CN110566908B - Operation method of light dispersion system for lamp and system thereof - Google Patents

Abstract

The invention discloses an operation method of a light dispersion system for a lamp and a system thereof, wherein the method comprises the steps of switching on a power supply of the lamp, and starting the lamp to work after receiving a working instruction; the lamp receives a closing instruction, and if the polygon mirror shields the light through hole, the lamp is directly powered off; if the polygon mirror is far away from the light-passing port, the polygon mirror automatically returns to the light-passing port, and then the lamp is powered off; sunlight is directed into the luminaire and the polygon mirror distributes the sunlight to the edges of the inner element. The operation method is simple and convenient, can scatter sunlight into the lamp, prevents damage to internal elements of the lamp, and is beneficial to protecting the lamp.

Description

Operation method of light dispersion system for lamp and system thereof

Technical Field

The invention relates to the technical field of lamps, in particular to an operation method and an operation system of a light dispersion system for lamps.

Background

The existing light beam and pattern lamp generally comprises a lens arranged at the front end of the lamp and a light source arranged at the bottom of the lamp; when the lens faces to sunlight, the sunlight is converged and irradiated into the lamp through the lens, and high temperature generated during the convergence of the sunlight easily damages elements in the lamp, so that the service life of the lamp is shortened.

Disclosure of Invention

The invention aims to provide an operation method and an operation system of a light dispersion system for a lamp, wherein the operation method is simple and convenient, can disperse sunlight scattered into the lamp, prevent damage to internal elements of the lamp, and is beneficial to protecting the lamp.

The invention provides an operation method of a light dispersion system for a lamp, which comprises the following steps:

switching on a lamp power supply, and starting to work after the lamp receives a work instruction;

the lamp receives a closing instruction, and if the polygon mirror shields the light through hole, the lamp is directly powered off;

if the polygon mirror is far away from the light-passing port, the polygon mirror automatically returns to the light-passing port, and then the lamp is powered off;

sunlight is directed into the luminaire and the polygon mirror distributes the sunlight to the edges of the inner element.

The invention also provides a light dispersing system for the lamp, which has the following technical scheme:

a light dispersing system for a luminaire comprising:

the bracket is used for installing and fixing internal elements of the lamp;

a light source serving as a light emitting element of the lamp;

the light-transmitting port is used as a light channel;

a polygon mirror for dispersing sunlight and producing a polygon mirror beam effect;

an adjusting device for adjusting the position of the polygon mirror;

the control element is used for receiving the instruction, judging the position of the polygon mirror and controlling the work of the lamp according to the judging result;

the light source is located the support bottom, the light-passing hole is located the top of light source, the polygon mirror is located the light-passing hole top, adjusting device locates the position that is close to the light source on the support, adjusting device includes fixed plate, first drive assembly and first motor, the polygon mirror rotates to be connected on the fixed plate, first motor drive first drive assembly rotates, first drive assembly drives the fixed plate and rotates, control element is located the support, the top of support is equipped with the camera lens, under the initial condition, the polygon mirror shelters from the light-passing hole.

The lamp receives a closing instruction, the control element judges the position of the polygon, and if the polygon shields the light through hole, the lamp is directly powered off; if the polygon mirror is far away from the light-passing opening, the control element controls the first motor to rotate, and the lamp is powered off after the polygon mirror rotates to shield the light-passing opening through the cooperation among the first motor, the first transmission assembly and the fixed plate; sunlight directly irradiates into the lamp, and is converged by the lens and irradiates onto the polygon, and the polygon disperses the sunlight into a plurality of beams of light, so that the heat of the sunlight is dispersed, and the internal elements of the lamp are not easily damaged due to the influence of high temperature, thereby being beneficial to protecting the lamp.

After receiving the working instruction, the lamp receives a first effect instruction; the first motor drives the fixed plate to rotate in the direction away from the light-transmitting port, and the polygon mirror rotates to a position away from the light-transmitting port along with the fixed plate; when the light through hole is exposed, the first motor stops rotating; the light emitted by the light source is directly projected to the outside through the light-passing port. After the control element receives the first effect instruction, the first motor is controlled to rotate, the polygon mirror is rotated to a position far away from the light-transmitting port, light rays emitted by the light source are not blocked by the polygon mirror, and normal light is projected by the lamp.

After the lamp receives the working instruction, a second effect instruction is received; if the polygon mirror shields the light-transmitting port, the second motor drives the polygon mirror to rotate; if the polygon mirror is far away from the light-passing opening, the first motor drives the polygon mirror to rotate towards the direction close to the light-passing opening, and when the polygon mirror shields the light-passing opening, the first motor stops working, and then the second motor drives the polygon mirror to rotate; the light emitted by the light source irradiates on the rotating polygon mirror, and the polygon mirror disperses the light into a plurality of light beams to irradiate outside. The polygon mirror is rotated or kept at a position for shielding the light-transmitting opening, the polygon mirror is driven by the second motor to rotate, the rotating polygon mirror beam effect is displayed, the projection effect is various, and the light beautifying effect is good.

The first transmission assembly comprises a driving wheel, a driven wheel and a transmission belt, wherein the driving wheel is arranged on a rotating shaft of the first motor, the driven wheel is fixed on one side of the fixed plate, the transmission belt wraps the driving wheel and the driven wheel, and the driving wheel drives the driven wheel through the transmission belt. The first motor drives the driving wheel to rotate, the driving wheel drives the driven wheel to rotate through the transmission belt, and the fixed plate drives the driving wheel to rotate, so that the function of adjusting the position of the polygon mirror is realized.

The fixed plate is kept away from and is equipped with the second drive assembly on one side from the driving wheel, still be equipped with the second motor on the support, the second drive assembly includes first gear, second gear and third gear, the polygon mirror is installed on the inner wall of first gear, first gear rotates to be connected on the fixed plate, the third gear is installed in the axis of rotation of second motor, the second gear is located between first gear and the third gear, the second gear respectively with first gear and third gear meshing. The second motor drives the third gear to rotate, the third gear drives the first gear to rotate through the second gear, the polygon mirror rotates along with the rotation of the first gear, light emitted by the light source irradiates on the polygon mirror which rotates, the polygon mirror disperses the light into a plurality of beams of light and then projects the beams of light, so that the rotating polygon mirror beam effect is achieved, and the light beautifying effect is improved.

The light source is characterized in that a mounting plate is arranged at the bottom of the bracket and close to the light source, the mounting plate is positioned in front of the light source, the light through opening is positioned on the mounting plate, and in an initial state, the polygon mirror shields the light through opening. The mounting plate is used for fixing and mounting part of internal elements, and meanwhile, the mounting plate shields part of sunlight which directly enters the lamp, so that the internal elements of the lamp can be protected.

The utility model discloses a fixed plate, including the mounting panel, the mounting panel is fixed with spacing post, be fixed with the lug on the lateral wall of fixed plate, the sunken fixed slot that has on the lug, the axis of rotation overcoat of second motor is equipped with the torsional spring, the spring hook joint of torsional spring is on the fixed slot, under the initial state, the lateral wall and the spacing post butt of fixed plate, the torsional spring is in compression state. Under the initial state, the torsional spring is in the compression state, gives the lug a power towards spacing post all the time for the fixed plate supports tightly spacing post all the time, keeps the polygon mirror to shelter from the light opening, prevents that sunlight from penetrating into inside the lamps and lanterns directly.

The fixed plate is sunken to have the breach, the breach is located the butt department of fixed plate and spacing post. The butt department of fixed plate and spacing post is sunken to have the breach, is favorable to increasing the area of contact of fixed plate and spacing post for be difficult to take place the displacement when the fixed plate supports tight spacing post, keep the polygon mirror to shelter from the light opening, prevent that sunlight from penetrating into inside the lamps and lanterns.

And a limiting block is further fixed on the side wall of the fixed plate, and when the fixed plate rotates to the position where the light-transmitting port is exposed, the limiting block is abutted with the limiting column. Be fixed with spacing post on the mounting panel, be fixed with the stopper on the lateral wall of fixed plate, when the fixed plate rotated the position that the light-passing hole was exposed, stopper and spacing post butt to the restriction fixed plate rotates, prevents that the fixed plate from continuing to rotate to the position that shelters from the light-passing hole, is favorable to the normal play light of lamps and lanterns.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a light dispersing system for a lamp according to an embodiment of the present invention.

Fig. 2 is an exploded view of a partial structure of a light dispersing system for a lamp according to an embodiment of the present invention.

Fig. 3 is a top view of a polygon mirror shielding a light-transmitting aperture in a light-dispersing system for a lamp according to an embodiment of the present invention.

Fig. 4 is a top view showing the exposure of the light-transmitting port in the light-dispersing system for a lamp according to the embodiment of the present invention.

Reference numerals illustrate:

10. a bracket; 20. a lens; 30. a light source; 40. a polygon prism; 50. a fixing plate; 51. a bump; 52. a fixing groove; 53. a torsion spring; 54. a notch; 55. a limiting block; 60. a first transmission assembly; 61. a driving wheel; 62. driven wheel; 63. a transmission belt; 64. a first motor; 70. a second transmission assembly; 71. a first gear; 72. a second gear; 73. a third gear; 74. a second motor; 80. a mounting plate; 81. a light-transmitting port; 82. and a limit column.

Detailed Description

The following describes embodiments of the present invention in detail.

As shown in fig. 1 and 2, the light dispersing system for a lamp includes:

a bracket 10 for mounting and fixing the internal components of the lamp;

a light source 30 serving as a light emitting element of the lamp;

a light-passing port 81 for use as a light path;

a polygon mirror 40 for dispersing sunlight and producing a polygon mirror beam effect;

adjusting means for adjusting the position of the polygon mirror 40;

the control element is used for receiving the instruction and judging the position of the polygon mirror 40, and controlling the work of the lamp according to the judging result;

the light source 30 is located the support 10 bottom, the light-passing hole 81 is located the top of light source 30, polygon mirror 40 is located light-passing hole 81 top, adjusting device locates the position that is close to the light source 30 on the support 10, adjusting device includes fixed plate 50, first drive assembly 60 and first motor 64, first drive assembly 60 includes action wheel 61, follow driving wheel 62 and drive belt 63, action wheel 61 installs in the axis of rotation of first motor 64, follow driving wheel 62 is fixed in one side of fixed plate 50, drive belt 63 parcel action wheel 61 and follow driving wheel 62, action wheel 61 drives follow driving wheel 62 through drive belt 63, control element installs on support 10, the top of support 10 is equipped with camera lens 20, under the initial condition, polygon mirror 40 shelters from light-passing hole 81.

In the initial state, the polygon mirror 40 blocks the light-transmitting port 81; the lamp receives a closing instruction, the control element judges the position of the polygon mirror 40, if the polygon mirror 40 is far away from the light-passing opening 81, the control element controls the first motor 64 to rotate, and the lamp is powered off after the polygon mirror 40 rotates to shield the light-passing opening 81 through the cooperation among the first motor 64, the first transmission assembly 60 and the fixed plate 50; if the polygon mirror 40 shields the light-transmitting port 81, the lamp is directly powered off; sunlight directly irradiates into the lamp, and is converged by the lens 20 and irradiates onto the polygon mirror 40, and the polygon mirror 40 disperses the sunlight into a plurality of beams of light, so that the heat of the sunlight is dispersed, and the internal elements of the lamp are not easily damaged due to the influence of high temperature, thereby being beneficial to protecting the lamp. When receiving the first effect instruction, the first motor 64 drives the driving wheel 61 to rotate, the driving wheel 61 drives the driven wheel 62 to rotate through the driving belt 63, the fixed plate 50 rotates along with the driven wheel 62, the function of adjusting the position of the polygon mirror 40 is achieved, the polygon mirror 40 is moved towards the direction far away from the light source 30, the light emitted by the light source 30 is not blocked by the polygon mirror 40, and the normal light is projected by the light source 30.

The fixed plate 50 is provided with a second transmission assembly 70 on one side far away from the driven wheel 62, the bracket 10 is further provided with a second motor 74, the second transmission assembly 70 comprises a first gear 71, a second gear 72 and a third gear 73, the polygon mirror 40 is arranged on the inner wall of the first gear 71, the first gear 71 is rotationally connected to the fixed plate 50, the third gear 73 is arranged on the rotating shaft of the second motor 74, the second gear 72 is located between the first gear 71 and the third gear 73, and the second gear 72 is respectively meshed with the first gear 71 and the third gear 73. The second motor 74 drives the third gear 73 to rotate, the third gear 73 drives the first gear 71 to rotate through the second gear 72, the polygon mirror 40 rotates along with the rotation of the first gear 71, the light emitted by the light source 30 irradiates on the rotating polygon mirror 40, the polygon mirror 40 disperses the light into a plurality of beams of light and projects the beams of light, the beam effect of the rotating polygon mirror 40 is achieved, and the light beautifying effect is improved.

As shown in fig. 3 and fig. 4, the bottom of the bracket 10 is provided with a mounting plate 80 near the light source 30, the mounting plate 80 is located in front of the light source 30, the light-passing opening 81 is located on the mounting plate 80, in an initial state, the polygon mirror 40 shields the light-passing opening 81, a limit post 82 is fixed on the mounting plate 80, a bump 51 is fixed on the side wall of the fixing plate 50, a fixing groove 52 is recessed on the bump 51, a torsion spring 53 is sleeved outside the rotating shaft of the second motor 74, a spring hook of the torsion spring 53 is clamped on the fixing groove 52, in an initial state, the fixing plate 50 is abutted with the limit post 82, the torsion spring 53 is in a compressed state, a notch 54 is recessed on the fixing plate 50, and the notch 54 is located at the abutting position of the fixing plate 50 and the limit post 82. The arrangement of the mounting plate 80 shields part of sunlight, which is beneficial to protecting the internal elements of the lamp; the mounting plate 80 is provided with a light-transmitting opening 81, so that the light rays radiated by the light source 30 are projected more intensively, and the normal light emission of the lamp is facilitated. In the initial state, the torsion spring 53 is in a compressed state, and always gives a force to the protruding block 51 towards the limiting column 82, so that the fixing plate 50 always abuts against the limiting column 82, the polygon mirror 40 is kept to shield the light-passing opening 81, sunlight is prevented from directly entering the lamp, and similarly, when the fixing plate 50 moves to a position where the light-passing opening 81 is exposed and the lamp is powered off, the torsion spring 53 drives the fixing plate 50 to rotate towards a direction close to the light-passing opening 81, and the polygon mirror 40 does not need to be driven to rotate to a position where the light-passing opening 81 is shielded by a motor. The notch 54 is recessed at the abutting part of the fixing plate 50 and the limiting column 82, which is favorable for increasing the contact area of the fixing plate 50 and the limiting column 82, so that displacement is not easy to occur when the fixing plate 50 abuts against the limiting column 82, the polygon mirror 40 is kept to shield the light-passing opening 81, and sunlight is prevented from directly entering the lamp.

The side wall of the fixing plate 50 is also fixed with a limiting block 55, and when the fixing plate 50 rotates to a position where the light-transmitting port 81 is exposed, the limiting block 55 abuts against the limiting column 82. Be fixed with spacing post 82 on mounting panel 80, be fixed with stopper 55 on the lateral wall of fixed plate 50, when the fixed plate 50 rotated the position that light-passing port 81 was exposed, stopper 55 and spacing post 82 butt to the rotation of restriction fixed plate 50 prevents that fixed plate 50 from continuing to rotate to the position that shelters from light-passing port 81, is favorable to the normal light-emitting of lamps and lanterns.

As shown in fig. 3 and 4, the operation method of the light dispersing system for a lamp is as follows:

switching on a lamp power supply, and starting to work after the lamp receives a work instruction;

the lamp receives the closing instruction, and if the polygon mirror 40 shields the light-transmitting port 81, the lamp is directly powered off;

if the polygon mirror 40 is far away from the light-passing port 81, the polygon mirror 40 automatically returns to the light-passing port 81, and then the lamp is powered off;

sunlight is directed into the fixture and the polygon mirror 40 distributes the sunlight to the edges of the internal components.

After receiving the working instruction, the lamp receives a first effect instruction;

the first motor 64 drives the fixed plate 50 to rotate in a direction away from the light-transmitting port 81, and the polygon mirror 40 rotates along with the fixed plate 50 to a position away from the light-transmitting port 81;

when the light-passing port 81 is exposed, the first motor 64 stops rotating;

the light emitted from the light source 30 is directly projected to the outside through the light-passing port 81.

After the lamp receives the working instruction, a second effect instruction is received;

if the polygon mirror 40 blocks the light-transmitting port 81, the second motor 74 drives the polygon mirror 40 to rotate;

if the polygon mirror 40 is far away from the light-passing opening 81, the first motor 64 drives the polygon mirror 40 to rotate in the direction close to the light-passing opening 81, and when the polygon mirror 40 shields the light-passing opening 81, the first motor 64 stops working, and then the second motor 74 drives the polygon mirror 40 to rotate;

the light emitted from the light source 30 is irradiated to the rotating polygon mirror 40, and the polygon mirror 40 disperses the light into a plurality of light beams to be irradiated to the outside.

The operation method of the light dispersion system for the lamp is simple and convenient, when the lamp is not used, the polygon mirror 40 keeps shielding the light-passing opening 81 or automatically restores the polygon mirror 40 to shielding the light-passing opening 81, sunlight scattered into the lamp can be separated, damage to internal elements of the lamp is prevented, the lamp is protected, the functions of dispersing sunlight, normal light projection and rotating polygon mirror beam effects are easily achieved, and the projection effect is diversified.

The foregoing is merely exemplary embodiments of the present invention, and is not intended to limit the scope of the present invention; any substitutions and modifications made without departing from the spirit of the invention are within the scope of the invention.

Claims (8)

1. A light distribution system for a lamp, comprising:

the bracket is used for installing and fixing internal elements of the lamp;

a light source serving as a light emitting element of the lamp;

the light-transmitting port is used as a light channel;

a polygon mirror for dispersing sunlight and producing a polygon mirror beam effect;

an adjusting device for adjusting the position of the polygon mirror;

the control element is used for receiving the instruction, judging the position of the polygon mirror and controlling the work of the lamp according to the judging result;

the light source is positioned at the bottom end of the support, the light passing port is positioned above the light source, the polygon mirror is positioned above the light passing port, the adjusting device is arranged at a position, close to the light source, on the support and comprises a fixed plate, a first transmission assembly and a first motor, the polygon mirror is rotationally connected to the fixed plate, the first motor drives the first transmission assembly to rotate, the first transmission assembly drives the fixed plate to rotate, the control element is positioned on the support, a lens is arranged at the top of the support, and in an initial state, the polygon mirror shields the light passing port;

the first transmission assembly comprises a driving wheel, a driven wheel and a transmission belt, wherein the driving wheel is arranged on a rotating shaft of the first motor, the driven wheel is fixed on one side of the fixed plate, the transmission belt wraps the driving wheel and the driven wheel, and the driving wheel drives the driven wheel through the transmission belt;

the fixed plate is kept away from and is equipped with the second drive assembly on one side from the driving wheel, still be equipped with the second motor on the support, the second drive assembly includes first gear, second gear and third gear, the polygon mirror is installed on the inner wall of first gear, first gear rotates to be connected on the fixed plate, the third gear is installed in the axis of rotation of second motor, the second gear is located between first gear and the third gear, the second gear respectively with first gear and third gear meshing.

2. The light dispersing system for a lamp as claimed in claim 1, wherein a mounting plate is provided at the bottom of the bracket near the light source, the mounting plate is positioned in front of the light source, the light passing opening is positioned on the mounting plate, and the polygon mirror blocks the light passing opening in an initial state.

3. The light dispersing system for lamps as set forth in claim 2, wherein a limit post is fixed on the mounting plate, a bump is fixed on a side wall of the fixing plate, a fixing groove is recessed on the bump, a torsion spring is sleeved outside a rotating shaft of the second motor, a spring hook of the torsion spring is clamped on the fixing groove, in an initial state, the fixing plate is abutted against the limit post, and the torsion spring is in a compressed state.

4. A light dispersing system for a lamp as in claim 3, wherein the fixing plate is recessed with a notch, and the notch is located at a contact position between the fixing plate and the limiting post.

5. The light-dispersing system for a lamp according to any one of claims 3 and 4, wherein a stopper is further fixed to a side wall of the fixing plate, and the stopper abuts against the stopper post when the fixing plate is rotated to a position where the light-passing opening is exposed.

6. A method of operating a light distribution system for a lamp, wherein the light distribution system for a lamp according to claim 1 is applied to the method of operating, comprising the steps of:

switching on a lamp power supply, and starting to work after the lamp receives a work instruction;

the lamp receives a closing instruction, and if the polygon mirror shields the light through hole, the lamp is directly powered off;

if the polygon mirror is far away from the light-passing port, the polygon mirror automatically returns to the light-passing port, and then the lamp is powered off;

sunlight is directed into the luminaire and the polygon mirror distributes the sunlight to the edges of the inner element.

7. A method of operating a light distribution system for a luminaire as claimed in claim 6,

after receiving the working instruction, the lamp receives a first effect instruction;

the first motor drives the fixed plate to rotate in the direction away from the light-transmitting port, and the polygon mirror rotates to a position away from the light-transmitting port along with the fixed plate;

when the light through hole is exposed, the first motor stops rotating;

the light emitted by the light source is directly projected to the outside through the light-passing port.

8. A method of operating a light-dispersing system for a luminaire as claimed in any one of claims 6 or 7,

after the lamp receives the working instruction, a second effect instruction is received;

if the polygon mirror shields the light-transmitting port, the second motor drives the polygon mirror to rotate;

if the polygon mirror is far away from the light-passing opening, the first motor drives the polygon mirror to rotate towards the direction close to the light-passing opening, and when the polygon mirror shields the light-passing opening, the first motor stops working, and then the second motor drives the polygon mirror to rotate;

the light emitted by the light source irradiates on the rotating polygon mirror, and the polygon mirror disperses the light into a plurality of light beams to irradiate outside.