CN204062535U - Led energy-saving lamp - Google Patents

Abstract

The utility model is about a kind of LED energy-saving lamp, wherein, this LED energy-saving lamp is made up of a lamp socket, many fluorescent tubes, multiple (embedded) substrate and multiple LED element, have simple structure, low cost of manufacture, with the advantage such as high color rendering.In addition, because LED energy-saving lamp of the present utility model does not comprise mercury and ultraviolet etc. can produce injury material to human body, therefore can not shed the materials such as mercury gas, ultraviolet, electromagnetic wave, and guarantee can not damage human body.

Description

LED energy-saving lamp

Technical field

The utility model about a kind of LED lamp, espespecially in order to a kind of LED energy-saving lamp of alternative traditional energy-saving lamp.

Background technology

Bulb, i.e. incandescent lamp, its illumination mode is, by the mode of energising, the tungsten filament be arranged in bulb is heated to incandescent state.Usually, the bulb of incandescent lamp is manufactured by glass, and tungsten filament is arranged among the vacuum space that glass bulb surrounds, and then passes into inert gas among this vacuum space to prevent tungsten filament to be oxidized under the condition of high temperature.Incandescent lamp is a kind of light fixture wasted energy very much, and reason is that incandescent lamp can become useless heat energy the electric energy conversion of about 90%, on only have the electric energy of few part (about 10%) to contribute to light that incandescent lamp sends.Therefore, incandescent lamp is little by little eliminated use, and is namely referred to as electricity-saving lamp in order to the light replacing incandescent lamp.

Refer to Fig. 1, a kind of stereogram of electricity-saving lamp.As shown in Figure 1, electricity-saving lamp 1 ' is also called compact fluorescent lamp, and it is made up of a housing 11 ', many fluorescent tubes 12 ' and a Rotatable lamp holder 13 ', wherein, is provided with filament in fluorescent tube 12 ', and filament is coated with some electronic powders; In addition, be more filled with mercury (being namely commonly called as mercury) in fluorescent tube 12 ', and fluorescent tube 12 ' is coated with fluorescent material simultaneously.So, when filament electrified regulation, electronic powder just disengages the electron stream with certain speed and energy, and electron stream can be beaten on mercury, mercury atom is excited, discharges ultraviolet light simultaneously, and fluorescent material just can send the light being applicable to throw light on after being subject to exciting of ultraviolet light.

Although above-mentioned electricity-saving lamp 1 ' has the advantage of energy saving; But the creator of this case finds after studying for a long period of time, existing electricity-saving lamp 1 ' shows the defect in several use:

1. electricity-saving lamp in use, can produce electromagnetic wave slightly and microwave, and under Long-Time Service, these electromagnetic waves and microwave may damage human body;

2. electricity-saving lamp comprise mercury and ultraviolet etc. can to human body produce injury material; And also have many Chinese workmans among reality because manufacture electricity-saving lamp and mercury poisoning;

3. color rendering is lower: the color rendering of incandescent lamp and Halogen lamp LED is 100, and performance is perfect, but the color rendering of electricity-saving lamp is only between 80 to 90 mostly;

4. the manufactured materials based on electricity-saving lamp comprises the multiple materials such as mercury, electronic powder, filament, fluorescent material, its manufacturing cost effectively cannot be forced down, be inconjunction with and cause its price higher.

Therefore, designer of the present utility model because existing electricity-saving lamp still has many shortcomings with not enough, therefore does one's utmost in addition study and composition, has has finally researched and developed a kind of LED energy-saving lamp of the present utility model.

Utility model content

Main purpose of the present utility model, is to provide a kind of LED energy-saving lamp, is made up of, had the advantages such as simple structure, low cost of manufacture and high color rendering a lamp socket, many fluorescent tubes, multiple (embedded) substrate and multiple LED element.In addition, because LED energy-saving lamp of the present utility model does not comprise mercury and ultraviolet etc. can produce injury material to human body, therefore can not shed the materials such as mercury gas, ultraviolet, electromagnetic wave, and guarantee can not damage human body.

In order to reach the purpose of this utility model, the utility model people provides a kind of LED energy-saving lamp, comprising:

One lamp socket, at least have one and electrically hold and a lighting tube combination end, wherein, this lighting tube combination end inside is provided with a LED drive module, and this LED drive module couples this electricity connection end; Further, the surface of this lighting tube combination end is provided with multiple tube jack, and the bottom of each tube jack is formed with one first fixed groove;

Many fluorescent tubes, are assembled to this lighting tube combination end by inserting the mode of the plurality of tube jack respectively;

Multiple substrate, is arranged at the inwall of these many fluorescent tubes respectively, and the root edge of this substrate embeds among this first fixed groove in this tube jack; Wherein, the surface of each substrate is provided with at least one line layer, and this line layer is electrically connected at this LED drive module; And

Multiple LED element, is arranged on multiple substrate, and is electrically connected with those line layers, and wherein, this LED drive module controls the luminescence of those LED element through line layer.

LED energy-saving lamp as above, also comprise a shock sensor, to be placed within this lamp socket and to couple this LED drive module, wherein, when this shock sensor senses this LED energy-saving lamp by vibrations to a certain extent, namely this shock sensor disconnects the electric connection of this LED drive module and the plurality of LED element.

LED energy-saving lamp as above, one end of this fluorescent tube is formed with an opening, and its inwall or outer wall are coated with an optics diffusion coating.

LED energy-saving lamp as above, the two ends of this fluorescent tube are formed with an opening respectively, and wherein an opening inserts this tube jack, and another opening is then assembled with an end cap.

LED energy-saving lamp as above, wherein, the inside of this end cap is provided with one second fixed groove, and the apical margin for this substrate embeds.

LED energy-saving lamp as above, two ends are formed with this fluorescent tube of this opening respectively, and its inwall or outer wall are coated with an optics diffusion coating.

LED energy-saving lamp as above, wherein, this fluorescent tube is full glass lamp or plastic cement fluorescent tube.

LED energy-saving lamp as above, described full glass lamp is light diffusing glass fluorescent tube or clear glass fluorescent tube.

LED energy-saving lamp as above, wherein, described plastic cement fluorescent tube is that heat conduction plastic cement and light spread plastic cement Combined lamp tube, light spreads plastic cement fluorescent tube or perspex fluorescent tube.

LED energy-saving lamp as above, also comprises multiple explosive-proof protector films, is attached at the outer surface of these many fluorescent tubes respectively, with coated and protect this many fluorescent tubes.

LED energy-saving lamp as above; wherein, this explosive-proof protector film be light diffusion explosive-proof protector film, transparent explosion-proof diaphragm, light diffusion pyrocondensation mantle, transparent pyrocondensation mantle, be sprayed into pattern light diffusing protection film, be sprayed into pattern transparent protective film, impregnation formation type light diffusing protection film or impregnation formation type transparent protective film.

LED energy-saving lamp as above, wherein, this substrate being formed with this line layer is aluminium base, printed substrate, glass-fiber-plate, copper base or ceramic substrate.

LED energy-saving lamp as above, wherein, the inwall of this fluorescent tube is formed with a substrate fastening structure and is placed in this fluorescent tube for this substrate.

LED energy-saving lamp as above, wherein, this fluorescent tube is be combined with each other by a first half fluorescent tube and a Lower Half fluorescent tube and forms, and this Lower Half fluorescent tube has this substrate fastening structure and a radiator structure.

LED energy-saving lamp as above, wherein, this is electrically held is a Rotatable lamp holder.

LED energy-saving lamp as above, wherein, this is electrically held has two electric terminals, in order to be electrically connected with an external power source.

Compared with prior art, the beneficial effects of the utility model are:

1., compared to traditional electricity-saving lamp, this LED energy-saving lamp is made up of a lamp socket 11, many fluorescent tubes 12, multiple (embedded) substrate 13 and multiple LED element 14, have simple structure, low cost of manufacture, with the advantage such as high color rendering;

2., compared to traditional electricity-saving lamp, this LED energy-saving lamp is made up of a lamp socket 11, many fluorescent tubes 12, multiple (embedded) substrate 13 and multiple LED element 14, have the advantages such as simple structure, low cost of manufacture and high color rendering '

3. in addition, the utility model more arranges the shock sensor 16 being coupled to this LED drive module 15 in this lamp socket 11; Wherein, when this shock sensor 16 senses this LED energy-saving lamp by vibrations to a certain extent, namely this shock sensor 16 disconnects the electric connection of this LED drive module 15 and the plurality of LED element 14; Design like this, in order to the same time on the ground that drops in LED energy-saving lamp 1 just cuts off the electricity supply, and then the LED energy-saving lamp 1 avoiding user to pick up dropping gets an electric shock injured because of carelessness.

Accompanying drawing explanation

Fig. 1 is a kind of stereogram of electricity-saving lamp;

Fig. 2 is the stereogram of a kind of LED energy-saving lamp of the present utility model;

Fig. 3 is the explosive view of LED energy-saving lamp;

Fig. 4 is the stereogram of a fluorescent tube of LED energy-saving lamp;

Fig. 5 is the fluorescent tube of LED energy-saving lamp and the stereogram of substrate;

Fig. 6 is the stereogram that aspect implemented by second of fluorescent tube;

Fig. 7 A is the stereogram of many fluorescent tubes of LED lamp;

Fig. 7 B is the stereogram of many fluorescent tubes of LED lamp;

Fig. 7 C is the stereogram of many fluorescent tubes of LED lamp;

Fig. 7 D is the stereogram of many fluorescent tubes of LED lamp;

Fig. 8 A is the stereogram that aspect implemented by second of the lamp socket of LED lamp; And

Fig. 8 B is the stereogram that aspect implemented by the 3rd of the lamp socket of LED lamp.

Reference numeral:

1:LED energy-saving lamp

11: lamp socket 12: fluorescent tube

13: substrate 14:LED element

111: electrically hold 112: lighting tube combination end

15:LED driver module 16: shock sensor

1121: tube jack 1122: fixed groove

121: substrate fastening structure 131: line layer

12U: first half fluorescent tube 12D: Lower Half fluorescent tube

122: radiator structure 12C: end cap

124:U shape end cap

< prior art >

1 ': electricity-saving lamp

11 ': housing 12 ': fluorescent tube

13 ': Rotatable lamp holder

Detailed description of the invention

In order to a kind of LED energy-saving lamp that the utility model proposes more clearly can be described, below will coordinate graphic, elaborate preferred embodiment of the present utility model.

Refer to Fig. 2 and Fig. 3, the stereogram of a kind of LED energy-saving lamp of the present utility model and its explosive view.As shown in Figure 2 and Figure 3, LED energy-saving lamp 1 of the present utility model comprises: a lamp socket 11, many fluorescent tubes 12, multiple substrate 13 and multiple LED element 14.In the utility model, this lamp socket 11 at least has electrical end 111 and a lighting tube combination end 112, and wherein, this lighting tube combination end 112 inside is provided with a LED drive module 15, and this LED drive module 15 couples this electricity connection end 111; Further, the surface of this lighting tube combination end 112 is provided with multiple tube jack 1121, and the bottom of each tube jack 1121 is formed with a fixed groove 1122.

Continue to consult Fig. 2 and Fig. 3, and please refer to Fig. 4, the stereogram of fluorescent tube 12.As shown in the figure, these many fluorescent tubes 12 are by inserting the mode of the plurality of tube jack 1121 respectively and being assembled to this lighting tube combination end 112; Further, the inwall of fluorescent tube 12 is provided with a substrate fastening structure 121 and is placed in this fluorescent tube 12 for this substrate 13.Please consult Fig. 5 again, the stereogram of fluorescent tube 12 and substrate 13 simultaneously.As shown in Fig. 3 and Fig. 5, in the utility model, substrate 13 can be aluminium base, printed substrate, glass-fiber-plate, copper base or ceramic substrate, and it is placed within this fluorescent tube 12, and its root edge embeds among this fixed groove 1122 in this tube jack 1121.Further, the surface of each substrate 13 is provided with at least one line layer 131, and this line layer 131 is electrically connected at this LED drive module 15.Finally, the plurality of LED element 14, is arranged on multiple substrate 13, and is electrically connected with those line layers 131, and wherein, this LED drive module 15 controls the luminescence of those LED element 14 through line layer 131.

Refer to Fig. 6 unceasingly, second of fluorescent tube 12 implements the stereogram of aspect.In the utility model, the enforcement aspect of fluorescent tube 12 does not limit structure as shown in Figure 4, and in other applications, fluorescent tube 12 also can be combined with each other by a first half fluorescent tube 12U and a Lower Half fluorescent tube 12D and form; Usually, this Lower Half fluorescent tube 12D is made up of metal material or heat radiation plastic cement, and has a radiator structure 122 and this substrate fastening structure 121.Fluorescent tube 12 so designs, and contributes to the heat produced when dispersing through radiator structure 122, those LED element 14 are luminous.

Please continue to refer to Fig. 7 A, Fig. 7 B, Fig. 7 C and Fig. 7 D, the stereogram of these many fluorescent tubes 12.Although the quantity of the fluorescent tube 12 shown in Fig. 2 and Fig. 3 is 4, as shown in Figure 7 A, in the application of some energy-saving lamp, the quantity of fluorescent tube 12 also can be 3.In addition, be test tube type fluorescent tube (that is, single radial cut fluorescent tube) with shown fluorescent tube 12 shown in Fig. 2, Fig. 3 and Fig. 7 A, its inwall or outer wall are coated with an optics and spread coating.In addition, fluorescent tube 12 also can be glass-tube formula fluorescent tube as shown in Figure 7 B (namely, the fluorescent tube of two opening), wherein, the inwall of the fluorescent tube 12 of two opening or outer wall are coated with an optics diffusion coating, and its one end open inserts this tube jack 1121 (as shown in Figure 2), its other end opening is then assembled with an end cap 12C.Wherein, end cap 12C inside arranges a corresponding fixed groove (cannot illustrate out based on angle problem) too, so, when end cap 12C is bonded to the open top of fluorescent tube 12, the apical margin of substrate 13 just can among the fixed groove simultaneously in built-in end lid 12C, by this mode more can fixing base 13 in the position of fluorescent tube 12 inside, effectively can avoid the setting position that substrate 13 is crooked because LED energy-saving lamp 1 is vibrated or depart from originally.

Moreover fluorescent tube 12 also can be U-shaped fluorescent tube 12 as seen in figure 7 c, not must be restricted to microscler fluorescent tube; Further, as illustrated in fig. 7d, each root U-shaped fluorescent tube 12 can be made up of fluorescent tube 12 1 U-shaped end caps 124 of two two openings.In addition, with regard to the material of fluorescent tube 12, fluorescent tube 12 can be full transparent glass fluorescent tube or all-transparent plastic cement fluorescent tube; Further, in order to increase the scattering of light, fluorescent tube 12 can be light diffusing glass fluorescent tube or light diffusion plastic cement fluorescent tube.Thus, can push away and know, when fluorescent tube 12 is full transparent glass fluorescent tube, can arrange in pairs or groups makes to use up diffusion explosive-proof protector film to cover full transparent glass fluorescent tube; On the contrary, if when fluorescent tube 12 is light diffusing glass fluorescent tube, just collocation use all-transparent explosive-proof protector film with covering protection.What must add a supplementary explanation is; if fluorescent tube 12 for heat conduction plastic cement and light spread plastic cement Combined lamp tube, all-transparent plastic cement fluorescent tube or light spread plastic cement fluorescent tube time; the facts not having explosion suddenly due to plastic cement fluorescent tube produces, and therefore can save the use of explosive-proof protector film.In addition, except the diaphragm of sticking type, explosive-proof protector film also can be thermal shrinkage type mantle, such as light diffusion pyrocondensation mantle and transparent pyrocondensation mantle; In addition, explosive-proof protector film also can take shape in through spraying method on fluorescent tube 12, such as, be sprayed into pattern light diffusing protection film and be sprayed into pattern transparent protective film; Finally, also fluorescent tube 12 can be soaked in a glue and make diaphragm take shape on fluorescent tube 12, such as impregnation formation type light diffusing protection film or impregnation formation type transparent protective film.

Hold above-mentioned explanation, produce except explosion glass fragment during except utilizing explosive-proof protector film this fluorescent tube 12 coated to prevent this LED energy-saving lamp 1 from dropping, as shown in Figure 3, the utility model more arranges the shock sensor 16 being coupled to this LED drive module 15 in this lamp socket 11; Wherein, when this shock sensor 16 senses this LED energy-saving lamp by vibrations to a certain extent, namely this shock sensor 16 disconnects the electric connection of this LED drive module 15 and the plurality of LED element 14; Design like this, in order to the same time on the ground that drops in LED energy-saving lamp 1 just cuts off the electricity supply, and then the LED energy-saving lamp 1 avoiding user to pick up dropping gets an electric shock injured because of carelessness.

The stereogram that aspect and the 3rd implements aspect is implemented please continue to refer to second of Fig. 8 A and this lamp socket 11 of Fig. 8 B.Although the lamp socket 11 shown in Fig. 2 and Fig. 3, its electricity connection end 111 is a Rotatable lamp holder, does not limit the enforcement aspect of lamp socket 11 with this.As shown in Figure 8 A, the electricity connection end 111 of lamp socket 11 can pass through two electric connection terminals and is connected to external power source; In addition, as shown in Figure 8 B, the external form of lamp socket 11 is not limited to cylinder, and it also can be cubical design.

Above embodiment is only exemplary embodiment of the present utility model, is not used in restriction the utility model, and protection domain of the present utility model is defined by the claims.Those skilled in the art can in essence of the present utility model and protection domain, and make various amendment or equivalent replacement to the utility model, this amendment or equivalent replacement also should be considered as dropping in protection domain of the present utility model.

Claims (16)

1. a LED energy-saving lamp, is characterized in that, comprising:

One lamp socket, at least have one and electrically hold and a lighting tube combination end, wherein, this lighting tube combination end inside is provided with a LED drive module, and this LED drive module couples this electricity connection end; Further, the surface of this lighting tube combination end is provided with multiple tube jack, and the bottom of each tube jack is formed with one first fixed groove;

Many fluorescent tubes, are assembled to this lighting tube combination end by inserting the mode of the plurality of tube jack respectively;

Multiple substrate, is arranged at the inwall of these many fluorescent tubes respectively, and the root edge of this substrate embeds among this first fixed groove in this tube jack; Wherein, the surface of each substrate is provided with at least one line layer, and this line layer is electrically connected at this LED drive module; And

Multiple LED element, is arranged on multiple substrate, and is electrically connected with those line layers, and wherein, this LED drive module controls the luminescence of those LED element through line layer.

2. LED energy-saving lamp according to claim 1, it is characterized in that, also comprise a shock sensor, to be placed within this lamp socket and to couple this LED drive module, wherein, when this shock sensor senses this LED energy-saving lamp by vibrations to a certain extent, namely this shock sensor disconnects the electric connection of this LED drive module and the plurality of LED element.

3. LED energy-saving lamp according to claim 1, is characterized in that, one end of this fluorescent tube is formed with an opening, and its inwall or outer wall are coated with an optics diffusion coating.

4. LED energy-saving lamp according to claim 1, is characterized in that, the two ends of this fluorescent tube are formed with an opening respectively, and wherein an opening inserts this tube jack, and another opening is then assembled with an end cap.

5. LED energy-saving lamp according to claim 4, is characterized in that, wherein, the inside of this end cap is provided with one second fixed groove, and the apical margin for this substrate embeds.

6. LED energy-saving lamp according to claim 4, is characterized in that, two ends are formed with this fluorescent tube of this opening respectively, and its inwall or outer wall are coated with an optics diffusion coating.

7. the LED energy-saving lamp according to any one of claim 3-4 claim, is characterized in that, wherein, this fluorescent tube is full glass lamp or plastic cement fluorescent tube.

8. LED energy-saving lamp according to claim 7, is characterized in that, described full glass lamp is light diffusing glass fluorescent tube or clear glass fluorescent tube.

9. LED energy-saving lamp according to claim 7, is characterized in that, wherein, described plastic cement fluorescent tube is that heat conduction plastic cement and light spread plastic cement Combined lamp tube, light spreads plastic cement fluorescent tube or perspex fluorescent tube.

10. LED energy-saving lamp according to claim 4, is characterized in that, also comprises multiple explosive-proof protector films, is attached at the outer surface of these many fluorescent tubes respectively, with coated and protect this many fluorescent tubes.

11. LED energy-saving lamps according to claim 10; it is characterized in that; wherein, this explosive-proof protector film be light diffusion explosive-proof protector film, transparent explosion-proof diaphragm, light diffusion pyrocondensation mantle, transparent pyrocondensation mantle, be sprayed into pattern light diffusing protection film, be sprayed into pattern transparent protective film, impregnation formation type light diffusing protection film or impregnation formation type transparent protective film.

12. LED energy-saving lamps according to claim 1, is characterized in that, wherein, this substrate being formed with this line layer is aluminium base, printed substrate, glass-fiber-plate, copper base or ceramic substrate.

13. LED energy-saving lamps according to claim 1, is characterized in that, wherein, the inwall of this fluorescent tube is formed with a substrate fastening structure and is placed in this fluorescent tube for this substrate.

14. LED energy-saving lamps according to claim 1, is characterized in that, wherein, this fluorescent tube is be combined with each other by a first half fluorescent tube and a Lower Half fluorescent tube and forms, and this Lower Half fluorescent tube has this substrate fastening structure and a radiator structure.

15. LED energy-saving lamps according to claim 1, is characterized in that, wherein, this is electrically held is a Rotatable lamp holder.

16. LED energy-saving lamps according to claim 1, is characterized in that, wherein, this is electrically held has two electric terminals, in order to be electrically connected with an external power source.