CN209762942U - Light effect assembly - Google Patents

Abstract

The utility model discloses a lighting effect component, which relates to the technical field of decorative lighting and comprises a light source plate, a light homogenizing plate, a semi-transparent window and a supporting table; the supporting table supports the light homogenizing plate, the light homogenizing plate and the semi-transparent window are sequentially arranged at intervals along the light path of the light source plate, and the light homogenizing plate is provided with a light transmitting platform for light of the light source plate to pass through. The utility model mainly solves the problems that the water-cooling radiating head with LED lamp effect has higher brightness and concentrated illumination direction; this kind of light efficiency subassembly's semi-transparent window can show diversified pattern style, and the light behind even worn-out fur is soft not dazzling moreover, can provide better visual effect.

Description

Light effect assembly

Technical Field

The utility model relates to a decorative light technical field specifically is a light efficiency subassembly.

Background

currently, with the increasing popularity of computers, many users not only desire good performance of the computers, but also desire good appearance of the computers themselves. Based on the above purpose, many manufacturers or users who assemble the computer host by themselves can configure the water-cooling heat sink for the CPU when configuring the computer host, so as to obtain better heat dissipation performance of the CPU, so as to improve the performance of the computer.

However, the water-cooling heat dissipation head with the LED lamp effect has the advantages that the LEDs are usually color LEDs, the brightness is high, the illumination direction is concentrated, and the user is easy to damage the eyesight when looking straight at the water-cooling heat dissipation head with the LED lamp effect; meanwhile, the LED lamps of the water-cooling radiating heads have single effect and cannot meet diversified requirements.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a light efficiency subassembly makes the water-cooling radiating head have diversified and softer light efficiency.

In order to achieve the above object, the utility model provides a following technical scheme: a lighting effect component comprises a light source plate, a light homogenizing plate, a semi-transparent window and a support table; the supporting table supports the light homogenizing plate, the light homogenizing plate and the semi-transparent window are sequentially arranged at intervals along the light path of the light source plate, and the light homogenizing plate is provided with a light transmitting platform for light of the light source plate to pass through.

In the technical scheme, the light homogenizing plate is provided with the light transmitting piece in a penetrating mode, and the top face of the light transmitting piece is a light transmitting panel for light of the light source plate to penetrate through.

In the technical scheme, the light homogenizing plate is provided with a clamping hole, the bottom surface of the light transmitting piece extends out of a first shading ring, and the first shading ring penetrates into the clamping hole; the light source board comprises a circuit board, a central lamp bead and peripheral lamp beads, the central lamp bead is arranged in the center of the circuit board, and the peripheral lamp beads are arranged on the edge of the circuit board; the light of the central lamp beads passes through the light-transmitting panel, and the light of the peripheral lamp beads passes through the light homogenizing plate; the first shading ring isolates the light of the central lamp bead and the light of the peripheral lamp beads from the side surface.

In the above technical scheme, a positioning rib is arranged in the clamping hole, and a positioning groove matched with the positioning rib is formed in the first shading ring.

In the above technical scheme, a light transmission part for passing light of the light source plate is formed on the light homogenizing plate.

In the technical scheme, the light source board comprises a circuit board, a central lamp bead and a peripheral lamp bead, wherein the central lamp bead is arranged in the center of the circuit board, and the peripheral lamp bead is arranged at the edge of the circuit board; the light of the central lamp bead penetrates through the light transmission part, and the light of the peripheral lamp beads penetrates through the peripheral part of the light homogenizing plate; and a second shading ring extends from the bottom surface of the light homogenizing plate, and the second shading ring isolates the light of the central lamp bead and the light of the peripheral lamp beads from the side surface.

In the technical scheme, a spacer ring is arranged between the light homogenizing plate and the semi-transparent window.

In the technical scheme, one surface of the light homogenizing plate forms a first supporting ring for supporting the semi-transparent window.

In the above technical solution, the light effect assembly further comprises a reflector; the reflector is arranged between the light homogenizing plate and the semi-transparent window, and the reflecting surface of the reflector faces the semi-transparent window.

in the above technical solution, a second pattern portion through which the light of the light source plate passes is formed on the reflector.

Compared with the prior art, the beneficial effects of the utility model are that: this kind of light efficiency subassembly, even worn-out fur and semi-transparent window set up along the light path of light source board interval in proper order, are equipped with the printing opacity platform that supplies the light of light source board to pass on the even worn-out fur, make this kind of light efficiency subassembly semi-transparent window can show diversified pattern, and the light after even worn-out fur is soft not dazzling in addition, can provide better visual effect.

Drawings

Fig. 1 is a perspective view of a first embodiment of the present invention.

Fig. 2 is a cross-sectional view of a first embodiment of the present invention.

Fig. 3 is a partially enlarged view of a in fig. 2.

Fig. 4 is an exploded view of a first embodiment of the present invention.

Fig. 5 is a cross-sectional view of another form of the embodiment of the present invention.

fig. 6 is a perspective view of a second embodiment of the present invention.

Fig. 7 is a cross-sectional view of a second embodiment of the present invention.

Fig. 8 is an exploded view of the second embodiment of the present invention.

The reference signs are: 1. a light homogenizing plate; 11. a clamping hole; 12. a positioning rib; 13. positioning holes; 14. a first screw hole; 15. an annular groove; 16. a first support ring; 17. a light-transmitting portion; 18. a second light-shielding ring; 19. a third pattern portion; 2. a light transmissive member; 21. a first light-shielding ring; 22. a light transmissive panel; 23. clamping a ring; 24. positioning a groove; 25. a first pattern portion; 3. a spacer ring; 31. positioning the shaft; 32. a second screw hole; 4. a semi-transparent window; 5. a mirror; 51. a second pattern portion; 6. a support table; 61. a second support ring; 62. a screw seat; 63. a notch; 7. a light source plate; 71. a circuit board; 72. a central lamp bead; 73. peripheral lamp beads; 8. and (4) a water-cooling radiating head.

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.

The first embodiment is as follows:

The embodiment provides a lighting effect component for providing a light effect for a water-cooling radiating head 8.

Referring to fig. 1-4, the light effect device includes a light source plate 7, a light homogenizing plate 1, a semi-transparent window 4, a support table 6 and a spacer ring 3; the supporting table 6 supports the light homogenizing plate 1, the light homogenizing plate 1 and the semi-transparent window 4 are sequentially arranged at intervals along the light path of the light source plate 7, and the light homogenizing plate 1 is provided with a light transmitting platform for light of the light source plate 7 to pass through.

the material of the light homogenizing plate 1 is one of Polycarbonate (PC), Polystyrene (PS) or Acrylic plastic (Acrylic); the light homogenizing plate 1 is a semitransparent plate with frosted surface, and the main body of the light homogenizing plate is in a circular sheet shape; the light homogenizing plate 1 is provided with first screw holes 14, the first screw holes 14 axially penetrate through the light homogenizing plate 1, the number of the first screw holes 14 is four, and the four first screw holes 14 are circumferentially distributed at the edge of the light homogenizing plate 1; the half-transparent window 4 is a disc-shaped half-lens, and a part of the light irradiated on the half-transparent window 4 penetrates through the half-transparent window 4, and the other part of the light is reflected by the half-transparent window 4.

The light source board 7 comprises a circuit board 71, a central lamp bead 72 and a peripheral lamp bead 73; the Circuit Board 71 is a circular Printed Circuit Board (PCB), the central bead 72 and the peripheral bead 73 are LED beads, the central bead 72 and the peripheral bead 73 are both arranged on the Circuit Board 71 in a patch manner and located on the same side of the Circuit Board 71, wherein the central bead 72 is arranged in the center of the Circuit Board 71, and the peripheral bead 73 is arranged on the edge of the Circuit Board 71. The main body of the support table 6 is a cylindrical aluminum alloy shell; a second support ring 61 is arranged on the inner wall of the support table 6, and the second support ring 61 and the support table 6 are integrally formed; the second support ring 61 is provided with four screw seats 62, the middle part of each screw seat 62 is a threaded hole, and the four screw seats 62 are matched with the four first screw holes 14 of the light homogenizing plate 1 in position; two notches 63 are formed in the bottom of the supporting table 6, and the notches 63 are matched with the water-cooling pipe interfaces of the water-cooling radiating heads 8 in shape. Light source board 7 is fixed at the top surface of water-cooling radiating head 8, and brace table 6 passes through the buckle lock on water-cooling radiating head 8, and the water-cooled tube interface of water-cooling radiating head 8 wears out from brace table 6's breach 63 department, and brace table 6 shields water-cooling radiating head 8 and light source board 7.

The light homogenizing plate 1 is supported by the second support ring 61 of the support table 6, and the light irradiation surface of the light source plate 7 faces the light homogenizing plate 1, namely, the central lamp bead 72 and the peripheral lamp beads 73 on the light source plate 7 face the light homogenizing plate 1.

The light homogenizing plate 1 is provided with a light transmitting member 2 in a penetrating manner, the top surface of the light transmitting member 2 is a light transmitting panel 22 for light of the light source plate 7 to pass through, and in this embodiment, the light transmitting panel 22 is a light transmitting platform. In this embodiment, the light-transmitting member 2 is a white engineering plastic workpiece, and the light-transmitting panel 22 on the top surface thereof is a circular plate; the whole light-transmitting piece 2 is sprayed with black finish paint, then the black finish paint on part of the light-transmitting panel 22 is carved through by using a laser carving technology, a white substrate of the light-transmitting panel 22 is exposed, and the exposed white substrate on the light-transmitting panel 22 forms a first pattern; the light irradiated on the light-transmitting panel 22 cannot pass through the portion on which the black finish is sprayed, but can pass through the white substrate, i.e., the first pattern, exposed on the light-transmitting panel 22, thereby forming a light-transmitting first pattern portion 25 on the light-transmitting panel 22; the first pattern may be one of a brand Logo, a user-defined pattern, and text, but is not limited thereto.

Specifically, the light homogenizing plate 1 is provided with a clamping hole 11, and the clamping hole 11 is circular and is arranged in the center of the light homogenizing plate 1; a first shading ring 21 extends from the bottom surface of the light-transmitting piece 2, and black finish paint is sprayed on the first shading ring 21; the first shading ring 21 penetrates into the clamping hole 11, and the first shading ring 21 is in interference fit with the clamping hole 11; the light-transmitting panel 22 extends out of the clamping ring 23 along the radial direction, and the clamping ring 23 is pressed against the upper surface of the light homogenizing plate 1, so that the light-transmitting piece 2 is matched with the light homogenizing plate 1 more tightly; after assembly, the light transmitting panel 22 is positioned above the central lamp bead 72 of the light source plate 7, the main body of the light homogenizing plate 1 is positioned above the peripheral lamp beads 73, light of the central lamp bead 72 passes through the light transmitting panel 22, and light of the peripheral lamp beads 73 passes through the light homogenizing plate 1; first shading ring 21 covers in central lamp pearl 72 top, and central lamp pearl 72 and peripheral lamp pearl 73 light that diverges to the side can not pass first shading ring 21, and the light of central lamp pearl 72 and peripheral lamp pearl 73 is kept apart from the side to first shading ring 21, avoids central lamp pearl 72 and peripheral lamp pearl 73 light to influence each other.

Furthermore, a positioning rib 12 is arranged in the clamping hole 11, and the positioning rib 12 is arranged along the radial direction of the dodging plate 1; the first shading ring 21 is provided with a positioning groove 24 matched with the positioning rib 12, the positioning groove 24 is arranged along the axial direction of the first shading ring 21, and the positioning rib 12 is clamped in the positioning groove 24; the positioning ribs 12 cooperate with the positioning grooves 24 to prevent the light-transmitting member 2 from rotating in the locking hole 11.

The spacing ring 3 is a circular plastic workpiece, a second screw hole 32 is formed in the spacing ring 3, the second screw hole 32 axially penetrates through the spacing ring 3, the number of the second screw holes 32 is four, and the four second screw holes 32 are matched with the four first screw holes 14 of the light homogenizing plate 1 in position; the spacing ring 3 is positioned on the light homogenizing plate 1, and screws sequentially pass through the second screw hole 32 of the spacing ring 3 and the first screw hole 14 of the light homogenizing plate 1 and then are locked into the screw seat 62 of the supporting table 6, so that the light homogenizing plate 1 and the spacing ring 3 are fixed in the supporting table 6.

Furthermore, a positioning shaft 31 is formed on the bottom surface of the spacing ring 3, a positioning hole 13 matched with the positioning shaft 31 is formed in the upper surface of the light homogenizing plate 1, and during assembly, the positioning shaft 31 is inserted into the positioning hole 13, so that the first screw hole 14 and the second screw hole 32 are accurately aligned, and meanwhile, the relative movement of the light homogenizing plate 1 and the spacing ring 3 is avoided.

The semi-transparent window 4 is fixed on the spacing ring 3 through viscose, namely the spacing ring 3 is positioned between the uniform light plate 1 and the semi-transparent window 4, so that the uniform light plate 1 and the semi-transparent window 4 are arranged at intervals.

further, the light effect assembly further comprises a reflector 5, wherein a second pattern part 51 for passing the light of the light source plate 7 is formed on the reflector 5; the reflector 5 is a plane mirror in the prior art, and the reflector 5 is annular; the reflecting mirror 5 comprises a glass layer, a reflecting layer and a protective layer which are sequentially arranged from top to bottom, the protective layer and the reflecting layer at part of the reflecting mirror 5 are carved through by a laser carving technology, so that the glass layer at the part is exposed at the bottom surface of the reflecting mirror 5, and the glass layer exposed at the bottom surface of the reflecting mirror 5 forms a second pattern; the light irradiated on the bottom surface of the reflecting mirror 5 cannot pass through the protective layer, but can pass through the glass layer exposed after the protective layer and the reflecting layer are engraved through, i.e., the second pattern, thereby forming a second pattern part 51 on the reflecting mirror 5; in this embodiment, the second pattern part 51 has a ring shape. The reflector 5 is arranged between the light homogenizing plate 1 and the semi-transparent window 4, in the embodiment, the annular groove 15 is formed in the upper surface of the light homogenizing plate 1, the annular groove 15 is matched with the reflector 5 in shape, the reflector 5 is embedded in the annular groove 15, and the outer edge of the reflector 5 is bonded with the inner wall of the annular groove 15 through adhesive; the reflecting surface of the reflector 5 faces the semi-transparent window 4, namely the glass layer of the reflector 5 faces the semi-transparent window 4, and the protective layer of the reflector 5 is tightly attached to the bottom of the annular groove 15.

Referring to fig. 5, in another possible embodiment, the second pattern portion 51 is not formed on the reflector 5, the area of the reflector 5 is smaller than that of the annular groove 15 formed on the upper surface of the light homogenizing plate 1, that is, the radius of the inner ring of the reflector 5 is equal to that of the inner ring of the annular groove 15, the radius of the outer ring of the reflector 5 is smaller than that of the outer ring of the annular groove 15, the bottom surface of the reflector 5 is adhered to the bottom of the annular groove 15 by an adhesive, and the reflection surface of the reflector 5 faces the semi-transparent window 4.

When the light source board 7 of this kind of light efficiency subassembly was not switched on, central lamp pearl 72 and peripheral lamp pearl 73 were luminous, and the user observes when semi-transparent window 4, observed semi-transparent window 4's mirror surface effect, can't see through semi-transparent window 4 and observe the inner structure of this kind of light efficiency subassembly.

when the light effect component is manufactured, whether the reflector 5 is arranged between the light homogenizing plate 1 and the semi-transparent window 4 can be selected.

If no reflector 5 is arranged between the light homogenizing plate 1 and the semi-transparent window 4, when the light effect component is used, after the light source plate 7 is electrified, the central lamp bead 72 and the peripheral lamp beads 73 are lightened, and then the following two processes occur simultaneously:

1. the light of the central lamp bead 72 passes through the first pattern part 25 of the light-transmitting piece 2 and reaches the semi-transparent window 4, and a first luminous pattern is displayed on the semi-transparent window 4;

2. The light of the peripheral lamp beads 73 passes through the light homogenizing plate 1 and reaches the semi-transparent window 4, and a circle of soft light ring surrounding the first pattern is displayed on the semi-transparent window 4.

If the reflector 5 with the second pattern part 51 is arranged between the light homogenizing plate 1 and the semi-transparent window 4, when the light effect component is used, after the light source plate 7 is electrified, the central lamp bead 72 and the peripheral lamp beads 73 are lightened, and then the following two processes occur simultaneously:

1. The light of the central lamp bead 72 passes through the first pattern part 25 of the light-transmitting piece 2 and reaches the semi-transparent window 4, and a first luminous pattern is displayed on the semi-transparent window 4;

2. The light of peripheral lamp pearl 73 passes second pattern position 51 of even worn-out fur 1 and speculum 5 in proper order, after arriving semi-transparent window 4, the light of peripheral lamp pearl 73 is partly penetrated and jets out behind the semi-transparent window 4, another part is reflected by semi-transparent window 4, by the light of semi-transparent window 4 reflection, through the transmission of speculum 5 again, reachs semi-transparent window 4 again, with this continuous circulation, show on semi-transparent window 4 for many circles around first pattern and constantly to the water-cooling thermal head 8 inside direction infinitely extending's soft aureola.

If set up the speculum 5 that the area is less than ring channel 15 between even bare board 1 and the semi-transparent window 4, this kind of light efficiency subassembly is when using, to light source board 7 circular telegram back, central lamp pearl 72 and peripheral lamp pearl 73 light, then takes place following two processes simultaneously:

1. The light of the central lamp bead 72 passes through the first pattern part 25 of the light-transmitting piece 2 and reaches the semi-transparent window 4, and a first luminous pattern is displayed on the semi-transparent window 4;

2. The light of peripheral lamp pearl 73 passes the position that even worn-out fur 1 is not sheltered from by speculum 5, reach semi-transparent window 4 back, the light of peripheral lamp pearl 73 is partly penetrated and is penetrated behind semi-transparent window 4 and jet out, another part is reflected by semi-transparent window 4, by the light of semi-transparent window 4 reflection, through the transmission of speculum 5 again, reachs semi-transparent window 4 again, with this continuous circulation, show on semi-transparent window 4 for many circles around first pattern and constantly to the water-cooling thermal head 8 inside direction infinitely extending's soft aureola.

This kind of light efficiency subassembly, even light board 1 and semi-transparent window 4 set up along the light path of light source board 7 interval in proper order, are equipped with the printing opacity platform that supplies the light of light source board 7 to pass on even light board 1, make this kind of light efficiency subassembly semi-transparent window 4 can show diversified pattern, and the light after even light board 1 is soft not dazzling in addition, can provide better visual effect.

Example two:

The embodiment provides a lighting effect component for providing a light effect for a water-cooling radiating head 8.

Referring to fig. 6-8, the light effect assembly includes a light source plate 7, a light homogenizing plate 1, a semi-transparent window 4 and a support table 6; the supporting table 6 supports the light homogenizing plate 1, the light homogenizing plate 1 and the semi-transparent window 4 are sequentially arranged at intervals along the light path of the light source plate 7, and the light homogenizing plate 1 is provided with a light transmitting platform for light of the light source plate 7 to pass through.

The material of the light homogenizing plate 1 is one of Polycarbonate (PC), Polystyrene (PS) or Acrylic plastic (Acrylic); the light homogenizing plate 1 is a semitransparent plate with frosted surface, and the main body of the light homogenizing plate is in a circular sheet shape; the light homogenizing plate 1 is provided with first screw holes 14, the first screw holes 14 axially penetrate through the light homogenizing plate 1, the number of the first screw holes 14 is four, and the four first screw holes 14 are circumferentially distributed at the edge of the light homogenizing plate 1; the half-transparent window 4 is a disc-shaped half-lens, and a part of the light irradiated on the half-transparent window 4 penetrates through the half-transparent window 4, and the other part of the light is reflected by the half-transparent window 4.

the light source board 7 comprises a circuit board 71, a central lamp bead 72 and a peripheral lamp bead 73; the Circuit Board 71 is a circular Printed Circuit Board (PCB), the central bead 72 and the peripheral bead 73 are LED beads, the central bead 72 and the peripheral bead 73 are both arranged on the Circuit Board 71 in a patch manner and located on the same side of the Circuit Board 71, wherein the central bead 72 is arranged in the center of the Circuit Board 71, and the peripheral bead 73 is arranged on the edge of the Circuit Board 71. The main body of the support table 6 is a cylindrical aluminum alloy shell; a second support ring 61 is arranged on the inner wall of the support table 6, and the second support ring 61 and the support table 6 are integrally formed; the second support ring 61 is provided with four screw seats 62, the middle part of each screw seat 62 is a threaded hole, and the four screw seats 62 are matched with the four first screw holes 14 of the light homogenizing plate 1 in position; two notches 63 are formed in the bottom of the supporting table 6, and the notches 63 are matched with the water-cooling pipe interfaces of the water-cooling radiating heads 8 in shape. Light source board 7 is fixed at the top surface of water-cooling radiating head 8, and brace table 6 passes through the buckle lock on water-cooling radiating head 8, and the water-cooled tube interface of water-cooling radiating head 8 wears out from brace table 6's breach 63 department, and brace table 6 shields water-cooling radiating head 8 and light source board 7.

The light homogenizing plate 1 is supported by the second support ring 61 of the support table 6, and the light irradiation surface of the light source plate 7 faces the light homogenizing plate 1, namely, the central lamp bead 72 and the peripheral lamp beads 73 on the light source plate 7 face the light homogenizing plate 1.

The light-distributing plate 1 is provided with a light-transmitting part 17 for light of the light source plate 7 to pass through, the light-transmitting part 17 is a cylindrical raised part formed on the upper surface of the light-distributing plate 1, and the light-transmitting part 17 is positioned in the center of the upper surface of the light-distributing plate 1, in the embodiment, the light-transmitting part 17 is a light-transmitting platform. Spraying black finish paint on the light-transmitting part 17, and then carving the black finish paint on part of the light-transmitting part 17 through by using a laser carving technology to expose the semitransparent substrate, wherein the exposed semitransparent substrate on the light-transmitting part 17 forms a third pattern; the light irradiated on the light-transmitting portion 17 cannot pass through the portion on which the black finish is sprayed, but can pass through a translucent substrate, i.e., a third pattern, exposed on the light-transmitting portion 17, thereby forming a light-transmitting third pattern portion 19 on the light-transmitting portion 17; the third pattern may be one of a brand Logo, a user-defined pattern, and text, but is not limited thereto.

Further, a second shading ring 18 extends from the bottom surface of the light homogenizing plate 1, the second shading ring 18 is located in the center of the bottom surface of the light homogenizing plate 1, and black finish paint is sprayed on the second shading ring 18; after the assembly is finished, the light transmission part 17 in the center of the light homogenizing plate 1 is positioned above the central lamp bead 72 of the light source plate 7, the peripheral part of the light homogenizing plate 1 is positioned above the peripheral lamp bead 73, the light of the central lamp bead 72 passes through the light transmission part 17 of the light homogenizing plate 1, and the light of the peripheral lamp bead 73 passes through the peripheral part of the light homogenizing plate 1; the second shading ring 18 covers the central lamp bead 72, the lights emitted to the side by the central lamp bead 72 and the peripheral lamp beads 73 cannot pass through the second shading ring 18, the lights of the central lamp bead 72 and the peripheral lamp beads 73 are isolated from the side by the second shading ring 18, and the mutual influence of the lights of the central lamp bead 72 and the peripheral lamp beads 73 is avoided.

A first supporting ring 16 used for supporting the semi-transparent window 4 is formed on the upper surface of the light homogenizing plate 1, the first supporting ring 16 is arranged at the edge of the light homogenizing plate 1, and the first supporting ring 16 and the light homogenizing plate 1 are integrally formed; the first screw hole 14 of the light homogenizing plate 1 axially penetrates the first support ring 16. The screws are passed through the first screw holes 14 of the light homogenizing plate 1 and then locked into the screw seats 62 of the support table 6, thereby fixing the light homogenizing plate 1 in the support table 6.

The semi-transparent window 4 is fixed on the first supporting ring 16 through the viscose, namely the first supporting ring 16 is positioned between the main body of the light homogenizing plate 1 and the semi-transparent window 4, so that the light homogenizing plate 1 and the semi-transparent window 4 are arranged at intervals.

Further, the light effect assembly further comprises a reflector 5, wherein a second pattern part 51 for passing the light of the light source plate 7 is formed on the reflector 5; the reflector 5 is a plane mirror in the prior art, and the reflector 5 is annular; the reflecting mirror 5 comprises a glass layer, a reflecting layer and a protective layer which are sequentially arranged from top to bottom, the protective layer and the reflecting layer at part of the reflecting mirror 5 are carved through by a laser carving technology, so that the glass layer at the part is exposed at the bottom surface of the reflecting mirror 5, and the glass layer exposed at the bottom surface of the reflecting mirror 5 forms a second pattern; the light irradiated on the bottom surface of the reflecting mirror 5 cannot pass through the protective layer, but can pass through the glass layer exposed after the protective layer and the reflecting layer are engraved through, i.e., the second pattern, thereby forming a second pattern part 51 on the reflecting mirror 5; in this embodiment, the second pattern part 51 has a ring shape. The reflector 5 is arranged between the light homogenizing plate 1 and the semi-transparent window 4, in the embodiment, the top surface of the light homogenizing plate 1 is provided with an annular groove 15, the annular groove 15 is matched with the shape of the reflector 5, the reflector 5 is embedded in the annular groove 15, and the outer edge of the reflector 5 is bonded with the inner wall of the annular groove 15 through adhesive; the reflecting surface of the reflector 5 faces the semi-transparent window 4, namely the glass layer of the reflector 5 faces the semi-transparent window 4, and the protective layer of the reflector 5 is tightly attached to the bottom of the annular groove 15.

when the light source board 7 of this kind of light efficiency subassembly was not switched on, central lamp pearl 72 and peripheral lamp pearl 73 were luminous, and the user observes when semi-transparent window 4, observed semi-transparent window 4's mirror surface effect, can't see through semi-transparent window 4 and observe the inner structure of this kind of light efficiency subassembly.

when the light effect component is manufactured, whether the reflector 5 is arranged between the light homogenizing plate 1 and the semi-transparent window 4 can be selected.

If no reflector 5 is arranged between the light homogenizing plate 1 and the semi-transparent window 4, when the light effect component is used, after the light source plate 7 is electrified, the central lamp bead 72 and the peripheral lamp beads 73 are lightened, and then the following two processes occur simultaneously:

1. The light of the central lamp bead 72 passes through the third pattern part 19 of the light-transmitting part 17 to reach the semi-transparent window 4, and a luminous third pattern is displayed on the semi-transparent window 4;

2. The light of the peripheral lamp beads 73 passes through the peripheral part of the light homogenizing plate 1 and reaches the semi-transparent window 4, and a circle of soft light ring surrounding the third pattern is displayed on the semi-transparent window 4.

If a reflector 5 is arranged between the light homogenizing plate 1 and the semi-transparent window 4, when the light effect component is used, after the light source plate 7 is electrified, the central lamp bead 72 and the peripheral lamp beads 73 are lightened, and then the following two processes occur simultaneously:

1. the light of the central lamp bead 72 passes through the third pattern part 19 of the light-transmitting part 17 to reach the semi-transparent window 4, and a luminous third pattern is displayed on the semi-transparent window 4;

2. The light of peripheral lamp pearl 73 passes the second pattern position 51 of the peripheral position of even worn-out fur 1 and speculum 5 in proper order, after arriving semi-transparent window 4, the light of peripheral lamp pearl 73 is partly penetrated and jets out after semi-transparent window 4, another part is reflected by semi-transparent window 4, by the light of semi-transparent window 4 reflection, through the transmission of speculum 5 again, reachs semi-transparent window 4 again, with this continuous circulation, show on semi-transparent window 4 for many circles around the third pattern and constantly to the water-cooling radiating head 8 inside direction infinitely extending's soft aureole.

This kind of light efficiency subassembly, even light board 1 and semi-transparent window 4 set up along the light path of light source board 7 interval in proper order, are equipped with the printing opacity platform that supplies the light of light source board 7 to pass on even light board 1, make this kind of light efficiency subassembly semi-transparent window 4 can show diversified pattern, and the light after even light board 1 is soft not dazzling in addition, can provide better visual effect.

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. A lighting effect component is characterized by comprising a light source plate, a light homogenizing plate, a semi-transparent window and a support table; the supporting table supports the light homogenizing plate, the light homogenizing plate and the semi-transparent window are sequentially arranged at intervals along the light path of the light source plate, and the light homogenizing plate is provided with a light transmitting platform for light of the light source plate to pass through.

2. A light effect assembly according to claim 1, wherein: a light transmitting piece penetrates through the light homogenizing plate, and the top surface of the light transmitting piece is a light transmitting panel for light of the light source plate to pass through.

3. A light effect assembly according to claim 2, wherein: a clamping hole is formed in the light homogenizing plate, a first shading ring extends out of the bottom surface of the light transmitting piece, and the first shading ring penetrates into the clamping hole;

The light source board comprises a circuit board, a central lamp bead and peripheral lamp beads, the central lamp bead is arranged in the center of the circuit board, and the peripheral lamp beads are arranged on the edge of the circuit board;

the light of the central lamp bead penetrates through the light transmitting panel, the light of the peripheral lamp beads penetrates through the light homogenizing plate, and the first shading ring isolates the light of the central lamp bead from the light of the peripheral lamp beads from the side surface.

4. A light effect assembly according to claim 3, wherein: and a positioning rib is arranged in the clamping hole, and a positioning groove matched with the positioning rib is formed in the first shading ring.

5. A light effect assembly according to claim 1, wherein: and a light transmission part for the light of the light source plate to pass through is formed on the light homogenizing plate.

6. a light effect assembly according to claim 5, characterized in that: the light source board comprises a circuit board, a central lamp bead and peripheral lamp beads, the central lamp bead is arranged in the center of the circuit board, and the peripheral lamp beads are arranged on the edge of the circuit board;

The light of the central lamp bead penetrates through the light transmission part, and the light of the peripheral lamp beads penetrates through the peripheral part of the light homogenizing plate; and a second shading ring extends from the bottom surface of the light homogenizing plate, and the second shading ring isolates the light of the central lamp bead and the light of the peripheral lamp beads from the side surface.

7. a light effect assembly according to any of claims 1-6, wherein: and a spacing ring is arranged between the light homogenizing plate and the semi-transparent window.

8. A light effect assembly according to any of claims 1-6, wherein: one side of the light homogenizing plate forms a first supporting ring for supporting the semi-transparent window.

9. A light effect assembly according to any of claims 1-6, wherein: the device also comprises a reflector; the reflector is arranged between the light homogenizing plate and the semi-transparent window, and the reflecting surface of the reflector faces the semi-transparent window.

10. A light effect assembly according to claim 9, wherein: and a second pattern part for the lamp light of the light source plate to pass through is formed on the reflector.