CN216844556U - Light source combination structure for changing color coordinate system - Google Patents

Abstract

The utility model discloses a change light source integrated configuration of chromatic coordinate system, including casing, outer rotating electrical machines, interior rotating electrical machines, outer ring gear, interior ring gear, outer loop LED aluminium base board, interior ring LED aluminium base board, central LED aluminium base board, LED lamp pearl, plano-convex lens and annular closing cap, the both sides of casing bottom are inlayed respectively and are equipped with outer rotating electrical machines and interior rotating electrical machines, and outer ring gear and interior ring gear are installed respectively to the output of outer rotating electrical machines and interior rotating electrical machines; the utility model discloses a through optimizing structural design to can change the color coordinate system of light source, application scope is wide, has satisfied the user demand of different scenes, and possesses shock-absorbing function, receives the influence of external force vibrations less, thereby has reduced the wearing and tearing of spare part, has prolonged life, adopts the components of a whole that can function independently connected mode simultaneously, has made things convenient for the installation and the dismantlement of spare part, and it is convenient that the maintenance is changed, labour saving and time saving has reduced the use cost of light source.

Description

Light source combination structure for changing color coordinate system

Technical Field

The utility model relates to a light source combination technical field specifically is a change light source integrated configuration of color coordinate system.

Background

The light source is an object which can emit light by itself and is emitting light, and can be mainly divided into a natural light source and an artificial light source, and the sun, a turned-on electric lamp, a burning candle and the like are all light sources. The light source combination refers to a combined light source which is formed by closely matching a plurality of light sources and can be controlled by each light source separately. The color coordinate system, namely the coordinate system of the color, also called the color appearance system, can describe the color.

However, traditional light source integrated configuration is comparatively simple, can't change the color coordinate system of light source, and application scope is limited, is difficult to satisfy the user demand of different scenes, and does not possess shock-absorbing function, receives the influence of external force vibrations great, and spare part wearing and tearing are serious, and life is limited, adopts the monolithic connection mode in addition mostly, and it is inconvenient to dismantle after the installation, and the maintenance is changed the difficulty, wastes time and energy, has increased the use cost of light source.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a change light source integrated configuration of color coordinate system to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a change light source integrated configuration of chromatic coordinate system, includes casing, outer rotating electrical machines, interior rotation motor, outer ring gear, interior ring gear, outer loop LED aluminium base board, interior ring LED aluminium base board, central LED aluminium base board, LED lamp pearl, planoconvex lens and annular closing cap, the both sides of casing bottom are inlayed respectively and are equipped with outer rotating electrical machines and interior rotation motor, and outer ring gear and interior ring gear are installed respectively to the output of outer rotating electrical machines and interior rotation motor, and the outer circumference of outer ring gear and interior ring gear meshes the interior circumference of outer loop ring gear and interior ring gear respectively.

Preferably, the top of the outer ring gear ring and the top of the inner ring gear ring are respectively connected with the outer edges of the bottoms of the outer ring LED aluminum substrate and the inner ring LED aluminum substrate, the outer ring LED aluminum substrate is sleeved on the outer circumference of the inner ring LED aluminum substrate, and the inner ring LED aluminum substrate is sleeved on the outer circumference of the central LED aluminum substrate.

Preferably, the top of the outer ring LED aluminum substrate, the top of the inner ring LED aluminum substrate and the top of the central LED aluminum substrate are annularly provided with a plurality of LED lamp beads, the outer edge of the top of the outer ring LED aluminum substrate abuts against the bottom of the backing ring, and the top of the backing ring abuts against the outer edge of the bottom of the plano-convex lens.

Preferably, the outer edge of the top of the plano-convex lens abuts against the bottom of the sealing ring, the top of the sealing ring abuts against the inner edge of the bottom of the annular sealing cover, the outer edge of the bottom of the annular sealing cover abuts against the outer edge of the top of the shell, the outer edges of the top of the shell and the annular sealing cover are both provided with locking screw holes in an annular mode, and locking screws are embedded in the locking screw holes.

Preferably, the locating holes are formed in four corners of the top of the annular sealing cover, locating columns are embedded inside the locating holes and are respectively arranged in the four corners of the top of the shell, the connecting grooves are formed in the outer edge of the bottom of the shell in an annular mode, and connecting plates are embedded inside the connecting grooves.

Preferably, the connecting plate ring shape sets up the outer fringe at the shock attenuation board top, and the center of shock attenuation board bottom supports the top of cushion pad, and the connecting screw has all been seted up at the center of connecting plate and spread groove side, and the inside of connecting the screw inlays and is equipped with the connecting screw.

Preferably, the bottom of the buffer base plate is connected with the inner edge of the top of the fixing seat, the outer edge of the bottom of the fixing seat is annularly provided with a fixing hole, four sides of the top of the fixing seat are sleeved on the middle section of the limiting bolt in a sliding mode, and one end of the limiting bolt is connected with four sides of the bottom of the damping plate.

Preferably, the other end of the limit bolt is fixedly sleeved with a limit nut, the middle section of the limit nut is respectively sleeved with a buffer spring and a reset spring in a sliding manner, the buffer spring is located between the damping plate and the fixed seat, and the reset spring is located between the fixed seat and the limit nut.

Compared with the prior art, the beneficial effects of the utility model are that: the light source combination structure for changing the color coordinate system optimizes the structural design, can change the color coordinate system of the light source, has wide application range and meets the use requirements of different scenes; the shock absorption device has a shock absorption function, is less influenced by external force shock, reduces the abrasion of parts and has long service life; the split connection mode is adopted, so that the installation and the disassembly of parts are facilitated, the maintenance and the replacement are convenient, the time and the labor are saved, and the use cost of the light source is reduced.

Drawings

Fig. 1 and 2 are perspective views of the overall structure of the present invention;

fig. 3 and 4 are exploded views of the whole structure of the present invention;

FIG. 5 is a front view of the overall structure of the present invention;

FIG. 6 is a flow chart of a method of the present invention;

in the figure: 1. a housing; 2. an external rotating electrical machine; 3. an inner rotating motor; 4. an outer ring gear; 5. an inner ring gear; 6. an outer ring gear ring; 7. an inner ring gear ring; 8. an outer ring LED aluminum substrate; 9. an inner ring LED aluminum substrate; 10. a central LED aluminum substrate; 11. LED lamp beads; 12. a backing ring; 13. a plano-convex lens; 14. a seal ring; 15. an annular cover; 16. locking the screw hole; 17. locking the screw; 18. positioning holes; 19. a positioning column; 20. connecting grooves; 21. a connecting plate; 22. a damper plate; 23. a connecting screw hole; 24. a connecting screw; 25. a cushion plate; 26. a fixed seat; 27. a fixing hole; 28. a limit bolt; 29. a limit nut; 30. a buffer spring; 31. a return spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides an embodiment: a light source combination structure for changing a color coordinate system comprises a shell 1, an outer rotary motor 2, an inner rotary motor 3, an outer ring gear 4, an inner ring gear 5, an outer ring gear ring 6, an inner ring gear ring 7, an outer ring LED aluminum substrate 8, an inner ring LED aluminum substrate 9, a center LED aluminum substrate 10, LED lamp beads 11, a plano-convex lens 13 and an annular sealing cover 15, wherein the outer rotary motor 2 and the inner rotary motor 3 are respectively embedded on two sides of the bottom of the shell 1, the outer ring gear 4 and the inner ring gear 5 are respectively installed at the output ends of the outer rotary motor 2 and the inner rotary motor 3, the outer circumferences of the outer ring gear 4 and the inner ring gear 5 are respectively meshed with the inner circumferences of the outer ring gear ring 6 and the inner ring gear ring 7, the tops of the outer ring gear ring 6 and the inner ring gear ring 7 are respectively connected with the outer edges of the bottoms of the outer ring LED aluminum substrate 8 and the inner ring LED aluminum substrate 9, the outer ring LED aluminum substrate 8 is sleeved on the outer circumference of the inner ring LED aluminum substrate 9, the inner ring LED aluminum substrate 9 is sleeved on the outer circumference of the central LED aluminum substrate 10, and the top parts of the outer ring LED aluminum substrate 8, the inner ring LED aluminum substrate 9 and the central LED aluminum substrate 10 are annularly provided with a plurality of LED lamp beads 11, so that the structural design is optimized, the color coordinate system of a light source can be changed, the application range is wide, and the use requirements of different scenes are met; the outer edge of the top of the outer ring LED aluminum substrate 8 supports against the bottom of the backing ring 12, the top of the backing ring 12 supports against the outer edge of the bottom of the plano-convex lens 13, the outer edge of the top of the plano-convex lens 13 supports against the bottom of the sealing ring 14, the top of the sealing ring 14 supports against the inner edge of the bottom of the annular sealing cover 15, the outer edge of the bottom of the annular sealing cover 15 supports against the outer edge of the top of the shell 1, the outer edges of the tops of the shell 1 and the annular sealing cover 15 are both annularly provided with a locking screw hole 16, the locking screw hole 16 is embedded in the locking screw hole 16, the four corners of the top of the annular sealing cover 15 are both provided with positioning holes 18, the positioning columns 19 are embedded in the positioning holes 18, the positioning columns 19 are respectively arranged at the four corners of the top of the shell 1, the outer edge of the bottom of the shell 1 is annularly provided with a connecting groove 20, the connecting plate 21 is embedded in the connecting groove 20, the outer edge of the top of the connecting plate 21 is annularly arranged at the top of the damping plate 22, and the centers of the sides of the connecting groove 20 are both provided with connecting screw holes 23, the connecting screw 24 is embedded in the connecting screw hole 23, and a split connection mode is adopted, so that the mounting and dismounting of parts are facilitated, the maintenance and the replacement are convenient, the time and the labor are saved, and the use cost of a light source is reduced; the center of the bottom of damper plate 22 supports the top of damper plate 25, the inner edge at 26 tops of fixing base is connected to the bottom of damper plate 25, fixed orifices 27 have been seted up to the outer fringe annular of fixing base 26 bottom, the four sides at 26 tops of fixing base all slide and cup joint the middle section at stop bolt 28, four sides at 22 bottoms of damper plate are connected to stop bolt 28's one end, stop nut 29 has been cup jointed to stop bolt 28's the other end fixed cover, stop nut 29's middle section slides respectively and has cup jointed buffer spring 30 and reset spring 31, buffer spring 30 is located between damper plate 22 and the fixing base 26, reset spring 31 is located between fixing base 26 and the stop nut 29, possess shock-absorbing function, it is less to receive the influence of external force vibrations, the wearing and tearing of spare part have been reduced, long service life.

Referring to fig. 6, the present invention provides an embodiment: a method for using a light source combination structure for changing a color coordinate system comprises the following steps: step one, embedding; step two, installation; step three, damping; step four, adjusting;

in the first step, an outer rotating motor 2, an inner rotating motor 3, an outer ring gear 4, an inner ring gear 5, an outer ring gear ring 6, an inner ring gear ring 7, an outer ring LED aluminum substrate 8, an inner ring LED aluminum substrate 9, a center LED aluminum substrate 10, LED lamp beads 11, a backing ring 12, a plano-convex lens 13 and a sealing ring 14 are sequentially embedded into a shell 1, and then an annular sealing cover 15 is fixed on the shell 1 by embedding a positioning column 19 into a positioning hole 18 and embedding and locking a locking screw 17 into a locking screw hole 16;

in the second step, the fixed seat 26 is installed at a designated position through the fixing hole 27 and the fastening piece, the buffer spring 30 and the return spring 31 are sleeved on the limit bolt 28, the limit bolt 28 is installed on the fixed seat 26 through the limit nut 29, the damping plate 22 is installed on the fixed seat 26, and the shell 1 is installed on the damping plate 22 by embedding the connecting plate 21 into the connecting groove 20 and embedding the connecting screw 24 into the connecting screw hole 23;

in the third step, when the shock is caused by an external force, the potential energy of the external force shock is counteracted through the telescopic deformation of the buffer backing plate 25 and the buffer spring 30, and the shock amplitude between the shock absorption plate 22 and the fixed seat 26 is reduced through the limit nut 29 and the return spring 31;

in the fourth step, the outer ring LED aluminum substrate 8, the inner ring LED aluminum substrate 9 and the central LED aluminum substrate 10 are connected into a circuit through a circuit, LED lamp beads 11 are lightened, the outer ring gear 4 is rotated through the outer rotating motor 2, the outer ring gear 4 and the outer ring LED aluminum substrate 8 are further rotated, the inner ring gear 5 is rotated through the inner rotating motor 3, the inner ring LED aluminum substrate 9 is rotated through the inner ring gear 7, the position of the LED lamp beads 11 is adjusted, and the color coordinate system of the light source is changed.

The working principle is as follows: when the utility model is used, firstly, an outer rotating motor 2, an inner rotating motor 3, an outer ring gear 4, an inner ring gear 5, an outer ring gear 6, an inner ring gear 7, an outer ring LED aluminum substrate 8, an inner ring LED aluminum substrate 9, a center LED aluminum substrate 10, LED lamp beads 11, a backing ring 12, a plano-convex lens 13 and a sealing ring 14 are sequentially embedded into a shell 1, then a positioning column 19 is embedded into a positioning hole 18, a locking screw 17 is embedded into a locking screw hole 16, an annular sealing cover 15 is fixed on the shell 1, then a fixing seat 26 is arranged at a designated position through a fixing hole 27 and a fastening piece, a buffer spring 30 and a reset spring 31 are sleeved on a limit bolt 28, the limit bolt 28 is arranged on the fixing seat 26 through a limit nut 29, a damping plate 22 is arranged on the fixing seat 26, a connecting plate 21 is embedded into a connecting groove 20, and the connecting screw 24 is embedded into a connecting screw hole 23, the shell 1 is installed on the damping plate 22, finally, the outer ring LED aluminum substrate 8, the inner ring LED aluminum substrate 9 and the center LED aluminum substrate 10 are connected into a circuit through a circuit, LED lamp beads 11 are lightened, the outer ring gear 4 is rotated through the outer rotating motor 2, the outer ring gear 4 and the outer ring LED aluminum substrate 8 are further rotated, the inner ring gear 5 is rotated through the inner rotating motor 3, the inner ring LED aluminum substrate 9 is further rotated through the inner ring gear 7, the position of the LED lamp beads 11 is adjusted, the color coordinate system of a light source is changed, when the shock is caused by external force, the potential energy of the external force shock is offset through the telescopic deformation of the buffer base plate 25 and the buffer spring 30, the shock amplitude between the damping plate 22 and the fixing seat 26 is reduced through the limiting nut 29 and the reset spring 31, the influence caused by the external force shock is small, the abrasion of parts is reduced, and the service life is long.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a change light source integrated configuration of chromatic coordinate system, includes casing (1), outer rotating electrical machines (2), interior rotation motor (3), outer ring gear (4), interior ring gear (5), outer loop ring gear (6), interior ring gear (7), the aluminium base board of outer loop LED (8), the aluminium base board of inner loop LED (9), the aluminium base board of center LED (10), LED lamp pearl (11), plano-convex lens (13) and annular closing cap (15), its characterized in that: the two sides of the bottom of the shell (1) are respectively embedded with an outer rotating motor (2) and an inner rotating motor (3), the output ends of the outer rotating motor (2) and the inner rotating motor (3) are respectively provided with an outer ring gear (4) and an inner ring gear (5), and the outer circumferences of the outer ring gear (4) and the inner ring gear (5) are respectively meshed with the inner circumferences of an outer ring gear (6) and an inner ring gear (7).

2. A light source assembly structure for changing color coordinate system according to claim 1, wherein: the top parts of the outer ring gear ring (6) and the inner ring gear ring (7) are respectively connected with the outer edges of the bottoms of the outer ring LED aluminum substrate (8) and the inner ring LED aluminum substrate (9), the outer ring LED aluminum substrate (8) is sleeved on the outer circumference of the inner ring LED aluminum substrate (9), and the inner ring LED aluminum substrate (9) is sleeved on the outer circumference of the central LED aluminum substrate (10).

3. A light source assembly structure for changing color coordinate system according to claim 2, wherein: the LED lamp comprises an outer ring LED aluminum substrate (8), an inner ring LED aluminum substrate (9) and a center LED aluminum substrate (10), wherein a plurality of LED lamp beads (11) are annularly arranged at the tops of the outer ring LED aluminum substrate (8), the inner ring LED aluminum substrate (9) and the center LED aluminum substrate (10), the outer edge of the top of the outer ring LED aluminum substrate (8) is abutted against the bottom of a backing ring (12), and the top of the backing ring (12) is abutted against the outer edge of the bottom of a plano-convex lens (13).

4. A light source assembly structure for changing color coordinate system according to claim 3, wherein: the outer edge of the top of the plano-convex lens (13) abuts against the bottom of the sealing ring (14), the top of the sealing ring (14) abuts against the inner edge of the bottom of the annular sealing cover (15), the outer edge of the bottom of the annular sealing cover (15) abuts against the outer edge of the top of the shell (1), the outer edges of the top of the shell (1) and the top of the annular sealing cover (15) are both annularly provided with locking screw holes (16), and locking screws (17) are embedded in the locking screw holes (16).

5. A light source combination structure for changing color coordinate system according to claim 4, wherein: locating holes (18) are formed in four corners of the top of the annular sealing cover (15), locating columns (19) are embedded in the locating holes (18), the locating columns (19) are arranged in the four corners of the top of the shell (1) respectively, connecting grooves (20) are formed in the outer edge of the bottom of the shell (1) in an annular mode, and connecting plates (21) are embedded in the connecting grooves (20).

6. A light source combination structure for changing color coordinate system according to claim 5, wherein: the connecting plate (21) is annularly arranged at the outer edge of the top of the damping plate (22), the center of the bottom of the damping plate (22) abuts against the top of the buffer base plate (25), the connecting screw holes (23) are formed in the centers of the connecting plate (21) and the side face of the connecting groove (20), and the connecting screws (24) are embedded in the connecting screw holes (23).

7. A light source assembly structure for changing color coordinate system according to claim 6, wherein: the bottom of buffer backing plate (25) is connected with the inner edge at the top of fixing base (26), fixing hole (27) have been seted up to the outer edge annular of fixing base (26) bottom, and four sides at fixing base (26) top all slide to cup joint in the middle section of spacing bolt (28), and four sides at the bottom of shock attenuation board (22) are connected to the one end of spacing bolt (28).

8. A light source assembly structure for changing color coordinate system according to claim 7, wherein: the other end of the limiting bolt (28) is fixedly sleeved with a limiting nut (29), the middle section of the limiting nut (29) is respectively sleeved with a buffer spring (30) and a return spring (31) in a sliding mode, the buffer spring (30) is located between the damping plate (22) and the fixed seat (26), and the return spring (31) is located between the fixed seat (26) and the limiting nut (29).

Images