CN211694549U - Atmosphere rendering illuminating lamp - Google Patents

Abstract

The utility model discloses a light is played up to atmosphere, play up the subassembly including lamp body, glass panels, base and laser, the upper and lower both ends of lamp body are located respectively to glass panels and base, and in the lamp body was located to the subassembly is played up to laser, the subassembly was played up to laser included laser light source and optics lens group, and laser light source corresponds the setting with optics lens group, and optics lens group is located glass panels's below. Through being equipped with the laser and playing up the subassembly, the light that laser source sent reaches the illumination and plays up the effect behind optical lens group to alleviateed the weight in the lamp body greatly, do benefit to the volume that reduces the lamp body, reduced the overall cost, thereby do benefit to the installation of lamp body, can extensively apply to the environment of indoor outer many occasions and carry out the atmosphere and play up.

Description

Atmosphere rendering illuminating lamp

Technical Field

The utility model belongs to a lighting apparatus especially relates to an illumination lamp is played up to atmosphere.

Background

The existing atmosphere lighting lamp needs a special mounting platform due to the large size and weight of the lamp, and is inconvenient to mount; the unit price of the whole lamp body is higher, and the use cost is higher; meanwhile, the existing atmosphere illuminating lamps in outdoor places such as stages or parks are not waterproof, and special waterproof sheds are required to be added for placing lamps when the outdoor atmosphere illuminating lamps are used outdoors, so that the installation is inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a light is rendered to atmosphere that can solve at least one in the above-mentioned problem.

According to the utility model discloses an aspect provides an illumination lamp is rendered to atmosphere, play up the subassembly including lamp body, glass panels, base and laser, the upper and lower both ends of lamp body are located respectively to glass panels and base, and in the lamp body was located to the subassembly was played up to laser, the subassembly was played up to laser included laser source and optics lens group, and laser source corresponds the setting with optics lens group, and optics lens group is located glass panels's below.

The utility model has the advantages that: through being equipped with the laser and playing up the subassembly, the light that laser source sent reaches the illumination after optical lens group and plays up the effect to alleviateed the weight in the lamp body greatly, do benefit to the volume that reduces the lamp body, thereby do benefit to the installation of lamp body, can extensively apply to indoor outer many occasions and carry out the atmosphere and play up.

In some embodiments, the laser rendering assembly further includes a motor and a bracket, the optical lens group includes a reflective cup, a plane mirror, a convex lens and a polygonal mirror, the bracket is fixed in the lamp body, the laser light source, the reflective cup, the plane mirror, the convex lens and the motor are all disposed on the bracket, the polygonal mirror is connected with an output shaft of the motor, the reflective cup is disposed corresponding to the laser light source, the plane mirror is disposed in an inclined manner, light emitted by the laser light source sequentially passes through the reflective cup, the plane mirror, the convex lens and the polygonal mirror, and the polygonal mirror corresponds to the glass panel. Therefore, the light emitted by the laser light source can be correspondingly changed by arranging various optical lenses, and is finally emitted by the glass panel after passing through the polygon mirror, so that the effect of rendering the environment is achieved; meanwhile, the motor drives the polygonal mirror to rotate, so that the environment and people can interact.

In some embodiments, the light reflected by the plane mirror is horizontally incident into the convex lens, and the reflecting cup and the laser light source are disposed in a vertical direction. Therefore, the change of the light direction is realized through the reflection action of the plane reflector, the installation of the reflecting cup and the convex lens can be facilitated, the installation space is saved, and the purpose of reducing the volume of the lamp body is achieved.

In some embodiments, the output shaft of the motor is eccentrically disposed and the motor is obliquely disposed. Therefore, the polygonal mirror can be driven by the output shaft of the motor to realize eccentric rotation, the rendering of the surrounding environment is realized, and the interaction effect of the environment and people is achieved; meanwhile, the motor is obliquely arranged, so that the light rays reflected by the polygon mirror can be emitted out through the glass panel when the polygon mirror rotates, and the use requirement is met.

In some embodiments, a side of the base is provided with a fixing bracket. From this, through being equipped with the fixed bolster, can conveniently need not special mounting platform with the position of fixed bolster direct mount at required installation, simplify the installation to do benefit to and reduce overall cost.

In some embodiments, the laser rendering assembly further comprises a controller, the controller is disposed on the support, and the motor is electrically connected to the controller. Therefore, the controller is arranged, the rotation of the motor can be conveniently controlled, and different use requirements are met.

In some embodiments, the atmosphere rendering lamp further comprises a power source, the laser light source being electrically connected to the power source, the power source being disposed on the support. Therefore, the power supply is arranged, so that the laser light source is convenient to supply power and use.

In some embodiments, the atmosphere rendering illuminating lamp further comprises a first sealing ring and a surface cover, the surface cover is sleeved on the outer side of the glass panel, the first sealing ring is fixed on the lamp body, and the first sealing ring is located between the surface cover and the lamp body. From this, be equipped with first sealing washer, can play water-proof effects, improve holistic life.

In some embodiments, the atmosphere rendering lamp further comprises a second sealing ring fixed at the bottom end of the lamp body, the second sealing ring being located between the lamp body and the base. From this, be equipped with the second sealing washer, can play water-proof effects, improve holistic life.

Drawings

Fig. 1 is the utility model discloses an explosion structure schematic diagram of light is rendered to atmosphere.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Refer to fig. 1. Light is rendered to atmosphere, including lamp body 1, glass panels 2, base 3 and laser render subassembly 4, the upper and lower both ends of lamp body 1 are located respectively to glass panels 2 and base 3, and laser render subassembly 4 and locate in the lamp body 1, and laser render subassembly 4 includes laser light source 41 and optics lens group 42, and laser light source 41 corresponds the setting with optics lens group 42, and optics lens group 42 is located glass panels 2's below. The light emitted by the laser light source 41 in the laser rendering component 4 is emitted out through the glass panel 2 after passing through the optical lens group 42, so that the lighting and rendering effects are realized, and the laser rendering component can be widely applied to atmosphere rendering in environments of indoor and outdoor occasions, such as stages, parks, wetlands, trees or buildings.

Therefore, the atmosphere rendering illuminating lamp processes the light emitted by the laser light source 41 through the optical lens group 42, the overall weight is reduced, and the installation difficulty of the lamp body is reduced.

In the actual use process, the atmosphere rendering illuminating lamp further comprises a first sealing ring 7 and a face cover 8, the face cover 8 is sleeved on the outer side of the glass panel 2, the first sealing ring 7 is fixed on the lamp body 1, and the first sealing ring 7 is located between the face cover 8 and the lamp body 1. The surface cover 8 may be a hollow square frame, the shape of the surface cover is the same as the top end of the lamp body 1, a clamping groove is formed in the hollow part of the surface cover 8, and the edge of the glass panel 2 is clamped in the clamping groove for fixing. The first sealing ring 7 and the surface cover 8 are locked and fixed on the lamp body 1 through screws. The first sealing ring 7 can prevent external water from entering the lamp body 1 through the surface cover 8, and a waterproof effect is achieved.

The laser rendering assembly 4 further includes a motor 43 and a support 44, the optical lens group 42 includes a reflection cup 421, a plane reflection mirror 422, a convex lens 423 and a polygonal mirror 424, the support 44 is fixed in the lamp body 1, the laser light source 41, the reflection cup 421, the plane reflection mirror 422, the convex lens 423 and the motor 43 are all disposed on the support, the polygonal mirror 424 is connected with an output shaft of the motor 43, the reflection cup 421 is disposed corresponding to the laser light source 41, the plane reflection mirror 422 is disposed in an inclined manner, light emitted by the laser light source 41 sequentially passes through the reflection cup 421, the plane reflection mirror 422, the convex lens 423 and the polygonal mirror 424, and the polygonal mirror 424 corresponds to the glass panel 2. Wherein, the bracket 44 is fixed on the inner wall of the lamp body 1 along the vertical direction, that is, installed along the up-down direction of the lamp body 1; the reflective cup 421 is tapered, and the inner diameter of the top of the reflective cup 421 is larger than that of the bottom thereof, so that light emitted from the laser source 41 can be reflected in the reflective cup 421, the light irradiation range of the laser can be expanded, and then the direction of the light is changed by the plane mirror 422, and then the light acts on the convex lens 423. The convex lens 423 converges the light transmitted from the plane mirror 422 to some extent and acts on the polygon mirror 424. By providing the convex lens 423, the convergence of light can be achieved.

In the actual use process, the polygon mirror 424 is hemispherical, and the polygon mirror 424 is located on the inner wall of the hemisphere, so that the polygon mirror 424 can reflect light rays in a multi-angle range, and the light rays are emitted out through the glass panel 2, and the scene rendering effect is achieved.

The laser light source 41 is located at the bottom of the reflector cup 421. Thus, the reflector cup 421 can directly reflect the light emitted from the laser light source 41.

The light reflected by the plane mirror 422 is horizontally incident on the convex lens 423, and the reflective cup 421 and the laser light source 41 are arranged in a vertical direction. In order to horizontally emit the light rays which are vertically incident on the plane mirror 422, the plane mirror 422 is installed to be inclined by 45 degrees, i.e. to form an angle of 45 degrees with the axial direction of the reflecting cup 421. Therefore, the angle of the light is changed by the plane reflector 422, so that the space occupied by the installation of the optical lens group 42 can be reduced, the whole volume of the lamp body 1 is reduced, the installation is convenient, and the whole production and material cost is reduced.

The output shaft of the motor 43 is eccentrically disposed, and the motor 43 is disposed obliquely, so that the opening of the polygon mirror 424 always faces the glass panel 2 when rotating, and the light reflected by the polygon mirror 424 is emitted through the glass panel 2. The output shaft of the motor 43 eccentrically rotates, so that the output shaft of the motor 43 can drive the polygon mirror 424 to eccentrically rotate, and the atmosphere rendering illuminating lamp can generate various and multiple scene illumination rendering effects.

One side of base 3 is equipped with fixed bolster 5, and fixed bolster 5 is the U type, and the open end of fixed bolster 5 is connected with base 3. In actual installation, fixed bolster 5 is installed on base 3 through the pivot, can make things convenient for the installation angle of fixed bolster 5 to adjust, adjusts to corresponding angle after, locks fixed bolster 5 and lamp body 1 with the screw again and fixes to make things convenient for the control of 1 installation direction of lamp body, satisfy different operation requirement, need not specific mounting platform, simple to operate. In order to fix the fixing bracket 5 at the corresponding external position conveniently, a plurality of mounting through holes are formed in the fixing bracket 5.

The laser rendering assembly 4 further comprises a controller 45, the controller 45 is disposed on the support 5, and the motor 43 is electrically connected to the controller 45. The motor 43 is a stepping motor, and the controller 45 is a single chip microcomputer, and is capable of controlling the motor 43 to be turned on and off and controlling the rotation state of the motor 43. The motor 43 is a stepping motor, the controller 45 can control the on and off of the motor 43, and the rotation direction and the rotation angle of the output shaft of the motor are controlled at the same time, so that the rendering requirements of different scenes are met.

The atmosphere rendering illuminating lamp further comprises a power supply 6, the laser light source 41 is electrically connected with the power supply 6 through a conducting wire, and the power supply 6 is arranged on the support 5. The housing of the power supply 6 is fixed in the lamp body 1 by screws. The power supply 6 is connected with an external power supply through a lead, so that power can be conveniently supplied to the laser light source 41.

The atmosphere rendering illuminating lamp further comprises a first sealing ring 7 and a face cover 8, the face cover 8 is sleeved on the outer side of the glass panel 2, the first sealing ring 7 is fixed on the lamp body 1, and the first sealing ring 7 is located between the face cover 8 and the lamp body 1.

The atmosphere rendering illuminating lamp further comprises a second sealing ring 9, the second sealing ring 9 is fixed at the bottom end of the lamp body 1 through screws, and the second sealing ring 9 is located between the lamp body 1 and the base 3. Through being equipped with second sealing washer 9, can prevent effectively that external water from getting into through the clearance between base 3 and the lamp body 1, playing water-proof effects.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, many modifications and improvements can be made without departing from the inventive concept, and all of them belong to the protection scope of the present invention.

Claims (9)

1. Light is played up to atmosphere, its characterized in that, play up subassembly (4) including lamp body (1), glass panels (2), base (3) and laser, the upper and lower both ends of lamp body (1) are located respectively in glass panels (2) and base (3), the laser is played up subassembly (4) and is located in lamp body (1), laser is played up subassembly (4) and is included laser light source (41) and optical lens group (42), laser light source (41) correspond the setting with optical lens group (42), optical lens group (42) are located the below of glass panels (2).

2. The atmosphere rendering illuminating lamp according to claim 1, wherein the laser rendering assembly (4) further comprises a motor (43) and a bracket (44), the optical lens group (42) comprises a reflecting cup (421), a plane reflecting mirror (422), a convex lens (423) and a polygonal mirror (424), the bracket (44) is fixed in the lamp body (1), the laser light source (41), the reflecting cup (421), the plane reflecting mirror (422), the convex lens (423) and the motor (43) are all arranged on the bracket, the polygonal mirror (424) is connected with an output shaft of the motor (43), the reflecting cup (421) and the laser light source (41) are arranged correspondingly, the plane reflecting mirror (422) is arranged in an inclined manner, light emitted by the laser light source (41) sequentially passes through the reflecting cup (421), the plane reflecting mirror (422), the convex lens (423) and the polygonal mirror (424), the polygon mirror (424) corresponds to the glass panel (2).

3. The ambience rendering illumination lamp according to claim 2, wherein the light reflected via the plane mirror (422) is horizontally incident into a convex lens (423), the reflection cup (421) and the laser light source (41) being arranged in a vertical direction.

4. Ambience rendering luminaire as claimed in claim 3, characterized in that the output shaft of the motor (43) is eccentrically arranged, the motor (43) being obliquely arranged.

5. Atmosphere rendering luminaire according to any of claims 1-4, characterized in that one side of the base (3) is provided with a fixing bracket (5).

6. The ambience rendering illumination lamp according to any one of claims 2 to 4, wherein the laser rendering assembly (4) further comprises a controller (45), the controller (45) is provided on the support (5), and the motor (43) is electrically connected to the controller (45).

7. The ambience rendering illumination lamp according to claim 6, further comprising a power supply (6), the laser light source (41) being electrically connected to the power supply (6), the power supply (6) being provided on the support (5).

8. The atmosphere rendering illumination lamp according to any one of claims 1 to 4, further comprising a first sealing ring (7) and a face cover (8), wherein the face cover (8) is sleeved outside the glass panel (2), the first sealing ring (7) is fixed on the lamp body (1), and the first sealing ring (7) is located between the face cover (8) and the lamp body (1).

9. The ambience rendering luminaire as claimed in claim 8, further comprising a second sealing ring (9), the second sealing ring (9) being fixed at the bottom end of the lamp body (1), the second sealing ring (9) being located between the lamp body (1) and the base (3).

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