CN110822338A - Ceiling lamp simulating sunlight illumination and implementation method thereof - Google Patents

Abstract

The invention discloses a ceiling lamp simulating sunlight illumination, which comprises an outer shell, wherein a panel is connected below the outer shell, a light transmitting plate is connected on the panel, a light reflecting plate and an atomizing plate are respectively arranged inside the outer shell, the light reflecting plate is positioned above the atomizing plate, two projection devices are also arranged inside the outer shell, and the two projection devices are respectively positioned at two sides inside the outer shell; the invention also discloses a realization method of the ceiling lamp for simulating sunlight illumination. The invention is provided with two projection devices which respectively generate a daytime blue sky effect and a night starry sky effect correspondingly; the light-transmitting plate is made of transparent materials, the inside of the light-transmitting plate is filled with a medium, the diameter of the medium is less than 400 microns, and light rays of the medium can be polarized after passing through the medium, so that the emitted light rays reach a uniform and soft state, and an anti-dazzle effect is achieved; the reflector provided by the invention is made of high-diffuse reflection materials, so that the blue sky white cloud effect generated by the projection device can be effectively presented.

Description

Ceiling lamp simulating sunlight illumination and implementation method thereof

Technical Field

The invention belongs to the technical field of ceiling lamps, and particularly relates to a ceiling lamp simulating sunlight illumination and an implementation method thereof.

Background

The ceiling lamp is one of lamps, and the ceiling lamp is called as the ceiling lamp as the name suggests because the lamp top is relatively flat, and the bottom pastes on the roof completely during installation. Ceiling lamps generally include a mounting plate fixed to a roof, a lamp body mounted on the mounting plate, and a lamp shade fixed to the mounting plate. The lamp body can adopt a common white bulb, a fluorescent lamp, a high-intensity gas discharge lamp, a halogen tungsten lamp, an LED and the like.

The existing ceiling lamp has the problems of too common and single form and no decorative effect in the use process.

Disclosure of Invention

The invention aims to provide a ceiling lamp simulating sunlight illumination, and aims to solve the problems in the background technology. The ceiling lamp capable of simulating sunlight illumination provided by the invention has the characteristic of simulating a blue sky and white cloud effect.

The invention also aims to provide a realization method of the ceiling lamp for simulating sunlight illumination.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a ceiling lamp of simulation sunlight illumination, includes the shell body, and the below of shell body is connected with the panel, is connected with the light-passing board on the panel, and the inside of shell body is equipped with reflector panel and atomization board respectively, and the reflector panel is located the top of atomization board, and the inside of shell body still is equipped with two projection arrangement, and two projection arrangement are located the inside both sides of shell body respectively.

Further, the projection device comprises a projection light source, a diaphragm and a lens, wherein the projection light source, the diaphragm and the lens are sequentially arranged from top to bottom.

Furthermore, the shell is internally provided with a spot light, the spot light is fixed above the panel through a spot light mounting frame, and the spot light is arranged on one side adjacent to the projection device.

Furthermore, two ends of the reflecting plate and two ends of the atomizing plate are respectively fixed above the panel through fixing frames, and the projection device is positioned between two adjacent fixing frames.

Further, the light absorbers are connected to the inner walls of the outer shell and the panel.

In the invention, the reflecting plate and the atomizing plate are both arc-shaped structures, and the ratio of the arc height of the arc to the straight line length of the arc is 3: 4.

In the present invention, the reflector is a white plastic member with an uneven structure, a white woven wire member or a metal member.

Further, the light-transmitting plate is a transparent member, and the inside of the light-transmitting plate is filled with a medium with the diameter smaller than 400 um.

Further, the implementation method of the ceiling lamp simulating sunlight illumination comprises the following steps:

the panel is connected with the outer shell through a buckle, and light absorbing bodies are attached to the inner wall of the outer shell, the inner side surface of the panel and the surface of the fixing frame;

secondly, the reflector is a white plastic component with a rugged structure, or a white woven wire cloth component, the surface of the reflector is sprayed with nano materials, or a metal component, and the surface of the reflector is subjected to powder spraying, paint baking, wire drawing or oxidation treatment;

the two projection devices are arranged and respectively positioned between the reflector and the fixing frame of the atomization plate, one projection device corresponds to the daytime blue-sky effect, and the other projection device corresponds to the night starry sky effect;

fourthly, the panel is a plastic component, the surface of the panel is subjected to baking finish or electroplating treatment, or the surface of the panel is subjected to powder spraying, baking finish, electroplating, anode or wire drawing treatment;

and (V) the light-transmitting plate is a transparent member, and the inside of the light-transmitting plate is filled with a medium with the diameter smaller than 400 um.

Further, the method for realizing the ceiling lamp simulating sunlight illumination comprises the steps that the projection device comprises a projection light source, a diaphragm and a lens, wherein the projection light source, the diaphragm and the lens are sequentially arranged from top to bottom, the spot lamp is further arranged inside the outer shell and is fixed above the panel through a spot lamp mounting frame and is arranged on one side adjacent to the projection device, two ends of the reflector and the atomization plate are respectively fixed above the panel through fixing frames, the projection device is located between the two adjacent fixing frames, light absorbers are connected to the inner walls of the outer shell and the panel, the reflector and the atomization plate are both of circular arc structures, and the ratio of the arc height to the arc linear length is 3: 4.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention is provided with two projection devices which respectively generate a daytime blue sky effect and a night starry sky effect correspondingly;

2. the light-transmitting plate is made of transparent materials, the inside of the light-transmitting plate is filled with a medium, the diameter of the medium is less than 400 microns, and light rays of the medium can be polarized after passing through the medium, so that the emitted light rays reach a uniform and soft state, and an anti-dazzle effect is achieved;

3. the reflector provided by the invention adopts a high-diffuse reflection material, so that a blue sky and white cloud effect generated by the projection device can be effectively presented;

4. the invention has simple assembly process and 10 to 30 percent of production cost saving.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of a projection apparatus according to the present invention;

in the figure: 1. an outer housing; 2. a light absorber; 3. a fixed mount; 4. a projection device; 41. a projection light source; 42. a diaphragm; 43. a lens; 5. a reflector; 6. an atomization plate; 7. a light-transmitting plate; 8. a panel; 9. a spotlight mounting frame; 10. a spot light.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-3, the present invention provides the following technical solutions: the utility model provides a ceiling lamp of simulation sunlight illumination, includes shell body 1, and the below of shell body 1 is connected with panel 8, is connected with light-passing board 7 on the panel 8, and the inside of shell body 1 is equipped with reflector panel 5 and atomization plate 6 respectively, and reflector panel 5 is located the top of atomization plate 6, and the inside of shell body 1 still is equipped with two projection arrangement 4, and two projection arrangement 4 are located the inside both sides of shell body 1 respectively.

Further, the projection device 4 includes a projection light source 41, a diaphragm 42 and a lens 43, wherein the projection light source 41, the diaphragm 42 and the lens 43 are sequentially arranged from top to bottom.

By adopting the above technical scheme, the light emitted by the projection light source 41 passes through the diaphragm 42, and the diaphragm 42 is driven by one or more sets of motors, so that the emitted light is imaged on the reflector 5.

Further, the inside of shell body 1 still is equipped with shot-light 10, and shot-light 10 passes through shot-light mounting bracket 9 to be fixed in the top of panel 8, and shot-light 10 sets up the one side adjacent with projection arrangement 4.

By adopting the technical scheme, after the light emitted by the spotlight 10 penetrates through the light-transmitting plate 7, part of the light is irradiated on the side edge of the panel 8 to form a shadow, and part of the light is directly irradiated out to form the direct solar radiation feeling.

Furthermore, two ends of the reflector 5 and the atomization plate 6 are respectively fixed above the panel 8 through the fixing frames 3, and the projection device 4 is located between two adjacent fixing frames 3.

Further, a light absorber 2 is connected to the inner walls of the outer case 1 and the panel 8.

By adopting the technical scheme, the light absorber 2 is a single-side gum sponge material with the thickness of 1.5 mm.

Further, the reflecting plate 5 and the atomizing plate 6 are both arc-shaped structures, and the ratio of the arc height of the arc to the straight line length of the arc is 3: 4.

By adopting the technical scheme, the atomization plate 6 is a PC material with the surface processed by nano silicon carbonate, and the light transmittance of the material is more than 90%.

Further, the light reflecting plate 5 is a white plastic member having an uneven structure, a white woven wire member, or a metal member.

By adopting the above technical scheme, this embodiment chooses white plastic component that has the unevenness structure for use, and its reflectivity is more than 95%.

Further, the light-transmitting plate 7 is a transparent member, and the inside of the light-transmitting plate is filled with a silicon dioxide medium with the diameter smaller than 400 um.

By adopting the technical scheme, the light-transmitting plate 7 is made of the high-molecular PC material, molecules in the plate are oriented, and then the dichromatic substance is adsorbed, so that the light can generate the polarization effect when passing through the light-transmitting plate, and the emitted light can reach a soft state and is anti-dazzle.

Further, the implementation method of the ceiling lamp for simulating sunlight illumination comprises the following steps:

the panel 8 is connected with the outer shell 1 through a buckle, and the inner wall of the outer shell 1, the inner side surface of the panel 8 and the surface of the fixing frame 3 are adhered with the light absorber 2;

the reflecting plate 5 is a white plastic component with a rugged structure;

two projection devices 4 are arranged and respectively positioned between the reflector 5 and the fixing frame 3 of the atomization plate 6, one projection device 4 corresponds to a day blue-sky effect, and the other projection device 4 corresponds to a night starry sky effect;

fourthly, the panel 8 is a plastic component, and the surface of the panel is subjected to baking finish treatment;

and (V) the light-transmitting plate 7 is a transparent member, and the inside of the light-transmitting plate is filled with a medium with the diameter smaller than 400 um.

The model of the projection device 4 is JZ-30-1, and is sold by manufacturers of Gaoji opto-electronic technology, Inc. in Jiangmen; the model of the spotlight is TSL-50W-1, and is sold by TOSPO manufacturers.

Example 2

The present embodiment is different from embodiment 1 in that: further, the implementation method of the ceiling lamp for simulating sunlight illumination comprises the following steps:

the panel 8 is connected with the outer shell 1 through a buckle, and the inner wall of the outer shell 1, the inner side surface of the panel 8 and the surface of the fixing frame 3 are adhered with the light absorber 2;

secondly, the reflector 5 is a white woven wire cloth component, the woven wires are tight, and the surface of the reflector is sprayed with nano silicon dioxide materials;

two projection devices 4 are arranged and respectively positioned between the reflector 5 and the fixing frame 3 of the atomization plate 6, one projection device 4 corresponds to a day blue-sky effect, and the other projection device 4 corresponds to a night starry sky effect;

fourthly, the panel 8 is a metal component, and the surface of the panel is subjected to powder spraying treatment;

and (V) the light-transmitting plate 7 is a transparent member, and the inside of the light-transmitting plate is filled with a medium with the diameter smaller than 400 um.

In conclusion, by adopting the structure and the method, the optical light transmittance can be greatly improved, the dizziness effect is prevented, the common ceiling lamp is beautified and the cost is reduced, the light transmission plate adopts the design of the internal filling medium, so that the light is uniform and soft, the anti-dazzle requirement is met, the real blue sky and white cloud effect is felt, the assembly process is simple, and the production cost is saved by 10-30%.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a ceiling lamp of simulation sunlight illumination, includes shell body (1), its characterized in that: the lower part of shell body (1) is connected with panel (8), is connected with light-passing board (7) on panel (8), and the inside of shell body (1) is equipped with reflector panel (5) and atomization board (6) respectively, and reflector panel (5) are located the top of atomization board (6), and the inside of shell body (1) still is equipped with two projection arrangement (4), and two projection arrangement (4) are located the inside both sides of shell body (1) respectively.

2. The daylight illumination simulating ceiling lamp according to claim 1, characterized in that: the projection device (4) comprises a projection light source (41), a diaphragm (42) and a lens (43), wherein the projection light source (41), the diaphragm (42) and the lens (43) are sequentially arranged from top to bottom.

3. The daylight illumination simulating ceiling lamp according to claim 2, characterized in that: the novel projection lamp is characterized in that a spotlight (10) is further arranged inside the outer shell (1), the spotlight (10) is fixed above the panel (8) through a spotlight mounting frame (9), and the spotlight (10) is arranged on one side adjacent to the projection device (4).

4. The daylight illumination simulating ceiling lamp according to claim 3, characterized in that: the two ends of the reflector (5) and the two ends of the atomization plate (6) are respectively fixed above the panel (8) through the fixing frames (3), and the projection device (4) is located between the two adjacent fixing frames (3).

5. The daylight illumination simulating ceiling lamp according to claim 4, characterized in that: and the inner walls of the outer shell (1) and the panel (8) are connected with a light absorber (2).

6. The daylight illumination simulating ceiling lamp according to claim 5, characterized in that: the reflector (5) and the atomization plate (6) are both arc-shaped structures, and the ratio of the arc height of the arc to the straight line length of the arc is 3: 4.

7. The daylight illumination simulating ceiling lamp according to claim 6, characterized in that: the reflector (5) is a white plastic component with an uneven structure, a white woven wire cloth component or a metal component.

8. The daylight illumination simulating ceiling lamp according to claim 7, characterized in that: the light-transmitting plate (7) is a transparent member, and the inside of the light-transmitting plate is filled with a medium with the diameter smaller than 400 um.

9. The implementation method of the daylight illumination simulating ceiling lamp according to any one of claims 1-8, characterized by comprising the following steps:

the panel (8) is connected with the outer shell (1) through a buckle, and the inner wall of the outer shell (1), the inner side surface of the panel (8) and the surface of the fixing frame (3) are adhered with the light absorber (2);

the reflecting plate (5) is a white plastic component with a rugged structure, or a white woven wire cloth component, the surface of which is sprayed with nano materials, or a metal component, and the surface of which is subjected to powder spraying, paint baking, wire drawing or oxidation treatment;

two projection devices (4) are arranged and are respectively positioned between the reflector (5) and the fixing frame (3) of the atomization plate (6), one projection device (4) corresponds to the daytime blue-sky effect, and the other projection device (4) corresponds to the night starry-sky effect;

(IV) the panel (8) is a plastic component, the surface of which is subjected to baking finish or electroplating treatment, or a metal component, the surface of which is subjected to powder spraying, baking finish, electroplating, anode or wire drawing treatment;

and the transparent plate (7) is a transparent member, and the inside of the transparent member is filled with a medium with the diameter smaller than 400 um.

10. The implementation method of the daylight illumination simulating ceiling lamp according to claim 9, characterized in that: projection arrangement (4) includes projection light source (41), diaphragm (42) and lens (43), wherein, projection light source (41), diaphragm (42) and lens (43) set gradually from last to bottom, the inside of shell body (1) still is equipped with shot-light (10), shot-light (10) are fixed in the top of panel (8) through shot-light mounting bracket (9), and shot-light (10) set up in the one side adjacent with projection arrangement (4), the both ends of reflector panel (5) and atomizing plate (6) are fixed in the top of panel (8) through mount (3) respectively, projection arrangement (4) are located between two adjacent mounts (3), be connected with light-absorbing body (2) on the inner wall of shell body (1) and panel (8), reflector panel (5) and atomizing plate (6) are the circular arc structure, and the ratio of circular arc height and circular arc straight line length is 3: 4.

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