CN201487620U - Luminous structure with annular luminous effect - Google Patents

Abstract

The utility model discloses a luminous structure with an annular luminous effect, comprising a conductive module, a power module, a luminous module, a light guide module and a seal cover module, wherein the conductive module is provided with a conductive base and an insulating shell arranged on the conductive base; the power module is arranged in the insulating shell and is provided with a power supply and a transformer, wherein the power supply is electrically connected with the conductive base, and the transformer is electrically connected with the power supply; the luminous module is arranged in the insulating shell and is electrically connected with the power supply; the light guide module is provided with a hollow light guide body and a reflective coating which is formed on the inner surface of the hollow light guide body; and the seal cover module is provided with a seal cover body arranged on the top end of the hollow light guide body.

Description

Ray structure with annular illumination effect

Technical field

The utility model relates to a kind of ray structure, refers to a kind of ray structure with annular illumination effect especially.

Background technology

The invention of electric light can be described as the life style that has changed the whole mankind up hill and dale, if our life does not have electric light, when night or weather conditions are not good, the work of all will be stopped; If be subject to illumination, building construction mode or human life style are thoroughly changed, therefore the whole mankind will can't improve, the age that stays on and fall behind.

Be with, today employed on the market lighting apparatus, for example: fluorescent lamp, tengsten lamp even the more popular till now energy-saving bulb of being accepted are widely used in the middle of the daily life all.Yet this type of electric light has fast, the high power consumption of optical attenuation mostly, be easy to generate high heat, the life-span is short, frangible or shortcoming such as difficult recovery.Moreover; the color rendering of traditional fluorescent lamp is relatively poor; so produce pale light and be out of favour; in addition because principle of luminosity is 120 times quick flowing in a second of fluorescent tube two utmost point electronics; when firm unlatching and electric current instability, cause flicker easily; this phenomenon is considered to cause the arch-criminal of domestic high rate of myopia usually; but this problem can solve by the fluorescent tube of repacking with " high-frequency electrical minor stabilizer "; its high-frequency electrical minor stabilizer not only can fall 20% to the power consumption of traditional fluorescent lamp again; when lighting a lamp because of high frequency moment again; the light wave of output is highly stable; therefore almost flicker free takes place; and when power supply voltage variation or fluorescent tube are in low temperature, be not easy to produce flicker, this helps the protection of eyesight.Yet the stabilizer of general energy-saving bulb and power saving fluorescent lamps all is fixed, if wash in a pan the words of trade-in, must connect stabilizer abandons together, moreover,, still inevitably environment is caused serious pollution after discarding because of it contains the coating of mercury no matter how energy-conservation fluorescent tube is again.

Can improving of the above-mentioned disappearance of the utility model people thoughts, and according to the correlation experience of being engaged in for many years in this respect, the concentrated observation and research, and cooperate the utilization of scientific principle, and propose a kind of reasonable in design and effectively improve the utility model of above-mentioned disappearance.

Summary of the invention

Main purpose of the present utility model is to provide a kind of ray structure with annular illumination effect.The utility model is by the cooperation of a hollow light guide body and a light emitting module, to produce the illumination effect of annular.

In order to solve the problems of the technologies described above, according to wherein a kind of scheme of the present utility model, provide a kind of ray structure with annular illumination effect, it comprises: a conductive module, a power module, a light emitting module, a light guide module, an and capping module.Wherein, this conductive module has a conductive base and and is arranged at insulation shell on this conductive base.This power module is arranged in this insulation shell, and wherein this power module has the transformer that a power supply and that is electrically connected at this conductive base is electrically connected at this power supply.This light emitting module is arranged in this insulation shell and is electrically connected at this power supply.This light guide module has the reflectance coating that a hollow light guide body and forms in the inner surface of this hollow light guide body.This capping module has a capping body that is arranged at this hollow light guide body top.By this, the light that this light emitting module produced is invested this hollow light guide body, and this light is by the guiding of this hollow light guide body and the reflection of this reflectance coating, so that this hollow light guide body produces the illumination effect of annular.

Therefore, the beneficial effects of the utility model are: except this light passes through the guiding of this hollow light guide body and the reflection of this reflectance coating, so that this hollow light guide body produces outside the feature of annular illumination effect, this light also can be by being positioned at this capping module bottom the secondary reflection again in reflecting layer, with the illumination effect that adds the strong production annular or pass this capping module, with the effect that produces light projector upwards and expand light.

In order further to understand the utility model is to reach technology, means and the effect that predetermined purpose is taked, see also following about detailed description of the present utility model and accompanying drawing, believe the purpose of this utility model, feature and characteristics, go deep into and concrete understanding when getting one thus, yet appended graphic reference and the explanation usefulness of only providing not is to be used for the utility model is limited.

Description of drawings

Figure 1A is the part perspective exploded view of first embodiment that the utlity model has the ray structure of annular illumination effect;

Figure 1B is the section combination schematic diagram of first embodiment that the utlity model has the ray structure of annular illumination effect;

Fig. 2 A is the part perspective exploded view of second embodiment that the utlity model has the ray structure of annular illumination effect;

Fig. 2 B is the section combination schematic diagram of second embodiment that the utlity model has the ray structure of annular illumination effect;

Fig. 3 A is the part perspective exploded view of the 3rd embodiment that the utlity model has the ray structure of annular illumination effect;

Fig. 3 B is the section combination schematic diagram of the 3rd embodiment that the utlity model has the ray structure of annular illumination effect;

Fig. 4 A is the user mode schematic diagram of another kind of capping body that the utlity model has the ray structure of annular illumination effect;

Fig. 4 B is the user mode schematic diagram of another kind of capping body that the utlity model has the ray structure of annular illumination effect;

Fig. 4 C is the user mode schematic diagram of another kind of capping body that the utlity model has the ray structure of annular illumination effect;

Fig. 4 D is the user mode schematic diagram of another kind of capping body that the utlity model has the ray structure of annular illumination effect;

Fig. 5 is the side-looking combination schematic diagram of the 4th embodiment that the utlity model has the ray structure of annular illumination effect;

Fig. 6 is the side-looking generalized section of another kind of light guide module that the utlity model has the ray structure of annular illumination effect;

Fig. 7 is the perspective exploded view of another kind of light guide module that the utlity model has the ray structure of annular illumination effect; And

Fig. 8 is the perspective exploded view of another kind of light guide module that the utlity model has the ray structure of annular illumination effect.

Wherein Reference numeral is:

[first embodiment]

Conductive module 1a conductive base 10a

Base body 100a

Screw thread 101a

Conductive body 102a

Insulation shell 11a

Power module 2a power supply 20a

Transformer 21a

Light emitting module 3a substrate 30a

Light-emitting component 31a

Reflecting layer 32a

Light guide module 4a hollow light guide body 40a

Annular groove 400a

Hollow bulb 401a

Reflectance coating 41a

Capping module 5a capping body 50a

Light tight flat part 500a

Holding division 501a

Reflecting layer 502a

Transparent enclosure colloid 6a

Light La

[second embodiment]

Conductive module 1b

Power module 2b

Light emitting module 3b light-emitting component 31b

Light guide module 4b hollow light guide body 40b

Groove 400b

Capping module 5b

Transparent enclosure colloid 6b

[the 3rd embodiment]

Conductive module 1c

Power module 2c

Light emitting module 3c

Light guide module 4c hollow light guide body 40c

Capping module 5c

Transparent enclosure colloid 6c

[using another kind of capping body]

Hollow light guide body 40d hollow bulb 401d

Reflectance coating 41d

Capping body 50d printing opacity flat part 500d

Holding division 501d

Light Ld

[using another kind of capping body]

Hollow light guide body 40e outer surface 402e

Reflectance coating 41e

The light tight flat part 500e of capping body 50e

Holding division 501e

Reflecting layer 502e

Light Le

[using another kind of capping body]

Capping body 50f printing opacity flat part 500f

Holding division 501f

Hollow light guide body 40f outer surface 402f

Reflectance coating 41f

Light Lf

[using another kind of capping body]

Hollow light guide body 40g hollow bulb 401g

Reflectance coating 41g

Capping body 50g printing opacity lens section 500g

Cambered surface 5000g

Holding division 501g

Light Lg

[using another kind of conductive base]

Conductive base 10h base body 100h

Conductive connecting pin 101h

[using another kind of light guide module]

Light guide module 4i hollow light guide body 40i

Spread powder 403i

[using another kind of light guide module]

Light guide module 4j hollow light guide body 40j

Light guide body 401j

Light guide body 402j

[using another kind of light guide module]

Light guide module 4k hollow light guide body 40k

Light guide body 401k

Light guide body 402k

Light guide body 403k

The specific embodiment

See also shown in Figure 1A and Figure 1B, the utility model first embodiment provides a kind of ray structure with annular illumination effect, and it comprises: a conductive module 1a, a power module 2a, a light emitting module 3a, a light guide module 4a, an and capping module 5a.

Wherein, this conductive module 1a has a conductive base 10a and and is arranged at insulation shell 11a on this conductive base 10a.In addition, this conductive base 10a have a base body 100a, be formed in this base body 100a outer surface screw thread 101a, and one be arranged at this base body 100a lower end and with this screw thread 101a conductive body 102a insulated from each other.

Moreover, this power module 2a is arranged in this insulation shell 11a, and wherein this power module 2a has the transformer 21a (for example EI type transformer) that a power supply 20a and who is electrically connected at the conductive body 102a of this conductive base 10a is electrically connected at this power supply 20a.

In addition, this light emitting module 3a is arranged in this insulation shell 11a and is electrically connected at this power supply 20a, and wherein this light emitting module 3a has a substrate 30a, a plurality ofly is arranged at light-emitting component 31a on this substrate 30a electrically, and one is formed on the part surface of this substrate 30a and the reflecting layer 32a between these light-emitting components 31a.

In addition, this light guide module 4a has the reflectance coating 41a that a hollow light guide body 40a and forms in the inner surface of this hollow light guide body 40A, wherein this hollow light guide body 40a is made by transparent material, and this hollow light guide body 40a is made up of an one-body molded institute of light guide body.

With the utility model first embodiment, the bottom surface of this hollow light guide body 40a has an annular groove 400a, and this light emitting module 3a has a plurality of light-emitting component 31a that are placed in this annular groove 400a.In addition, the utility model first embodiment further comprises: one is filled in this annular groove 400a to cover the transparent enclosure colloid 6a of these light-emitting components 31a.

Moreover this capping module 5a has a capping body 50a who is arranged at this hollow light guide body 40a top.Wherein, this capping body 50a has a light tight flat part 500a and a holding division 501a who extends from a part of bottom surface of this light tight flat part 500a downwards, this holding division 501a is fastened in the hollow bulb 401a of this hollow light guide body 40a, and all the other bottom surfaces of this light tight flat part 500a abut against the end face of this hollow light guide body 40a.In addition, coating one deck reflecting layer 502a on all the other bottom surfaces of this light tight flat part 500a.

By this, the light La that this light emitting module 3a is produced invests this hollow light guide body 40a, and this light La is by the guiding of this hollow light guide body 40a and the reflection of this reflectance coating 41a, so that this hollow light guide body 40a produces the illumination effect of annular.Moreover, except this light La passes through the guiding of this hollow light guide body 40a and the reflection of this reflectance coating 41a, so that this hollow light guide body 40a produces outside the feature of annular illumination effect, this light La also can be by the secondary reflection again of this reflecting layer 502a, to add the illumination effect of strong production annular.

See also shown in Fig. 2 A and Fig. 2 B, the utility model second embodiment provides a kind of ray structure with annular illumination effect, and it comprises: a conductive module 1b, a power module 2b, a light emitting module 3b, a light guide module 4b, an and capping module 5b.By graphic more as can be known, the difference of second embodiment and the first embodiment maximum is: the bottom surface of this hollow light guide body 40b has a plurality of groove 400b that are arranged in around shape, and this light emitting module 3B has a plurality of corresponding respectively these grooves 400b and is placed in the interior light-emitting component 31b of these grooves 400b respectively.In addition, the utility model second embodiment further comprises: a plurality of being filled in respectively in these grooves 400b to cover the transparent enclosure colloid 6b of these light-emitting components 31b.

See also shown in Fig. 3 A and Fig. 3 B, the utility model the 3rd embodiment provides a kind of ray structure with annular illumination effect, and it comprises: a conductive module 1c, a power module 2c, a light emitting module 3c, a light guide module 4c, an and capping module 5c.By graphic more as can be known, the difference of the 3rd embodiment and first and second embodiment maximum is: the utility model the 3rd embodiment further comprises: be arranged at the bottom surface of this hollow light guide body 40c and the transparent enclosure colloid 6c between this light emitting module 3c.In other words, this transparent enclosure colloid 6c directly overlays on this light emitting module 3c, between the bottom surface and this light emitting module 3c that are formed at this hollow light guide body 40c.

See also shown in Fig. 4 A, the utility model provides another kind of capping body 50d, it has a printing opacity flat part 500d and a holding division 501d who extends from a part of bottom surface of this printing opacity flat part 500d downwards, this holding division 501d is fastened in the hollow bulb 401d of this hollow light guide body 40d, and all the other bottom surfaces of this printing opacity flat part 500d abut against the end face of this hollow light guide body 40d.By this, the light Ld that this light emitting module produced invests this hollow light guide body 40d, except this light Ld passes through the guiding of this hollow light guide body 40d and the reflection of this reflectance coating 41d, so that this hollow light guide body 40d produces outside the feature of annular illumination effect, this light Ld also can pass this printing opacity flat part 500d, to produce the upwards effect of light projector.

See also shown in Fig. 4 B, the utility model provides another kind of capping body 50e, it has a light tight flat part 500e and a holding division 501e who extends from this light tight flat part 500e on every side downwards, this holding division 501e is fastened on the outer surface 402e of this hollow light guide body 40e, and the bottom surface of this light tight flat part 500e abuts against the end face of this hollow light guide body 40e.In addition, coating one deck reflecting layer 502e on the bottom surface of this light tight flat part 500e.By this, the light Le that this light emitting module produced invests this hollow light guide body 40e, except this light Le passes through the guiding of this hollow light guide body 40e and the reflection of this reflectance coating 41e, so that this hollow light guide body 40e produces outside the feature of annular illumination effect, this light Le also can be by the secondary reflection again of this reflecting layer 502e, to add the illumination effect of strong production annular.

See also shown in Fig. 4 C, the utility model provides another kind of capping body 50f, it has a printing opacity flat part 500f and a holding division 501f who extends from this printing opacity flat part 500f on every side downwards, this holding division 501f is fastened on the outer surface 402f of this hollow light guide body 40f, and the bottom surface of this printing opacity flat part 500f abuts against the end face of this hollow light guide body 40f.By this, the light Lf that this light emitting module produced invests this hollow light guide body 40f, except this light Lf passes through the guiding of this hollow light guide body 40f and the reflection of this reflectance coating 41f, so that this hollow light guide body 40f produces outside the feature of annular illumination effect, this light Lf also can pass this printing opacity flat part 500f, to produce the upwards effect of light projector.

See also shown in Fig. 4 D, the utility model provides another kind of capping body 50g, it has a printing opacity lens section 500g and a holding division 501g who extends from a part of bottom surface of this printing opacity lens section 500g downwards, the end face of this printing opacity lens section 500g is one to have the cambered surface 5000g of a predetermined bend radius, this holding division 501g is fastened in the hollow bulb 401g of this hollow light guide body 40g, and all the other bottom surfaces of this printing opacity lens section 500g abut against the end face of this hollow light guide body 40g.By this, the light Lg that this light emitting module produced invests this hollow light guide body 40g, except this light Lg passes through the guiding of this hollow light guide body 40g and the reflection of this reflectance coating 41g, so that this hollow light guide body 40g produces outside the feature of annular illumination effect, this light Lg also can pass this printing opacity lens section 500g, to produce the effect that makes progress light projector and expand light.

See also shown in Figure 5ly, the utility model can use another kind of conductive base 10h, and it has a base body 100h and at least two conductive connecting pin 101h that extend from this base body 100h downwards.

See also shown in Figure 6ly, the utility model can use another kind of light guide module 4i, and it has a hollow light guide body 40i.The inside of this hollow light guide body 40i adds 5/1000ths to centesimal spread powder 403i, so that this hollow light guide body 40i (for example: add spread powder injection molding again in acryl presents vaporific effect, make the acryl of otherwise transparent present vaporific effect, to reach the uniform effect of illumination), and can make light be presented on equably on the surface of this hollow light guide body 40i, so that use in this hollow light guide body 40i lamp source that can be used as.

See also shown in Figure 7ly, the utility model provides another kind of light guide module 4j, and it has a hollow light guide body 40j, and this hollow light guide body 40j is made up of two light guide body (401j, 402j).

See also shown in Figure 8ly, the utility model provides another kind of light guide module 4k, and it has a hollow light guide body 40k, and this hollow light guide body 40k is made up of three light guide body (401k, 402k, 403k).

By above-mentioned Fig. 7 and Fig. 8 as can be known, the hollow light guide body of any embodiment of the utility model can be made up of the polylith light guide body.Therefore; disclosed two light guide body of Fig. 7 and disclosed three light guide body of Fig. 8 just are used for for example; the hollow light guide body of forming by a complete light guide body or so long as the hollow light guide body of being made up of the light guide body more than two is all the category that the utility model is protected for example.

Though the utility model discloses as above with a preferred embodiment; right its is not in order to limit the utility model; under the situation that does not deviate from the utility model spirit and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the utility model.

Claims (17)

1. the ray structure with annular illumination effect is characterized in that, comprising:

One conductive module, it has a conductive base and and is arranged at insulation shell on this conductive base;

One power module, it is arranged in this insulation shell, and wherein this power module has the transformer that a power supply and that is electrically connected at this conductive base is electrically connected at this power supply;

One light emitting module, it is arranged in this insulation shell and is electrically connected at this power supply;

One light guide module, it has the reflectance coating that a hollow light guide body and forms in the inner surface of this hollow light guide body; And

One capping module, it has a capping body that is arranged at this hollow light guide body top;

By this, the light that this light emitting module produced is invested this hollow light guide body, and this light is by the guiding of this hollow light guide body and the reflection of this reflectance coating, so that this hollow light guide body produces the illumination effect of annular.

2. the ray structure with annular illumination effect as claimed in claim 1 is characterized in that: this hollow light guide body is formed by one or more transparent light guide body or by one or more transparent light guide body that contains spread powder.

3. the ray structure with annular illumination effect as claimed in claim 1 is characterized in that: the bottom surface of this hollow light guide body has an annular groove, and this light emitting module has a plurality of light-emitting components that are placed in this annular groove.

4. the ray structure with annular illumination effect as claimed in claim 3 is characterized in that, further comprises: one is filled in this annular groove to cover the transparent enclosure colloid of these light-emitting components.

5. the ray structure with annular illumination effect as claimed in claim 1, it is characterized in that: the bottom surface of this hollow light guide body has a plurality of grooves that are arranged in around shape, and this light emitting module has a plurality of corresponding respectively these grooves and is placed in the interior light-emitting component of these grooves respectively.

6. the ray structure with annular illumination effect as claimed in claim 5 is characterized in that, further comprises: a plurality of being filled in respectively in these grooves to cover the transparent enclosure colloid of these light-emitting components.

7. the ray structure with annular illumination effect as claimed in claim 1 is characterized in that, further comprises: be arranged at the bottom surface of this hollow light guide body and the transparent enclosure colloid between this light emitting module.

8. the ray structure with annular illumination effect as claimed in claim 1, it is characterized in that: this capping body has a light tight flat part and a holding division that extends from a part of bottom surface of this light tight flat part downwards, this holding division is fastened in the hollow bulb of this hollow light guide body, and all the other bottom surfaces of this light tight flat part abut against the end face of this hollow light guide body.

9. the ray structure with annular illumination effect as claimed in claim 8 is characterized in that: on all the other bottom surfaces of this light tight flat part coating one deck reflecting layer.

10. the ray structure with annular illumination effect as claimed in claim 1, it is characterized in that: this capping body has a printing opacity flat part and a holding division that extends from a part of bottom surface of this printing opacity flat part downwards, this holding division is fastened in the hollow bulb of this hollow light guide body, and all the other bottom surfaces of this printing opacity flat part abut against the end face of this hollow light guide body.

11. the ray structure with annular illumination effect as claimed in claim 1, it is characterized in that: this capping body has a light tight flat part and a holding division that extends from this light tight flat part on every side downwards, this holding division is fastened on the outer surface of this hollow light guide body, and the bottom surface of this light tight flat part abuts against the end face of this hollow light guide body.

12. the ray structure with annular illumination effect as claimed in claim 11 is characterized in that: on the bottom surface of this light tight flat part coating one deck reflecting layer.

13. the ray structure with annular illumination effect as claimed in claim 1, it is characterized in that: this capping body has a printing opacity flat part and a holding division that extends from this printing opacity flat part on every side downwards, this holding division is fastened on the outer surface of this hollow light guide body, and the bottom surface of this printing opacity flat part abuts against the end face of this hollow light guide body.

14. the ray structure with annular illumination effect as claimed in claim 1, it is characterized in that: this capping body has a printing opacity lens section and a holding division that extends from a part of bottom surface of this printing opacity lens section downwards, the end face of this printing opacity lens section is one to have the cambered surface of a predetermined bend radius, this holding division is fastened in the hollow bulb of this hollow light guide body, and all the other bottom surfaces of this printing opacity lens section abut against the end face of this hollow light guide body.

15. the ray structure with annular illumination effect as claimed in claim 1 is characterized in that: this light emitting module has a substrate, a plurality ofly is arranged at light-emitting component on this substrate electrically, and one is formed on the part surface of this substrate and the reflecting layer between these light-emitting components.

16. the ray structure with annular illumination effect as claimed in claim 1 is characterized in that: this conductive base have a base body, be formed in this this external surface of base screw thread, and one be arranged at this base body lower end and the conductive body insulated from each other with this screw thread.

17. the ray structure with annular illumination effect as claimed in claim 1 is characterized in that: this conductive base has a base body and at least two conductive connecting pins that extend from this base body downwards.

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