lighting LED lamp bead 102 works, and the holographic LED lamp bar 101 and the 3D holographic driving motor 2 do not work.

The lamp panel board 1 comprises a first board surface and a second board surface which are oppositely arranged; the holographic LED lamp strip 101 and the lighting LED lamp beads 102 are arranged on the first board surface; the second plate surface is connected with the 3D holographic drive motor 2.

And the second board surface is also provided with a holographic LED lamp bar control system 103 and an LED lamp bead control system 104 for illumination. The holographic LED light bar control system 103 is used for controlling the power on and off of the holographic LED light bar 101, and the lighting LED lamp bead control system 104 is used for controlling the power on and off of the lighting LED lamp bead 102.

The first plate surface and the second plate surface are both provided with a lampshade. The first surface of the lampshade is an upper lampshade 105, and the second surface of the lampshade is a lower lampshade 106. The lower lamp shade 106 is further provided with a first wireless power supply coil 301, and one side of the 3D holographic drive motor 2 close to the lamp panel board 1 is provided with a second wireless power supply coil 302 to cooperate with the first wireless power supply coil 301 arranged on the lamp panel board 1.

The convex part 201 of the 3D holographic driving motor is used for connecting with the lamp panel 1 through the lower lamp shade 106, and the concave part 202 of the 3D holographic driving motor is used for carrying the second wireless power supply coil 302. The motor housing 204 is arranged on the outer side of the 3D holographic driving motor, and can play a role in dust prevention, water prevention and sound insulation. The 3D hologram drive motor 2 is connected to a 3D hologram drive motor control system 203. The motor housing 204 houses the 3D holographic drive motor control system 203 as well.

The cover 401 cooperates with a back plate 403 to cover the lamp panel 1 and the 3D holographic driving motor 2 inside; the 3D holographic driving motor 2 is connected to the back plate 403. A light adjusting film 402 is further arranged on the cover shell 401; when holographic projection is performed, the light adjusting film 402 is in a transparent state; when illuminated, the light adjusting film 402 is opaque.

From the above, it can be seen that the present invention provides a holographic projection device for illumination, comprising: a lamp panel and a 3D holographic drive motor; the lamp panel is connected with the 3D holographic driving motor; the 3D holographic driving motor is configured to drive the lamp panel to rotate so as to realize holographic projection; the surface of the lamp panel plate is provided with a holographic LED lamp bar and an LED lamp bead for illumination; when holographic projection is carried out, the LED lamp bar for holography and the 3D holographic driving motor work, and the LED lamp bead for illumination does not work; when lighting, the LED lamp beads for lighting work, and the LED lamp strips for holography and the 3D holographic driving motor do not work. The utility model discloses use lamp panel formula structure to replace current fan formula structure for holographic projection arrangement can be provided with holographic LED lamp strip and for the illumination LED lamp pearl simultaneously, when not carrying out holographic projection but carrying out conventional illumination, holographic LED lamp strip outage for, LED lamp pearl circular telegram for the illumination, sufficient, the even and resources are saved of light of luminance when making holographic projection arrangement carry out conventional illumination.

It should be noted that the above describes some embodiments of the invention. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims may be performed in a different order than in the embodiments described above and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing may also be possible or may be advantageous.

For convenience of description, the above devices are described as being divided into various modules by functions, and are described separately. Of course, the functions of the modules may be implemented in the same or multiple software and/or hardware implementations of the present invention.

It should be noted that the embodiments of the present invention can be further described in the following ways:

a holographic projection device usable for illumination, comprising: a lamp panel and a 3D holographic drive motor;

the lamp panel is connected with the 3D holographic driving motor; the 3D holographic driving motor is configured to drive the lamp panel to rotate to realize holographic projection;

the surface of the lamp panel plate is provided with a holographic LED lamp bar and an LED lamp bead for illumination; when holographic projection is carried out, the LED lamp bar for holography and the 3D holographic driving motor work, and the LED lamp bead for illumination does not work; when lighting, the LED lamp beads for lighting work, the LED lamp strips for holography and the 3D holographic driving motor do not work.

Optionally, the lamp panel plate includes a first plate surface and a second plate surface which are oppositely arranged; the holographic LED lamp strip and the lighting LED lamp bead are arranged on the first board surface; the second plate surface is connected with the 3D holographic drive motor.

Optionally, the holographic LED light bar extends to the edge of the lamp panel through the rotation center of the lamp panel.

Optionally, two holographic LED light bars are provided; two LED lamp strips for holography are arranged in a cross shape.

Optionally, the lighting LED lamp beads are arranged in an array.

Optionally, the first plate surface and the second plate surface are both provided with a lampshade.

Optionally, the position of the lamp cover of the first panel corresponding to the holographic LED lamp strip is transparent or hollowed.

Optionally, a wireless power supply coil is further arranged on the lampshade of the second plate surface; the wireless power supply coil is configured to supply power to the LED lamp strip for holography and the LED lamp bead for illumination.

Optionally, the device further comprises a housing; the housing covers the lamp panel and the 3D holographic driving motor.

Optionally, a light adjusting film is further disposed on the housing; when holographic projection is carried out, the light adjusting film is in a transparent state; when the lighting is carried out, the light adjusting film is in an opaque state; the light adjusting film is in a transparent state when being electrified and in an opaque state when being powered off.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to suggest that the scope of the invention (including the claims) is limited to these examples; within the inventive idea, also technical features in the above embodiments or in different embodiments can be combined, steps can be implemented in any order, and there are many other variations of the different aspects of the embodiments of the invention as described above, which are not provided in detail for the sake of brevity.

In addition, well-known power/ground connections to Integrated Circuit (IC) chips and other components may or may not be shown in the provided figures for simplicity of illustration and discussion, and so as not to obscure the embodiments of the invention. Furthermore, devices may be shown in block diagram form in order to avoid obscuring embodiments of the present invention, and this also takes into account the fact that specifics with respect to implementation of such block diagram devices are highly dependent upon the platform within which embodiments of the present invention are to be implemented (i.e., specifics should be well within purview of one skilled in the art). Where specific details (e.g., circuits) are set forth in order to describe example embodiments of the invention, it should be apparent to one skilled in the art that embodiments of the invention can be practiced without, or with variation of, these specific details. Accordingly, the description is to be regarded as illustrative instead of restrictive.

While the present invention has been described in conjunction with specific embodiments thereof, many alternatives, modifications, and variations of these embodiments will be apparent to those skilled in the art in light of the foregoing description. For example, other memory architectures (e.g., dynamic ram (dram)) may use the discussed embodiments.

The present embodiments are intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omission, modification, equivalent replacement, or improvement made within the spirit and principle of the embodiments of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A holographic projection device usable for illumination, comprising: a lamp panel and a 3D holographic drive motor;

the lamp panel is connected with the 3D holographic driving motor; the 3D holographic driving motor is configured to drive the lamp panel to rotate to realize holographic projection;

the surface of the lamp panel plate is provided with a holographic LED lamp bar and an LED lamp bead for illumination; when holographic projection is carried out, the LED lamp bar for holography and the 3D holographic driving motor work, and the LED lamp bead for illumination does not work; when lighting, the LED lamp beads for lighting work, the LED lamp strips for holography and the 3D holographic driving motor do not work.

2. The apparatus of claim 1, wherein the light panel comprises first and second oppositely disposed panels; the holographic LED lamp strip and the lighting LED lamp bead are arranged on the first board surface; the second plate surface is connected with the 3D holographic drive motor.

3. The apparatus of claim 1, wherein the holographic LED light bar extends across the center of rotation of the light panel towards the edge of the light panel.

4. The device of claim 3, wherein two of said holographic LED light bars are provided; two LED lamp strips for holography are arranged in a cross shape.

5. The device of claim 1, wherein the illuminating LED beads are arranged in an array.

6. The device of claim 2, wherein a lamp cover is disposed on each of the first and second panels.

7. The device of claim 6, wherein the position of the lamp cover of the first board surface corresponding to the holographic LED lamp bar is transparent or hollowed.

8. The device of claim 2, wherein a wireless power supply coil is further arranged on the lampshade of the second plate surface; the wireless power supply coil is configured to supply power to the LED lamp strip for holography and the LED lamp bead for illumination.

9. The device of claim 1, further comprising a housing; the housing covers the lamp panel and the 3D holographic driving motor.

10. The device of claim 9, wherein a light adjusting film is further disposed on the housing; when holographic projection is carried out, the light adjusting film is in a transparent state; when the lighting is carried out, the light adjusting film is in an opaque state; the light adjusting film is in a transparent state when being electrified and in an opaque state when being powered off.

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