CN104603532B - Embedding type illuminator - Google Patents

Abstract

The present invention relates to a kind of embedding type illuminators comprising the reflector being embedded in ceiling.The embodiment of the present invention includes: the embedded enclosure being inserted into the installation recess of ceiling；It is connected to the LED module of embedded enclosure；By the connector of LED module and embedded enclosure mutual connection；The embedded enclosure that will be embedded in the installation recess of ceiling is fastened to the bracket of the bottom of ceiling；And the reflector with conical structure, the conical structure have upper end open portion and lower end open portion.The reflector may be connected to embedded enclosure, or remove from embedded enclosure, and wherein the emitting surface of LED module is arranged on the upper end open portion of the conical structure, and light is emitted by the lower end open portion of the conical structure.

Description

Embedding type illuminator

Technical field

Generally, the present invention relates to embedding type illuminators, more specifically, are related to one kind and are embedded in ceiling Lighting device that is interior and being furnished with reflector.

Background technique

In general, be mounted within indoor and outdoors wall or ceiling or on lighting device be applied not only to illuminate Dark area also serves as the building component to form the component part of space.For doors structure, lighting device is also act as A kind of attachment improving space interior environment.Lighting device can be used as multiple use as a result,.To realize these purposes, illumination dress It is equipped with a variety of planforms corresponded to using purpose.

In recent years, the outside or inside for being proposed some pairs of fabric structures is illuminated, to build graceful and beauty The lighting device of wonderful atmosphere.Such lighting device is mainly embedded in ceiling or wall so that the main body of lighting device from It is externally exposed, and makes the region for installing such device clean and tidy.In addition, such lighting device can be equipped with multiple lamp and anti- Emitter emits light along various directions and angle.

Fig. 1 shows conventional embedding type illuminator, wherein each device includes LED light and reflector.

As shown in Figure 1a, when reflector has a relatively small curvature, light distribution range increases, so that from LED light The light of transmitting is diffused extensively.As shown in Figure 1 b, when the curvature of reflector is relatively large, light distribution range reduces, so that from The diffusion range of the light of LED light transmitting reduces.

However, conventional embedding type illuminator is configured so that LED light and reflector to be incorporated into an entirety Mode formed.Therefore, when needing to change the light distribution range of LED light, it is necessary to be by embedding type illuminator integral replacing New device.For example, when needing the light distribution range of embedding type illuminator from when being changed to 40 ° for 70 °, it is necessary to will entirely be embedded in Formula lighting device is replaced with light distribution range by 40 ° of embedding type illuminator.It will cause waste in this way, since it is desired that with new Resource substitute the lighting device that still can be used.In addition, the operation that new embedding type illuminator is integrally embedded in again Also it can bring inconvenience to user.

Disclosure

Technical problem

Correspondingly, the present invention is it is contemplated that the above problem occurred in the prior art, it is an object of the invention to mention For a kind of embedding type illuminator, it is configured such that light distribution range can be changed in multiple angles, without inciting somebody to action Embedding type illuminator integrally renews.

It is a further object of the present invention to provide a kind of embedding type illuminator, it is configured such that light distribution range can be with It is easily adjusted by freehand manner, without special tool.

It is a still further object of the present invention to provide a kind of embedding type illuminators, wherein when light distribution range is changed, It can prevent the appearance of lighting device from being destroyed by tool.

Technical solution

To achieve the above object, the present invention provides a kind of embedding type illuminators comprising: it is mounted on the peace of ceiling Embedded enclosure in dress recess；It is coupled to LED (light emitting diode) module of embedded enclosure；LED module is connected to The connector of embedded enclosure；Embedded enclosure in the installation recess for being mounted on ceiling is fastened on the bottom of ceiling Bracket；And the reflector including having conical structure, wherein the top and bottom of the conical structure are open； The reflector is removably coupled to embedded enclosure, so that the emitting surface of LED module is arranged on the cone In the upper end of the opening of structure, light is launched into outside by the lower end of the opening of the conical structure.

The LED module may include: be equipped with the PCB (printed circuit board) of multiple LED thereon；It is attached to the diffusion of PCB Cover, the diffused reflector can uniformly diffuse the light emitted from LED；And include the conduct heat away that will be generated from LED to External radiator.

The embedded enclosure may include: the ring body with frame shape and predetermined thickness；And vertical projections, this is prominent Edge is prominent since then for the inner circumferential edge for rising along ring body.

The reflector may include: open upper end；Open lower end；Connect the side of open upper end and open lower end Wall；And dismountable mounting device, it is used to couple embedded enclosure for reflector in a manner of elastic and is dismountable In vertical projections.The flange table that open lower end may include the outer edge along open lower end and outer edge extends since then Face.

Dismountable mounting device may include: around the frame body of the side wall of reflector；With locking ontology, the lock It is prominent from frame body to determine ontology, and the curved surface including guidance surface and L shape.By the curved surface that will lock ontology It is locked in vertical projections, embedded enclosure can be couple by reflector.

In addition, from the frame body curved surface outstanding bending angle, can be one than from open lower end The bigger obtuse angle of the horizontal angle of horizontal flange surface outstanding.

Beneficial effect

In embedding type illuminator according to the present invention, it is only necessary to which light distribution model can be easily varied by renewing reflector It encloses, without integrally removing embedding type illuminator from ceiling.Thus, it is possible to be easy to carry out change lighting device The operation of light distribution range, because not needing individual dismantlement work.Therefore, the engineering cost for changing light distribution range can be by It significantly reduces.Furthermore, it is possible to prevent lighting device by tool damage, because reflector can be replaced manually, without special Tool.

Detailed description of the invention

Fig. 1 shows a kind of light distribution angle of embedding type illuminator including LED light and reflector with reflector song The situation of change of rate；

Fig. 2 is the perspective view according to the embedding type illuminator of one embodiment of the present of invention；

Fig. 3 is the decomposition perspective view according to the embedding type illuminator of the above embodiment of the present invention；

Fig. 4 is the partial exploded perspective view according to the LED module of the above embodiment of the present invention；

Fig. 5 is shown according to the abovementioned embodiments of the present invention, the process that reflector is separated from embedded enclosure；

Fig. 6,7 and 8 be according to the above embodiment of the present invention, light distribution range with the inner surface of the side wall of reflector song The schematic diagram of rate variation；

Fig. 9 is the reflector that white coating has been coated on inner surface according to the side wall of one embodiment of the present of invention The schematic diagram of light distribution range；

Figure 10 is shown according to one embodiment of present invention, and reflector is coupled to the process of embedded enclosure；

Figure 11 is the honeycomb formed on the inner surface of the side wall of reflector according to an embodiment of the invention View；

Figure 12 shows a variety of embedding type illuminators of all kinds of reflectors with different embodiment according to the subject invention Photo；

Figure 13 shows a kind of photo of product, which includes according to the present invention integrated with detachable peace The reflector of assembling device.

Optimal mode

Hereinafter, the embodiment of the present invention is described in detail with reference to the accompanying drawings.The invention is not limited to These lower embodiments, and various changes can be carried out.These embodiments are only used as example, so that those skilled in the art can be very It will be readily understood that the scope of the present invention.In all different figures, identical reference number is for referring to the same or similar portion Part.

Fig. 2 is the perspective view according to the embedding type illuminator of one embodiment of the present of invention.Fig. 3 is according to the present invention The decomposition perspective view of the embedding type illuminator of above-described embodiment.Fig. 4 is the LED module according to the above embodiment of the present invention Partial exploded perspective view.

Embedding type illuminator refer to be embedded in ceiling, the illumination for being illuminated to the region below ceiling Device.The reflector that the light emitted from LED module is embedded into formula lighting device is reflected towards the region below ceiling.

Embedding type illuminator according to an embodiment of the invention includes: including LED module 120, embedded enclosure 110, the embedded ontology 100 of connector 130 and bracket 140；With the reflector 200 for reflected light.Embedded ontology 100 wraps It includes: emitting the LED module 120 of light；Embedded enclosure 110 in the installation recess being formed on ceiling is set；To smallpox The embedded enclosure in installation recess in board bottom portion provides the bracket 140 of bearing；And LED module is connected to embedded outer The connector 130 of shell.Reflector 200 has conical structure, and the top and bottom of conical structure are open.LED module Emitting surface be arranged on reflector 200 conical structure opening upper end in.Embedded enclosure is arranged on circular cone On the lower end 250 of the opening of shape structure.Reflector 200 is removably coupled to embedded enclosure, will come from LED module The light of emitting surface be reflected towards the region below ceiling.

In one embodiment of the invention, the embedded ontology 100 of embedding type illuminator can be unarmed with reflector 200 By coupled to each other or be separated from each other, without special tool.When the distribution model for needing to change the light emitted from LED module 120 When enclosing, embedding type illuminator according to the present invention only needs for the reflector for determining light distribution range to be changed to new reflection Device, without being removed from ceiling by the device is whole, and in routine techniques, it is necessary to by embedding type illuminator it is whole from It removes and renews on ceiling.Hereafter the element of embedding type illuminator will be explained in more detail.

LED module 120 is the light source for including LED light and transmitting light.LED module 120 includes radiator and installs on it There is the PCB of multiple LED.The PCB 122 for being equipped with LED 123 is coupled on radiator 121.The LED 123 of PCB 122 is received Driving power simultaneously emits light.As needed, LED module 120 can be configured such that the PCB 122 for being equipped with LED122 and heat dissipation Device 121 is integrally-formed.Radiator 121 can use various shapes, for example, cylindrical body, rectangular cylinder shape, etc..In addition, As shown in the figure, multiple heat-dissipating fins are provided on the outer surface of radiator.The heat generated as a result, from light source can be by dissipating Hot fin is effectively dispersed to outside.LED module further includes diffused reflector 124, and diffused reflector 124 is on the direction of LED transmitting light It is attached to PCB, the light emitted from LED is uniformly diffused by diffused reflector 124.That is, diffused reflector 124 can be with The light emitted from LED module is set to become uniform.

Embedded enclosure 110 is the shell being installed in the installation recess being formed in ceiling.Installation recess refers to It is formed in ceiling, so that lighting device can be embedded in the recess in ceiling.Embedded enclosure 110 includes: with ring The ring body 112 of shape frame shape and predetermined thickness；With vertical projections 111, the protrusion is from the inner circular periphery of ring body It vertically protrudes at edge, and is contacted with the side wall of installation recess.

The internal diameter of ring body 112 is equal or approximate the diameter of installation recess, thus can be inserted into installation recess.Ring Shape ontology 112 has scheduled thickness, and its lower surface is exposed from the lower end of installation recess.In addition, ring body 112 Shape is corresponding with the shape of installation recess.If the installation recess formed in ceiling is circle, ring body 112 is circle Ring-shaped.If installation recess is rectangle, embedded enclosure also uses rectangular loop shape.Vertical projections 111 are from ring body Inner circumferential edge at vertically protrude.As a result, when embedded enclosure is inserted into installation recess, the outer surface of vertical projections It can be towards the side wall of installation recess.When reflector and embedded enclosure are assembled, 220 quilt of locking ontology of reflector 200 It is locked to the upper end of vertical projections 111.

Connector 130 is the bar that LED module is connected to embedded enclosure.LED module is by this connector by coupling Close embedded enclosure.The coupling of LED module to embedded enclosure can be by the way that LED module and embedded enclosure to be connected respectively to The mode of the first end and second end of connector is carried out.Connector can also using curved shape rather than it is rod-shaped.According to need It wants, connector 130 and LED module 120 can be integrally-formed with embedded enclosure 110.

Bottom of the bracket 140 embedded enclosure being arranged in the installation recess of ceiling to be fastened to ceiling. Bracket 140 is used to embedded enclosure being securely held to ceiling, to prevent from having been inserted into the installation recess of ceiling Undesirable from ceiling fall off occurs for embedded enclosure.Bracket can be realized by a variety of known methods.For example, bracket 140 can To be arranged on connector, and be configured as can it is well-known screw or unscrew bolt by way of to bracket height into Row adjustment.In the case, when screwing after being mounted on embedded enclosure in installation recess to bolt, it is connected to spiral shell The bracket 140 of bolt is moved along bolt thread 141, and thus its height (position) is lowered.Highly (position) bracket 140 for being lowered Lower end can to the neighbouring part of ceiling bottom apply active force.By the thrust, embedded enclosure can be by more reliably It is fixed in installation recess.In addition, the embedded enclosure being arranged in installation recess to be fastened to the bracket of the bottom of ceiling It can also be realized by other various ways.

Reflector 200 is used to reflect the light emitted from LED module.Reflector 200 is configured as removably coupling To embedded enclosure.For this purpose, reflector 200 has conical structure, the top and bottom of the conical structure are open. That is, reflector 200 is removably coupled to embedded enclosure 100, so that the emitting surface 120a of LED module It is arranged in the upper end 240 of the opening of conical structure, light can be launched into outside by open lower end 250.It sets as a result, The light in the LED module on the upper end of the opening of cone-shaped reflector 240 is set after by cone-shaped reflector, passes through circular cone The lower end 250 of the opening of shape reflector is launched into outside.In addition, the reflector that top and bottom open can use a variety of shapes Shape, including quadrangle taper, triangular pyramid, etc..

More specifically, the reflector 200 with conical structure include open upper end 240, open lower end 250, The side wall 230 of the upper end 240 of the opening and the lower end 250 of opening is connected, and for inciting somebody to action in a manner of elasticity and dismountable Reflector is coupled to the detachable mounting device 210 and 220 in the vertical projections 111 of embedded enclosure.

The detachable mounting device is convenient for reflector 200 being coupled to embedded enclosure 100 or from embedded enclosure 100 Remove reflector 200.For this purpose, the detachable mounting device includes the frame body 210 of the side wall around reflector 200 and from frame Locking ontology 220 outstanding on frame ontology 210.Each locking ontology 220 includes the curved surface 222 and guidance surface of L shape 221.By the way that the curved surface 222 for locking ontology is locked to vertical projections 111, reflector is coupled to embedded enclosure 100. Specifically, the guidance surface 221 for locking ontology can be along vertical projections when reflector 200 is pushed into embedded enclosure 100 111 side wall is mobile, and the curved surface 222 for being then within the end of corresponding guidance surface is locked to the vertical of embedded enclosure The upper end of protrusion 111.In such a way, reflector 200 can be easily mounted on embedded enclosure 100.Preferably, curved Angle between curved surface 222 and guidance surface 221 is less than 90 °.Each locking ontology 220 is by such as polycarbonate or ABS The plastics such as (acrylonitrile-butadiene-styrene (ABS)) resin are made, to have elasticity appropriate.In addition, locking ontology 220 can be with Reflector 200 is integrally-formed.

The curved angle of curved surface is preferably the angle of non-90 degree, so that when needed, even if can also using lesser power Easily make to be separated by the reflector 200 that L shape locking ontology 220 is coupled to embedded enclosure with embedded enclosure 100.For Realize above-mentioned purpose, curved surface 222 is configured as so that from frame body 210 curved surface 222 outstanding bending angle Degree is the obtuse angle bigger than the level angle from open lower end 250 horizontally flange surface 112 outstanding.As a result, by curved The obtuse angle of curved surface, when pulling down reflector with hand, although the locking ontology 220 of reflector has been locked to embedded enclosure Vertical projections 111, still easily reflector can be separated with embedded enclosure.

Fig. 5 is shown according to an embodiment of the invention, the process that reflector is separated from embedded enclosure.If user Pulling reflector using its (his or her) pronation, (as shown in Figure 5 a, the reflector is by by the locking sheet of reflector The mode that the curved surface of body 220 is locked on embedded enclosure 110 is coupled to embedded enclosure 110), then to be greater than 90 ° The curved surface of obtuse angle can easily be slided on embedded enclosure 110, as shown in Figure 5 b.As a result, such as Fig. 5 c Shown, reflector can be separated easily with embedded enclosure.

The lower end 250 of the opening of reflector includes the horizontal-extending flange surface of outer edge along open lower end 250 201.When reflector and embedded enclosure are assembled, the flange surface 201 of open lower end 250 and the ring of embedded enclosure The lower surface of shape ontology 110, which is formed, to be in close contact.

The emitting surface 120a of LED module is arranged in open upper end 240.The light emitted from LED module is passing through The lower end 250 of the opening of cone-shaped reflector first passes through cone-shaped reflector by before emitting downwards.Here, being sent out from LED module The light penetrated is reflected by the inner surface of the side wall of cone-shaped reflector, is then transmitted to open 250 lower section of lower end, is formed simultaneously One predetermined light distribution range.Light distribution range refers to the distribution that the light in a required space is emitted to from a light source State.Light distribution range changes with the curvature of the inner surface of the side wall of reflector.

Side wall 230 is the connection surface of connection open upper end and open lower end.The inner surface of side wall 230 has preparatory Determining curvature.

This curvature indicates the bending degree of the inner surface of the side wall 230 of reflector.Therefore, increasing curvature means side wall Inner surface is closer to plane.Reducing curvature then means that the bending degree of side wall inner surfaces increases.

According to the difference of curvature (i.e. the bending degree of the inner surface of the side wall 230 of expression reflector), sent out from emitting surface The distribution situation for the light penetrated can change.If this curvature is relatively large, the side wall of reflector will be closer to plane, to make The distribution of light is relatively small.In other words, convergence of rays coke is in a relatively small region, rather than scatters on a large scale. On the other hand, if this curvature is relatively small, the bending degree of the side wall 230 of reflector can be bigger, so that the distribution of light It is relatively large.In other words, light is scattered widely, rather than is concentrated.

Fig. 6,7 and 8 are to be become according to the light distribution range of the embodiment of the present invention with the curvature of the side wall inner surfaces of reflector The schematic diagram of change.In these three situations, Fig. 6 shows light distribution range when maximum curvature, and Fig. 7 is curvature when being second largest The case where, and light distribution range when Fig. 8 show curvature minimum.

Fig. 6 show curvature it is relatively large when light distribution range.The light distribution range of reflector in Fig. 6 is 20 °.Figure The curvature of reflector in 7 is less than the curvature of the reflector in Fig. 6, and the light distribution range of the reflector in Fig. 7 is 30 °, is greater than The light distribution range of Fig. 6, because of the side wall inner surfaces of the reflector in bending degree ratio Fig. 6 of the side wall inner surfaces of its reflector Bending degree it is big.The curvature of reflector in Fig. 8 is less than the curvature of the reflector in Fig. 7, and light distribution range is 60 °, than It is big in Fig. 7, because of the bending journey of the side wall inner surfaces of the reflector in bending degree ratio Fig. 7 of its reflector side wall inner surface Degree is big.Therefrom, it may be appreciated that being, with the reduction of curvature, light distribution range increases；And with the increase of curvature, light distribution model Enclosing can reduce.

As a result, according to an embodiment of the invention, several reflectors that inner surface has different curvature can be provided.Work as needs When realizing the first light distribution range, it is only necessary to by have corresponding to the first light distribution range first curvature the first reflector with it is embedding Enter formula encasement couples.When needing to change light distribution range, such as change into the second light distribution range, it is only necessary to will have and correspond to Second reflector of the torsion of the second light distribution range is coupled with embedded enclosure.

Figure 10 shows the process according to an embodiment of the invention that reflector is coupled to embedded enclosure.With It is recessed in ceiling after formation in the installation of installation lighting device, embedded enclosure is inserted into installation recess, such as Figure 10 a It is shown.Then, as shown in fig. lob, after embedded enclosure is already embedded in installation recess, it will be connected to and be arranged in connector On the bolt of bracket screw.Then, the height (position) for being connected to the bracket of bolt is lowered, and enables the lower end of bracket To being recessed on the bottom of ceiling with installation, adjacent part applies active force.By this thrust, embedded enclosure is fixed on In installation recess.Next, as shown in figure l0c, reflector is inserted into and is pushed into embedded enclosure, until by by reflector The curved surface of locking ontology be locked to embedded enclosure to until being secured to reflector on embedded enclosure.With Afterwards, as shown in fig. 10d, it the assembling of embedding type illuminator and is installed.Preferably, reflector, which is furnished with, is attached to reflector The protective cover 91 of open lower end 250.Protective cover 91 when reflector is embedded in and is mounted in embedded enclosure both for preventing Dust enters in reflector, is also used to prevent fingerprint or electrostatic.As a result, after reflector is installed, it can will protect Cover 91 is removed from reflector.For this purpose, protective cover 91 is made of transparent material (for example, PET), so that it can be by a kind of pressure-sensitive Binder is attached on reflector, and can easily be removed from reflector when needed.

In one embodiment, the inner surface of the side wall of reflector can be coated white coating, so that light distribution range can To be changed.For example, if applying white coating on the inner surface of the side wall of reflector, although the side wall curvature of reflector with The side wall curvature of reflector is identical in Fig. 8, and light distribution range can be extended to 75 °, as shown in Figure 9.White coating, which can be, to be used for The paint of resin (raw materials of plastics).

In one embodiment, reflector can be configured such that be formed in the inner surface of the side wall of reflector it is scheduled Pattern.Light distribution range can be changed in the formation of this pattern.Multiple patterns can be formed in the inner surface of the side wall of reflector.Example Such as, as shown in figure 11, the pattern formed in the inner surface of the side wall of reflector can be honeycomb pattern, be predefined with being formed Light distribution.

In addition, the reflector with predetermined curvature can have a variety of structures, such as focusing structure, the structure that narrows, extension knot Structure etc..According to purpose is used, embedded enclosure is couple by the reflector with corresponding construction.As reference, Figure 12 is shown The photo of a variety of embedding type illuminators of all kinds of reflectors with different embodiment according to the subject invention.

Meanwhile although detachable mounting device can be formed separately with reflector, it can also shape integrated with reflector At.As shown in figure 13, reflector and detachable mounting device can be used identical material integration and generate.For example, reflector and can The mold of reflector and detachable installation part can be corresponded to by integral injection molding by shape by dismantling mounting device.As ginseng It examines, Figure 13 shows a kind of photo of product, which includes the integrated reflector with detachable mounting device.

Although having been disclosed for illustration purpose and to the preferred embodiment of the present invention, those skilled in the art should can Understand, under conditions of without departing substantially from scope and spirit of the present invention disclosed in appended claims, it can be carried out various Change is installed additional and is substituted.

Claims (9)

1. a kind of embedding type illuminator, comprising:

The embedded enclosure being mounted in the installation recess of ceiling；

It is coupled to the LED light-emitting diode (LED) module of the embedded enclosure；

The light-emitting diode (LED) module is connected to the connector of the embedded enclosure；

The embedded enclosure in the installation for being mounted on ceiling recess is fastened to the bottom of the ceiling On bracket；And

Reflector with conical structure, wherein the top and bottom of the conical structure are open, the reflectors It is removably coupled to the embedded enclosure, so that the emitting surface of the light-emitting diode (LED) module is arranged on institute In the upper end for stating the opening of conical structure, light is launched into outside by the lower end of the opening of the conical structure；

Wherein, the embedded enclosure includes:

Ring body with frame shape and predetermined thickness；With

Along the inner circumferential edge of the ring body and from inner circumferential edge vertical projections outstanding；

The reflector includes:

The upper end of the opening；

The lower end of the opening；

Connect the side wall of the upper end of the opening and the lower end of the opening；And

Dismountable mounting device, be used for it is by elasticity and dismountable in a manner of the reflector is coupled to it is described embedded The vertical projections of shell；

The lower end of the opening includes flange surface, and the flange surface is along the outer edge of the lower end of the opening and from described The outer edge of open lower end extends；

Wherein dismountable mounting device includes:

Around the frame body of the side wall of the reflector；With

It is prominent from the frame body, and the locking ontology of the curved surface including guidance surface and L shape,

Wherein by the way that the curved surface of the locking ontology is locked to the vertical projections, it is coupled the reflector To the embedded enclosure；

Wherein, from the frame body curved surface outstanding bending angle, be than the lower end water from the opening The bigger obtuse angle of the horizontal angle of the level land flange surface outstanding.

2. embedding type illuminator as described in claim 1 further includes protective cover, the protective cover removably adheres to To the lower end of the opening of the reflector, to cover the lower end of the opening.

3. embedding type illuminator as described in claim 1, wherein the light-emitting diode (LED) module includes:

The PCB printed circuit board of multiple light emitting diodes is installed thereon；

It is attached to the diffused reflector of the printed circuit board, the diffused reflector overflows the light issued from the light emitting diode equably It penetrates；And

It will be from the conduct heat away that the light emitting diode generates to external radiator.

4. embedding type illuminator as described in claim 1, wherein the curvature of the inner surface of the side wall of different reflectors is not Together.

5. embedding type illuminator as claimed in claim 4, wherein

When the curvature of the inner surface of the side wall of the reflector reduces, the light distribution of the light-emitting diode (LED) module Range increases, and

When the curvature of the inner surface of the side wall of the reflector increases, the light distribution of the light-emitting diode (LED) module Range reduces.

6. embedding type illuminator as described in claim 1, wherein the inner surface of the side wall is coated white coating.

7. such as embedding type illuminator described in any one of claims 1 to 6, wherein the shape on the inner surface of the side wall At predetermined pattern.

8. embedding type illuminator as claimed in claim 7, wherein the pattern includes honeycomb pattern.

9. embedding type illuminator as described in claim 1, wherein the reflector and dismountable mounting device by Single mold integral injection molding.