CN205048210U - Novel lamp - Google Patents

Abstract

The utility model provides a novel lamp, includes: heat dissipation seedpod of the lotus seat, air supply arrangement, a plurality of LED light source and the sub - light source of a plurality of OLED. Seedpod of the lotus body, a plurality of heat dissipation petal leaf, a plurality of heat dissipation pistil strip and champignon liquid holding vessel are drawn together to heat dissipation seedpod of the lotus stationary ladle, and seedpod of the lotus body is the hollow structure of round platform form, and it has first end and the second end, and a plurality of heat dissipation petal bucket rings are around the first end setting. The ventilation holes who communicates with the outside is seted up in its neighbouring the second end department to seedpod of the lotus body. The air supply arrangement holding is originally internal in the seedpod of the lotus, and air supply arrangement includes motor, pivot and flabellum, and the motor sets up in champignon liquid holding vessel, and the pivot is connected with the motor, and the flabellum sets up in the pivot, and the flabellum sets up towards ventilation holes. Above -mentioned novel lamp overall structure is compacter, the illuminating effect is also better. In addition, heat dissipation seedpod of the lotus seat can be with the quick and effluvium in time of the heat that a plurality of LED light sources and the sub - light source of a plurality of OLED produced, and heat dispersion is better.

Description

Light

Technical field

The utility model relates to lighting technical field, particularly relates to a kind of light.

Background technology

At present, because electric energy conversion directly can be become visible ray by LED efficiently, and have the service life reaching tens thousand of hours ~ 100,000 hours, and there is energy-conservation advantage, therefore, the LED lamp made of LED using the advantage such as of fine quality, durable, energy-conservation by as the most frequently used lighting.Common, the basic structure of LED is P-N knot of a semiconductor, when electric current flows through LED element, the temperature of P-N knot will rise, and the temperature in P-N interface is called the junction temperature of LED, usually because element chip all has very little size, therefore, also the temperature of LED chip is called the junction temperature of LED chip.

It is pointed out that the drawback that the light fixture self adopting LED to manufacture exists is, LED lamp light efficiency is comparatively large by the impact of the junction temperature of LED, and higher junction temperature of chip will cause light efficiency to occur obviously declining, and can have influence on the service life of LED lamp.Because LED is when luminescence, the temperature of himself can constantly raise, and in the illumination work continued, if the heat that LED produces can not exhale in time, will cause the damage of LED, affect the service life of LED.Therefore, the heat dissipation problem solving LED is most important for the performance promoting LED.

But the heat dispersion of the light fixture that existing employing LED manufactures can't meet required cooling requirements when LED normally works.

Utility model content

Based on this, be necessary to provide a kind of good heat dispersion performance, overall structure the compacter and good light of illuminating effect.

A kind of light, comprising:

Heat radiation rosette, described heat radiation rosette comprises seedpod of the lotus body, some heat radiation petal leaves, some heat radiation pistil bars and champignon liquid holding vessel, described seedpod of the lotus body is round table-like hollow-core construction, it has first end and the second end, some described heat radiation petal leaf joints are arranged around described first end, some described heat radiation pistil bars are arranged at the junction of described heat radiation petal leaf and described first end, described champignon liquid holding vessel is placed in described seedpod of the lotus body, described heat radiation petal interlobar part is provided with the flow pipe be communicated with described champignon liquid holding vessel, described flow pipe is for the champignon liquid that circulates, described heat radiation petal leaf offers the evaporation apertures be communicated with described flow pipe, and described evaporation apertures and ft connection, described evaporation apertures place is provided with tampon, described heat radiation petal leaf comprises the first petal layer superposing setting successively, second petal layer and the 3rd petal layer,

Wherein, described seedpod of the lotus body offers the wind pushing hole with ft connection at its contiguous described the second end place,

Air-supply arrangement, described air-supply arrangement is placed in described seedpod of the lotus body, described air-supply arrangement comprises motor, rotating shaft and flabellum, described motor is arranged at described champignon liquid holding vessel, described rotating shaft is connected with described motor, described flabellum is arranged at described rotating shaft, and described flabellum is arranged towards described wind pushing hole;

Some LED sub-light sources, some described LED sub-light sources are arranged on the end face of described the second end; And

Some OLED sub-light sources, some described OLED sub-light sources are arranged at the side of described heat radiation petal blade face to described seedpod of the lotus body.

Wherein in an embodiment, some described wind pushing holes are spaced successively.

Wherein in an embodiment, described seedpod of the lotus body also offers fresh air inlet.

Wherein in an embodiment, described wind pushing hole has the first opening and the second opening, and described first opening is positioned at described seedpod of the lotus body interior, described second opening and described ft connection, and the aperture of described first opening is greater than the aperture of described second opening.

Wherein in an embodiment, described air-supply arrangement arranges some described flabellums.

Above-mentioned light is by arranging heat radiation rosette, some LED sub-light sources and some OLED sub-light sources, and overall structure is compacter, illuminating effect is also better.In addition, the heat that some LED sub-light sources and some OLED sub-light sources can produce by heat radiation rosette fast and shed in time, good heat dispersion performance.

Accompanying drawing explanation

Fig. 1 is the structural representation of the light of the utility model one embodiment;

Fig. 2 is the partial structurtes schematic diagram of the light of the utility model one embodiment;

Fig. 3 is the cut-away view of the heat radiation petal leaf shown in Fig. 1;

Fig. 4 is the partial structurtes schematic diagram of the heat radiation pistil bar shown in Fig. 1;

Fig. 5 is the cut-away view of the heat radiation petal leaf of another embodiment of the utility model;

Fig. 6 is the partial structurtes schematic diagram of the light of another embodiment of the utility model;

Fig. 7 is the partial structurtes schematic diagram of the light of another embodiment of the utility model;

Fig. 8 is the partial structurtes schematic diagram of the light of another embodiment of the utility model.

Detailed description of the invention

For the ease of understanding the utility model, below with reference to relevant drawings, the utility model is described more fully.Better embodiment of the present utility model is given in accompanying drawing.But the utility model can realize in many different forms, is not limited to embodiment described herein.On the contrary, provide the object of these embodiments be make to disclosure of the present utility model understand more thorough comprehensively.

It should be noted that, when element is called as " being fixed on " another element, directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may there is centering elements simultaneously.Term as used herein " vertical ", " level ", "left", "right" and similar statement just for illustrative purposes, do not represent it is unique embodiment.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in description of the present utility model herein just in order to describe concrete embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.

Such as, a kind of light, comprise: heat radiation rosette, described heat radiation rosette comprises seedpod of the lotus body, some heat radiation petal leaves, some heat radiation pistil bars and champignon liquid holding vessel, described seedpod of the lotus body is round table-like hollow-core construction, it has first end and the second end, some described heat radiation petal leaf joints are arranged around described first end, some described heat radiation pistil bars are arranged at the junction of described heat radiation petal leaf and described first end, described champignon liquid holding vessel is placed in described seedpod of the lotus body, described heat radiation petal interlobar part is provided with the flow pipe be communicated with described champignon liquid holding vessel, described flow pipe is for the champignon liquid that circulates, described heat radiation petal leaf offers the evaporation apertures be communicated with described flow pipe, and described evaporation apertures and ft connection, described evaporation apertures place is provided with tampon, described heat radiation petal leaf comprises the first petal layer superposing setting successively, second petal layer and the 3rd petal layer, wherein, described seedpod of the lotus body offers the wind pushing hole with ft connection at its contiguous described the second end place, air-supply arrangement, described air-supply arrangement is placed in described seedpod of the lotus body, described air-supply arrangement comprises motor, rotating shaft and flabellum, and described motor is arranged at described champignon liquid holding vessel, and described rotating shaft is connected with described motor, described flabellum is arranged at described rotating shaft, and described flabellum is arranged towards described wind pushing hole, some LED sub-light sources, some described LED sub-light sources are arranged on the end face of described the second end, and some OLED sub-light sources, some described OLED sub-light sources are arranged at the side of described heat radiation petal blade face to described seedpod of the lotus body.

An example is, a kind of light, and it comprises the described light of above-mentioned any embodiment.

Refer to Fig. 1, light 10 comprises: heat radiation rosette 100, some LED sub-light sources 200 and some OLED sub-light sources 300, and some LED sub-light sources 200 and some OLED sub-light sources 300 are all arranged at heat radiation rosette 100.

See also Fig. 1 and Fig. 2, heat radiation rosette 100 comprises seedpod of the lotus body 110, some heat radiation petal leaves 120, some heat radiation pistil bars 130 and champignon liquid holding vessel 140, and some heat radiation petal leaves 120, some heat radiation pistil bars 130 and champignon liquid holding vessel 140 are all arranged at seedpod of the lotus body 110.

Such as, described heat radiation rosette is similar with lotus flower in shape, and and for example, described light has the feature intending shape lotus flower in shape and structure, and and for example, described light has the feature of bionical lotus flower in shape and structure.Like this, described light can be made to have aesthetic and artistic value preferably.

Refer to Fig. 2, seedpod of the lotus body 110 is round table-like hollow-core construction, and seedpod of the lotus body 110 has first end 111 and the second end 112.Such as, the diameter of described seedpod of the lotus body is increased gradually by the direction of described first end to described the second end.

Refer to Fig. 1, some LED sub-light sources 200 are arranged on the end face of the second end 112.Such as, some LED sub-light source 200 circular array are arranged on the end face of the second end 112, like this, can have more uniformly illuminating effect.

Such as, described seedpod of the lotus body is obtained by the reasonable offer that dispels the heat, and for example, and the identical or different setting of the material of described seedpod of the lotus body, described heat radiation petal leaf and heat radiation pistil bar.Such as, described heat radiation alloy is aluminium alloy, and like this, the heat that described LED sub-light source luminescence produces just can be passed on described seedpod of the lotus body fast and in time, and good heat dispersion performance, to guarantee the normal luminous performance of described LED sub-light source.

See also Fig. 1 and Fig. 2, some heat radiation petal leaves 120 are arranged around the first end 111 of seedpod of the lotus body 110.Such as, the stacked and first end 111 around seedpod of the lotus body 110 of some heat radiation petal leaves 120 is arranged.Like this, described seedpod of the lotus body absorbs from described LED sub-light source the heat come can be passed to heat radiation petal leaf 120, because heat radiation petal leaf 120 has larger cooling surface area, can fast and in time by heat loss in outside air, good heat dispersion performance.

Refer to Fig. 1, some OLED sub-light sources 300 are arranged at the side of heat radiation petal leaf 120 towards seedpod of the lotus body 110.Like this; utilize the light of described OLED sub-light source and described LED sub-light source composite; the illuminating effect of whole described light can be improved; especially; after both are composite, light can be made softer, thus the eyes of user can be protected; even if use for a long time, also there will not be the problems such as eyes are dry and astringent.In addition, the heat that OLED sub-light source 300 luminescence produces also can be absorbed by heat radiation petal leaf 120 fast and in time, and scatters and disappears in the air in the external world by heat radiation petal leaf 120, good heat dispersion performance, so, the normal luminous performance of OLED sub-light source 300 can be guaranteed.

See also Fig. 1 and Fig. 2, some heat radiation pistil bars 130 are arranged at the junction of the first end 111 of heat radiation petal leaf 120 and seedpod of the lotus body 110.Such as, described heat radiation pistil bar has distortion or bending structure; And for example, described heat radiation pistil bar has circular cross-sectional configuration.

It should be noted that, described seedpod of the lotus body absorbs from described LED sub-light source the heat come and can be passed to heat radiation pistil bar 130, and carry out auxiliary heat dissipation by described heat radiation pistil bar, thus can fast and in time by heat loss in outside air, good heat dispersion performance.

Refer to Fig. 2, champignon liquid holding vessel 140 is placed in 110 seedpod of the lotus bodies.See also Fig. 3, heat radiation petal leaf 120 inside is provided with the flow pipe 121 be communicated with champignon liquid holding vessel 110, and flow pipe 121 is for the champignon liquid that circulates.Such as, the champignon liquid in champignon liquid holding vessel 140 utilizes the flow of pressurized of self to enter in flow pipe 121.

Refer to Fig. 3, heat radiation petal leaf 120 offers the evaporation apertures 122 be communicated with flow pipe 121, and evaporation apertures 122 and ft connection.

It should be noted that, the heat that heat radiation petal leaf 120 absorbs is respectively from two parts, the heat that a part produces afterwards for the luminescence of described OLED sub-light source is directly passed on heat radiation petal leaf 120, another part is that the heat that the luminescence of described LED sub-light source produces afterwards extremely dispels the heat on petal leaf 120 through described seedpod of the lotus body indirect transfer, therefore, heat radiation petal leaf 120 bears maximum heat radiation load, so, the heat radiation petal leaf 120 with higher temperature can heat the champignon liquid being placed in flow pipe 121 inside, can be gaseous state from liquid state after champignon liquid is heated, in this transition process, namely when liquid state is gaseous state, the heat of heat radiation petal leaf 120 can be absorbed, and then effectively enhance the heat dispersion of described light.Meanwhile, described light can also increase the discharging amount of champignon gas, especially in cold environments, can guarantee effective gaseous state of champignon, when user sucks this champignon gas, can also allow the abundant joyful sense of user.

Such as, under described light is applicable to the strong environment of artistic feeling, e.g., luxury clubhouse, exhibition center and library etc.

Directly leak in described evaporation apertures to avoid described champignon liquid better, such as, refer to Fig. 3, evaporation apertures 122 place is provided with tampon 123, like this, tampon 123 can avoid described champignon liquid directly to leak in described evaporation apertures better, in addition, and the problem that tampon 123 can also avoid evaporation apertures 122 laying dust to block.

In order to strengthen the heat dispersion of described light further, such as, refer to Fig. 4, heat radiation pistil bar 130 comprises heat radiation pistil core 131 and is coated on the reflecting layer 132 of heat radiation pistil core 131 outside, and e.g., described reflecting layer is silvered reflective layer, and for example, described light also comprises heat radiation taenidium 400, one end of heat radiation taenidium 400 is passed reflecting layer 132 and is connected with heat radiation pistil core 131, as, described heat radiation pistil core is obtained by the reasonable offer that dispels the heat, like this, heat radiation pistil core 131 can from described seedpod of the lotus body fast and absorb heat in time, share the heat radiation load bearing described seedpod of the lotus body, and dispel the heat pistil core 131 also for heat being passed to heat radiation taenidium 400, utilize the cooling surface area that heat radiation taenidium 400 is larger, can rapidly heat loss in air, thus the heat dispersion of described light can be strengthened, in addition, reflex can also be carried out to light in reflecting layer 132, based on heat radiation pistil bar 130 dense distribution, and distortion or bending design feature, described light can be made to have preferably illuminating effect.

Such as, described heat radiation pistil core has circular cross-sectional configuration; And for example, described heat radiation taenidium has multi-helical structure; And for example, described heat radiation pistil core and described heat radiation taenidium are one of the forming structure.

In order to carry out water conservancy diversion operation to champignon liquid better, such as, refer to Fig. 5, described light also comprises champignon liquid flow guide sleeve 500, champignon liquid flow guide sleeve 500 is placed in flow pipe 121, and the end, one end of champignon liquid flow guide sleeve 500 is used for contacting with the champignon liquid in described champignon liquid holding vessel, like this, utilize champignon liquid flow guide sleeve 500 can carry out water conservancy diversion operation to champignon liquid better, to keep being full of champignon liquid in flow pipe 121.Such as, when the liquid level of described champignon liquid holding vessel declines, utilize champignon liquid in the diffusion of described champignon liquid flow guide sleeve, still champignon liquid can be introduced in described flow pipe.

In order to carry out water conservancy diversion operation to champignon liquid better, such as, the material of described champignon liquid flow guide sleeve is cotton; And for example, described champignon liquid flow guide sleeve comprises several champignon liquid flow guide bars; And for example, described champignon liquid flow guide sleeve is formed after champignon liquid flow guide bar spiral winding described in several; And for example, described champignon liquid flow guide sleeve has circular cross-sectional configuration; And for example, the inwall close contact of described champignon liquid flow guide sleeve and described flow pipe; And for example, the end, one end of described champignon liquid flow guide sleeve is stretched into and is arranged at described champignon liquid holding vessel inside, can carry out water conservancy diversion operation better like this to champignon liquid.

In order to add champignon liquid better, such as, refer to Fig. 6, described light also comprises champignon liquid and adds tank 600, champignon liquid adds the first end 111 that tank 600 is arranged at seedpod of the lotus body 110, and champignon liquid adds tank 600 to be communicated with champignon liquid holding vessel 140, champignon liquid adds tank 600 and comprises tank body 610 and sealing plug 620, tank body 610 offers added holes 611, sealing plug 620 is for closed added holes 611, like this, champignon liquid can be added better by added holes 611, be beneficial to recycling of described light, when the closed champignon liquid of needs adds tank 600, sealing plug 620 can close champignon liquid interpolation tank 600 beyond the Great Wall.Such as, when needing to add champignon liquid, seedpod of the lotus body described in vertical display in advance, and then add champignon liquid to described added holes.

In order to add champignon liquid better, it is disc-shaped structure that described champignon liquid adds tank; And for example, the madial wall of described added holes is provided with internal thread, and the lateral wall of described sealing plug is provided with the external screw thread with described screw-internal thread fit, and described sealing plug is bolted in described added holes; And for example, the sealing stopper that described sealing plug comprises sealing key and connects in described sealing key, described sealing stopper is used for closing described added holes; And for example, described champignon liquid interpolation tank offers some described added holes.

In order to strengthen the heat dispersion of described light further, such as, refer to Fig. 7, seedpod of the lotus body 110 offers the wind pushing hole 115 with ft connection in the position of its contiguous the second end 112; And for example, described light also comprises air-supply arrangement 700, air-supply arrangement 700 is placed in seedpod of the lotus body 110, air-supply arrangement 700 comprises motor 710, rotating shaft 720 and flabellum 730, motor 710 is arranged at champignon liquid holding vessel 140, rotating shaft 720 is connected with motor 710, flabellum 730 is arranged at rotating shaft 720, and flabellum 730 is arranged towards wind pushing hole 115, for the hot-air in seedpod of the lotus body 110 is blown out in outside air by wind pushing hole 115, strengthen cross-ventilation heat transfer, thus the heat dispersion of described light can be strengthened further.

In order to strengthen the heat dispersion of described light further, such as, some described wind pushing holes are spaced successively; And for example, described seedpod of the lotus body also offers fresh air inlet; And for example, described wind pushing hole has the first opening and the second opening, described first opening is positioned at described seedpod of the lotus body interior, described second opening and described ft connection, the aperture of described first opening is greater than the aperture of described second opening, be beneficial to the collection wind of described wind pushing hole, namely increase the flow velocity of air at described first opening part and described second opening part; And for example, described air-supply arrangement arranges some described flabellums, can strengthen the heat dispersion of described light so further.

In order to strengthen the heat dispersion of described light further, such as, refer to Fig. 8, described light also comprises auxiliary radiating device 800, and auxiliary radiating device 800 comprises some thermal columns 810, some thermal columns 810 are arranged around seedpod of the lotus body 110, and thermal column 810 is hollow-core construction, it is provided with some air vents 811, like this, the cooling surface area of described light can be improved, to strengthen the heat dispersion of described light further.

In order to strengthen the heat dispersion of described light further, such as, some described thermal columns are arranged at interval successively; And for example, the lateral wall of described thermal column and described seedpod of the lotus body forms angle; And for example, the number of degrees of described angle are 30 degree ~ 45 degree; And for example, described thermal column has cylindrical-shaped structure; And for example, described thermal column is hemispherical dome structure away from one end of described seedpod of the lotus body, like this, can strengthen the heat dispersion of described light further.

In order to strengthen the heat dispersion of described light further, such as, described heat radiation petal leaf comprises the first petal layer, the second petal layer and the 3rd petal layer that superpose setting successively, such as, identical or the different setting of the material of described first petal layer, described second petal layer and described 3rd petal layer, such as, heat radiation reasonable offer is adopted to obtain.

Above-mentioned light 10 is by arranging heat radiation rosette 100, some LED sub-light sources 200 and some OLED sub-light sources 300, and overall structure is compacter, illuminating effect is also better.In addition, heat radiation rosette 100 heat that some LED sub-light sources 200 and some OLED sub-light sources 300 can be produced fast and shed in time, good heat dispersion performance.

Such as, the light that the mutual combination that other embodiments of light of the present utility model also comprise the respective embodiments described above is formed.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the each piece of all possible combination of technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this description is recorded.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (5)

1. a light, is characterized in that, comprising:

Heat radiation rosette, described heat radiation rosette comprises seedpod of the lotus body, some heat radiation petal leaves, some heat radiation pistil bars and champignon liquid holding vessel, described seedpod of the lotus body is round table-like hollow-core construction, it has first end and the second end, some described heat radiation petal leaf joints are arranged around described first end, some described heat radiation pistil bars are arranged at the junction of described heat radiation petal leaf and described first end, described champignon liquid holding vessel is placed in described seedpod of the lotus body, described heat radiation petal interlobar part is provided with the flow pipe be communicated with described champignon liquid holding vessel, described flow pipe is for the champignon liquid that circulates, described heat radiation petal leaf offers the evaporation apertures be communicated with described flow pipe, and described evaporation apertures and ft connection, described evaporation apertures place is provided with tampon, described heat radiation petal leaf comprises the first petal layer superposing setting successively, second petal layer and the 3rd petal layer,

Wherein, described seedpod of the lotus body offers the wind pushing hole with ft connection at its contiguous described the second end place;

Air-supply arrangement, described air-supply arrangement is placed in described seedpod of the lotus body, described air-supply arrangement comprises motor, rotating shaft and flabellum, described motor is arranged at described champignon liquid holding vessel, described rotating shaft is connected with described motor, described flabellum is arranged at described rotating shaft, and described flabellum is arranged towards described wind pushing hole;

Some LED sub-light sources, some described LED sub-light sources are arranged on the end face of described the second end; And

Some OLED sub-light sources, some described OLED sub-light sources are arranged at the side of described heat radiation petal blade face to described seedpod of the lotus body.

2. light according to claim 1, is characterized in that, some described wind pushing holes are spaced successively.

3. light according to claim 2, is characterized in that, described seedpod of the lotus body also offers fresh air inlet.

4. light according to claim 1, it is characterized in that, described wind pushing hole has the first opening and the second opening, and described first opening is positioned at described seedpod of the lotus body interior, described second opening and described ft connection, the aperture of described first opening is greater than the aperture of described second opening.

5. light according to claim 4, is characterized in that, described air-supply arrangement arranges some described flabellums.