CN105333330B

CN105333330B - Algae lamps and lanterns

Info

Publication number: CN105333330B
Application number: CN201510676909.3A
Authority: CN
Inventors: 左招霞
Original assignee: Guangzhou Wan Yue Intellectual Property Operation Co Ltd
Current assignee: Guangzhou step photoelectron Polytron Technologies Inc
Priority date: 2015-10-16
Filing date: 2015-10-16
Publication date: 2018-08-14
Anticipated expiration: 2035-10-16
Also published as: CN105333330A

Abstract

A kind of algae lamps and lanterns include：Heat dissipation base, radiating subassembly, LED component, input disc, transparent lamp shade and algae layer.Radiating subassembly includes multiple heat-dissipating pipes, and heat-dissipating pipe has hollow structure, interior to form heat dissipation cavity, for housing liquid water.The madial wall of heat-dissipating pipe protrudes inwardly is provided with several heat dissipation twisted sheets, and several heat dissipation twisted sheets are placed in heat dissipation cavity.LED component includes multiple LED light.Transparent lamp shade has the hollow structure of both ends open.The light that LED light is sent out is for exposing to algae layer.Above-mentioned algae lamps and lanterns are by being arranged heat dissipation base, radiating subassembly, LED component, input disc, transparent lamp shade and algae layer, the heat that can be generated to LED component is carried out quickly and is radiated in time, good heat dispersion performance, and algae layer absorbing carbon dioxide breathes out oxygen, it can be with pure air.

Description

Algae lamps and lanterns

Technical field

The present invention relates to technical field of LED illumination, more particularly to a kind of algae lamps and lanterns.

Background technology

Currently, LED, i.e. light emitting diode, have the service life up to tens thousand of hours~100,000 hour, to answer extensively For fields such as landscape, safety, special type and general lightings, market potential is beyond measure.In addition, LED can also directly and efficiently by Electric energy is converted to visible light, and energy-saving effect is compared with Conventional luminescent body, and e.g., fluorescent lamp and tengsten lamp can be significantly improved.And And LED also has many advantages, such as that brightness higher and light are more soft.Therefore, use LED make LED lamp with it is of fine quality, durable, The advantages that energy saving and be referred to as most common illuminator.

However, drawback existing for LED lamp itself is, LED lamp light efficiency is affected by the junction temperature of LED, In, the basic structure of LED is P-N knots of a semiconductor, and when electric current flows through LED element, the temperature of P-N knots will rise, And the temperature in the interfaces P-N is known as the junction temperature of LED, is typically due to the size that element chip all has very little, therefore, also LED core The temperature of piece is known as the junction temperature of LED chip.

As it can be seen that higher junction temperature of chip will cause light efficiency to be decreased obviously, and influence whether the use longevity of LED lamp Life.Since LED light is when luminous, the temperature of its own can be increased constantly, in lasting illumination work, if LED light generates Heat cannot exhale in time, it will the damage for causing LED light influences the service life of LED light.Therefore, LED light is solved Heat dissipation problem for promoted LED light performance it is most important.

However, the required heat dissipation when heat dissipation performance of existing LED lamp is not met by LED light normal work is wanted It asks.

Invention content

Based on this, it is necessary to provide a kind of good heat dispersion performance and can be with the algae lamps and lanterns of pure air.

A kind of algae lamps and lanterns include：

Heat dissipation base, the heat dissipation bottom are provided with support portion, for the heat dissipation bottom to be installed on external environment；

Radiating subassembly, the radiating subassembly include multiple heat-dissipating pipes, each heat-dissipating pipe distortion setting, the heat-dissipating pipe tool There are fixing end and input terminal, the heat-dissipating pipe to have hollow structure, interior formation heat dissipation cavity described defeated for housing liquid water Enter end and offer input port, and the input port is connected to the heat dissipation cavity, multiple fixing ends may be contained within the heat dissipation Pedestal, wherein the madial wall of the heat-dissipating pipe protrudes inwardly is provided with several heat dissipation twisted sheets, and several heat dissipation distortions Piece is placed in the heat dissipation cavity；

LED component, the LED component include multiple LED light, and multiple LED light are uniformly arranged on the heat-dissipating pipe Lateral wall；

Input disc, the input disc offer storage tank, and for housing liquid water, multiple input terminals may be contained within institute Side of the input disc far from the storage tank is stated, the bottom of the storage tank offers multiple delivery outlets, each delivery outlet One-to-one correspondence is connected to an input port, for making multiple heat dissipation cavities be connected to respectively with the storage tank；

Transparent lamp shade, the transparent lamp shade have the hollow structure of both ends open, the first end setting of the transparent lamp shade In the heat dissipation base, the radiating subassembly, the LED component and the input disc are placed in inside the transparent lamp shade, The distance of the heat dissipation base to the input disc is less than the heat dissipation base to the distance of the second end of the transparent lamp shade；

Algae layer, the algae layer are attached to the madial wall of the transparent lamp shade, and the light that the LED light is sent out is for shining It is incident upon the algae layer.

Several heat dissipation twisted sheets are spaced setting successively in one of the embodiments,.

The side of the heat dissipation twisted sheet has the structure of arc in one of the embodiments,.

The side of the heat dissipation twisted sheet has arc-shaped structure in one of the embodiments,.

Several heat dissipation twisted sheets are radial centered on the axle center of the heat-dissipating pipe in one of the embodiments, Distribution.

Six heat dissipation twisted sheets are set in one of the embodiments,.

The heat dissipation twisted sheet has helical structure in one of the embodiments,.

Above-mentioned algae lamps and lanterns are by being arranged heat dissipation base, radiating subassembly, LED component, input disc, transparent lamp shade and algae Class layer, the heat that can be generated to LED component are carried out quickly and are radiated in time, good heat dispersion performance, and algae layer absorbs two Carbonoxide breathes out oxygen, can be with pure air.

Description of the drawings

Fig. 1 is the structural schematic diagram of the algae lamps and lanterns of an embodiment of the present invention；

Fig. 2 is the decomposition texture schematic diagram of algae lamps and lanterns shown in FIG. 1；

Fig. 3 is the structural schematic diagram of another angle of transparent lamp shade shown in Fig. 2；

Fig. 4 is the structural schematic diagram of another angle of heat-dissipating pipe shown in Fig. 2；

Fig. 5 is the structural schematic diagram of the heat-dissipating pipe of another embodiment of the present invention；

Fig. 6 is the structural schematic diagram of the heat-dissipating pipe of another embodiment of the present invention；

Fig. 7 is the structural schematic diagram of the transparent lamp shade of another embodiment of the present invention；

Fig. 8 is the structural schematic diagram of the input disc of another embodiment of the present invention.

Specific implementation mode

To facilitate the understanding of the present invention, below with reference to relevant drawings to invention is more fully described.In attached drawing Give the better embodiment of the present invention.But the present invention can realize in many different forms, however it is not limited to herein Described embodiment.On the contrary, the purpose of providing these embodiments is that making to understand more the disclosure Add thorough and comprehensive.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not offered as being unique embodiment.

Unless otherwise defined, all of technologies and scientific terms used here by the article and belong to the technical field of the present invention The normally understood meaning of technical staff is identical.Used term is intended merely to description tool in the description of the invention herein The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more Any and all combinations of relevant Listed Items.

For example, a kind of algae lamps and lanterns include：Heat dissipation base, the heat dissipation bottom are provided with support portion, are used for institute It states heat dissipation bottom and is installed on external environment；Radiating subassembly, the radiating subassembly include multiple heat-dissipating pipes, each heat-dissipating pipe distortion Setting, the heat-dissipating pipe have fixing end and input terminal, and the heat-dissipating pipe has hollow structure, interior to form heat dissipation cavity, is used for Accommodating liquid water, the input terminal offers input port, and the input port is connected to the heat dissipation cavity, multiple fixing ends May be contained within the heat dissipation base, wherein the madial wall of the heat-dissipating pipe protrudes inwardly is provided with several heat dissipation twisted sheets, and Several heat dissipation twisted sheets are placed in the heat dissipation cavity；LED component, the LED component includes multiple LED light, multiple The LED light is uniformly arranged on the lateral wall of the heat-dissipating pipe；Input disc, the input disc offers storage tank, for housing Liquid water, multiple input terminals may be contained within side of the input disc far from the storage tank, the bottom of the storage tank Multiple delivery outlets are offered, each delivery outlet one-to-one correspondence is connected to an input port, for making multiple heat dissipations Chamber is connected to the storage tank respectively；Transparent lamp shade, the transparent lamp shade have the hollow structure of both ends open, the light transmission lamp The first end of cover is set to the heat dissipation base, and the radiating subassembly, the LED component and the input disc are placed in described Inside transparent lamp shade, the distance of the heat dissipation base to the input disc is less than the heat dissipation base to the of the transparent lamp shade The distance at two ends；Algae layer, the algae layer are attached to the madial wall of the transparent lamp shade, and the light that the LED light is sent out is used In exposing to algae layer.

In order to further illustrate above-mentioned algae lamps and lanterns, another example is, also referring to Fig. 1, Fig. 2 and Fig. 3, algae Class plants lamps and lanterns 10：Heat dissipation base 100, radiating subassembly 200, LED component 300, input disc 400, transparent lamp shade 500 and algae Class layer 600, radiating subassembly 200 are connect with heat dissipation base 100 and input disc 400 respectively, and LED component 300 is set to radiating subassembly 200, transparent lamp shade 500 is provide with heat dissipation base 100, and radiating subassembly 200 and input disc 400 are placed in inside transparent lamp shade 500, algae Class layer 600 is attached to the madial wall of transparent lamp shade 500.For example, the algae layer includes supporting part, it is used to carry algae, again Such as, the algae layer includes supporting part and its algae carried.

Referring to Fig. 2, heat dissipation base 100 is used to algae lamps and lanterns 10 being mounted or placed on external environment, for example, peace Fill or be placed on toilet, kitchen, bedroom and/or parlor etc.；For another example, park, club, hotel and/or quotient are mounted or located at Etc., to play illuminating effect.

In order to make the heat dissipation base preferably by the algae lamp installation or be positioned over external environment, for example, The heat dissipation bottom is provided with support portion, and e.g., the support portion includes but is not limited to threaded fastener and/or clamping piece etc., It is used to the heat dissipation bottom being installed on external environment, in this way, can make the heat dissipation base preferably by the algae kind It plants lamp installation or is positioned over external environment.

Referring to Fig. 2, radiating subassembly 200 includes multiple heat-dissipating pipes 210, the distortion setting of each heat-dissipating pipe 210.Heat-dissipating pipe 210 For installing LED component 300, to carry out quickly and in time heat discharging operation to LED component 300.

For example, the heat-dissipating pipe has spiral distorted-structure；For another example, the heat-dissipating pipe includes sequentially connected first The junction of bending tube, the second bending tube and third bending tube, first bending tube and second bending tube has gentle Transition is bent in an arc shape structure, and the third bending tube has the curved bend of gentle transition with the junction of second bending tube Folded structure；For another example, first bending tube, second bending tube and the third bending tube have bending, distortion and/or it is curved The structure of folding is conducive to the LED component and installs in this way, can reinforce the mounting area and heat dissipation area of the heat-dissipating pipe simultaneously It is effectively radiated with to the LED component, to enhance the heat dissipation performance of the heat-dissipating pipe.

In order to improve the cooling surface area of radiating subassembly 200, and enhance convection current heat transfer of the radiating subassembly 200 with air, example Such as, referring to Fig. 2, after the distortion setting of each heat-dissipating pipe 210, a cavity 20 with hollow structure is surrounded, adjacent two Interval is provided between a heat-dissipating pipe 210, cavity 20 is connected to by the interval with outside；For another example, radiating subassembly 200 has " hollow out " structure, visual effect has " hollow out " effect, in this way, the heat-delivery surface of radiating subassembly 200 can be greatlyd improve Product, and can also greatly enhance convection current heat transfer of the radiating subassembly 200 with air, come from the LED groups when heat-dissipating pipe 210 absorbs It when the heat that part is transmitted to, can quickly and in time scatter and disappear into external air, to enhance dissipating for radiating subassembly 200 Hot property.

Referring to Fig. 2, LED component 300 includes multiple LED light 310, multiple LED light 310 are uniformly arranged on heat-dissipating pipe 210 Lateral wall.Specifically, each heat-dissipating pipe 210 is mounted on multiple LED light 310, multiple LED light 310 are along heat-dissipating pipe 210 Mandrel line is uniformly distributed.In this way, the light that LED light 310 is sent out is used to replace sunlight to a certain extent, for being carried to algae For good growth and breeding environment, so as to realize the effect for promoting algal grown breeding.For example, 310 normal luminous of LED light When the heat transfer to heat-dissipating pipe 210 that generates on, and then scattered and disappeared to these heats by heat-dissipating pipe 210, to mitigate LED light 310 shine when generate light decay the problem of, so as to improve brightness and the service life of LED light 310.For example, LED light 310 light sent out are for irradiating algae layer 600.

Referring to Fig. 2, each heat-dissipating pipe 210 has fixing end 211 and input terminal 212, also referring to Fig. 4, heat-dissipating pipe 210 have hollow structure, heat dissipation cavity 213 are formed in heat-dissipating pipe 210, heat dissipation cavity 213 is for housing liquid water, for example, heat-dissipating pipe 210 side wall is for heating the liquid water, i.e., the liquid water can absorb the heat of the accumulation of heat-dissipating pipe 210, for pair Heat-dissipating pipe 210 carries out heat discharging operation, and heat dissipation effect is preferable.

Referring to Fig. 2, the fixing end 211 of multiple heat-dissipating pipes 210 may be contained within heat dissipation base 100, so as to installing and Fixed multiple heat-dissipating pipes 210, and heat-dissipating pipe 210 absorbs the heat from LED component 300 and can be transferred on heat dissipation base 100, For further strengthening heat dissipation performance.For example, the heat-dissipating pipe is identical as the material of the heat dissipation base or different setting；Again Such as, heat-dissipating pipe setting identical as the material of the heat dissipation base；For another example, the material of the heat-dissipating pipe and the heat dissipation base Using heat dissipation alloy, the heat dissipation alloy includes but is not limited to aluminium alloy, copper alloy and/or copper-aluminium alloy, for further Reinforce heat dissipation performance.

Also referring to Fig. 2 and Fig. 4, the input terminal 212 of heat-dissipating pipe 210 offers input port 212a, and input port 212a It is connected to heat dissipation cavity 213, in this way, the absorption housed in heat dissipation cavity 213 has the liquid water of heat can be with by input port 212a The external connection of the heat dissipation cavity 213.

Also referring to Fig. 2 and Fig. 4, input disc 400 offers storage tank 410, and storage tank 410 is used to house liquid water, For example, the liquid water can be injected by user's timing or is poured into storage tank 410.

Multiple input end 212 may be contained within side of the input disc 400 far from storage tank 410, and the bottom of storage tank 410 opens up There are multiple delivery outlets 411, the one-to-one correspondence of each delivery outlet 411 is connected to an input port 212a, for making multiple heat dissipation cavities 213 divide It is not connected to storage tank 410, that is to say, that heat dissipation cavity 213, input port 212a, delivery outlet 411 and storage tank 410 are sequentially communicated.

Absorptions housed in heat dissipation cavity 213 have heat liquid water can by input port 212a and delivery outlet 411 and Storage tank 410 is connected to, to make the higher liquid water of temperature in heat dissipation cavity 213 and the lower liquid of temperature in storage tank 410 State water carries out sufficient heat exchange, in this way, the temperature of the liquid water housed in heat dissipation cavity 213 can be reduced, and then can be fast The heat being transmitted to by LED light 410 on speed and in time absorption heat-dissipating pipe 210, so as to enhance thermal diffusivity.In addition, by It is connected to external environment in storage tank 410, the liquid water in storage tank 410 absorbs the heat of the liquid water in heat dissipation cavity 213 After amount, temperature can increase, in this way, can reinforce the evaporation process of the liquid water in storage tank 410, that is, accelerate in storage tank 410 Liquid water external environment export vapor, on the one hand, the higher humidity in the inside of transparent lamp shade 500 and temperature can be kept, The gentle environment that the algae hobby with the cloudy characteristic of happiness can be built, in favor of the growth and breeding of algae on algae layer 600； On the other hand, the liquid water in storage tank 410 can take away amount of heat during accelerating to evaporate, and in the process, dissipate Liquid water in hot chamber 213 will can continuously be transferred to accommodating from heat of the absorption of heat-dissipating pipe 210 from LED light 310 again Liquid water in slot 410, to form a benign cycle cooling system, good heat dispersion performance, and LED light 310 is sent out Light and storage tank 410 in the gentle steam that escapes can also be that algae on algae layers 600 provide a good growth Breed environment.Above-mentioned cycle cooling system and algae layer 600 growth and breeding environment together constitute one it is complete and good Ecological environment.

Also referring to Fig. 1 and Fig. 2, transparent lamp shade 500 has a hollow structure of both ends open, and the of transparent lamp shade 500 One end is set to heat dissipation base 100, and radiating subassembly 200, LED component 300 and input disc 400 are placed in transparent lamp shade 500 Portion, in this way, the liquid water external environment output vapor in storage tank 410 can be detained inside transparent lamp shade 500, to give Algae layer 600 builds a gentle environment.

It is emphasized that it is provided with interval between the edge and the madial wall of transparent lamp shade 500 of input disc 400, the institute Interval is stated for making external carbon dioxide (CO₂) enter to inside transparent lamp shade 500, wherein carbon dioxide is algae layer 600 On algae necessary to nutrient, by the offer of heat, steam, illumination and carbon dioxide may be constructed algae layer 600 on Condition element necessary to algal grown breeding can breathe out oxygen in the growth course of algae with inspiration carbon dioxide, from And the air purity of environment can be greatlyd improve, further, the algae on algae layer 600 is edible algae, in this way, receiving After collection, food materials full of nutrition are also used as, are achieved many things at one stroke.For example, edible algae includes spirulina and/or Qinghai Tongue.

For example, the carbon dioxide is produced by user's breathing, after entering in the transparent lamp shade, absorbed by algae, together When, oxygen is released, in this way, the air purity for the environment that user is breathed can be greatlyd improve.

In order to preferably allow the steam generated in storage tank 410 be detained inside transparent lamp shade 500, to reduce steam Loss, for example, the distance of the heat dissipation base to the input disc is less than the heat dissipation base to the of the transparent lamp shade The distance at two ends, in this way, so that the steam generated in storage tank 410 is detained inside transparent lamp shade 500, with Reduce the loss of steam.

Also referring to Fig. 2 and Fig. 3, algae layer 600 is attached to the madial wall of transparent lamp shade 500, what LED light 310 was sent out Light is for exposing to algae layer 600.For example, the algae on algae layer 600 is unicellular alga or seaweed.For example, every one Preset time also sprays the various nutrient solutions needed for the algae on the algae layer to the madial wall of the transparent lamp shade 500；Again Such as, algae spores are planted in advance on the transparent lamp shade by way of natural spatfall.

For example, the color of the algae on the algae layer is green, when the light that the LED light is sent out penetrates the algae When layer, " gloomy " illuminating effect of " faint green and green " can be generated, so as to make the algae lamps and lanterns be suitable for particular field It closes, for example, the places such as " haunted house ".For another example, the color of the algae on the algae layer includes green, red, brown and/or purple Deng correspondence can generate different illuminating effects, so as to build different artistic atmosphere and appreciation effect.

In order to advantageously promote the growth and breeding of algae, for example, the wavelength of light that sends out of the LED light be 420nm~ 500nm sends out blue light, in this way, the chlorophyll of algae and the assimilation ratio of carotenoid can be improved, so as to improve The photosynthesis of algae；For another example, the wavelength of light that the LED light is sent out is 620nm~750nm, that is, feux rouges is sent out, in this way, can To significantly increase the assimilation ratio of the chlorophyll of algae, so as to improve the photosynthesis of algae, in this way, can be preferably Promote the growth and breeding of algae.

In order to preferably control the algae lamps and lanterns work, for example, the algae lamps and lanterns further include wirelessly connecing It receives module, processing module and control module, the control module to be electrically connected with the LED light, the wireless receiving module is used for The wireless signal that simultaneously response external is sent is received, to send control signal to the control module, for example, external transmission is wireless Signal is the wireless signal that intelligent mobile terminal is sent, for example, the wireless signal that mobile phone, tablet or Intelligent bracelet are sent, is used for Being turned on and off for the LED light is controlled, the control module is for receiving and responding the control signal, to control control institute Being turned on and off for LED light is stated, in this manner it is achieved that the intelligent control and remote control of the algae lamps and lanterns, strengthen Control effect.

In order to further increase heat dissipation performance, for example, referring to Fig. 5, the madial wall of heat-dissipating pipe 210 protrudes setting inwardly There are several heat dissipation twisted sheets 214, and several heat dissipation twisted sheets 214 are placed in heat dissipation cavity 213, several heat dissipation twisted sheets 214 Interval is set successively；For another example, the side of the heat dissipation twisted sheet has the structure of arc；For another example, the side of the heat dissipation twisted sheet With arc-shaped structure；For another example, several heat dissipation twisted sheets are radially distributed centered on the axle center of the heat-dissipating pipe； For another example, six heat dissipation twisted sheets are set；For another example, the heat dissipation twisted sheet has helical structure, in this way, being turned round using heat dissipation Knee-piece 214 can increase cooling surface area, so as to further increase heat dissipation performance.

In order to further increase heat dissipation performance, for example, referring to Fig. 6, heat-dissipating pipe 210 includes ontology 215 and several heat dissipations Twisted strips 216, the ontology 215 with hollow structure is interior to form heat dissipation cavity 213, and several heat dissipation twisted strips 216 are placed in heat dissipation cavity In 213；For another example, several heat dissipation twisted strips mutually wind setting；For another example, the heat dissipation twisted strips have spiral knot Structure；For another example, the heat dissipation twisted strips have the cross section of circular configuration；For another example, the end of the heat dissipation twisted strips is stretched into described The inside of storage tank, in this way, cooling surface area can be increased using heat dissipation twisted strips 216, so as to further increase heat dissipation Performance.

In order to improve the bond area of the layer of algae on the transparent lamp shade, for example, referring to Fig. 7, transparent lamp shade 500 it is interior Side wall protrusion is provided with annular algae attachment platform 510, and 510 surface of annular algae attachment platform is used for periphtic algae layer 600, annular algae Class adheres to the sidewall slope setting of platform 510, in this way, the bond area of algae layer on the transparent lamp shade can be improved.

In order to further increase the bond area of algae layer on the transparent lamp shade, for example, the annular algae adheres to platform With first end and second end, the side wall of the annular algae attachment platform is gradually tilted from the first end to the second end, And gentle transition；For another example, the second end is arranged towards the radiating subassembly；For another example, the end face tool of the end of the second end There is planar structure；For another example, the end face of the end of the second end has globoidal structure, in this way, can further increase described The bond area of algae layer on light lampshade.

In order to improve the bond area of algae layer on the transparent lamp shade, for example, referring to Fig. 7, the inside of diffuser 500 Wall offers several algae attachment slots 520, and algae adheres to 520 surface of slot and is used for periphtic algae layer 500, and algae, which adheres to slot 500, to be had There is the structure of cuboid, in this way, the bond area of algae layer on the transparent lamp shade can be improved.

In order to further increase the bond area of algae layer on the transparent lamp shade, for example, algae attachment slot has The structure of cylinder；For another example, the side wall of the algae attachment slot and the bottom of algae attachment slot are perpendicular；For another example, described Several algae attachment double wedges are arranged in the bottom protrusion that algae adheres to slot；For another example, several algae attachment double wedge interval settings, this Sample can further increase the bond area of algae layer on the transparent lamp shade.

In order to make the liquid water in the storage tank preferably flow into the heat-dissipating pipe, for example, referring to Fig. 8, holding The bottom for setting slot 410 has ramp structure, and the inclined direction of the ramp structure is towards the heat dissipation base, the inclined-plane knot The extending direction on the inclined-plane of structure forms angle with the plane where the heat dissipation base；For another example, the number of degrees of the angle are 30 degree ~45 degree；For another example, the number of degrees of the angle are 35 degree~40 degree；For another example, the number of degrees of the angle are 37 degree；For another example, described oblique Face structure is gentle transition, in this way, the liquid water in the storage tank can be made preferably to flow into the heat-dissipating pipe.

Above-mentioned algae lamps and lanterns 10 are by being arranged heat dissipation base 100, radiating subassembly 200, LED component 300, input disc 400, transparent lamp shade 500 and algae layer 600, the heat that can be generated to LED component 300 are carried out quickly and are radiated in time, dissipate Hot property is preferable, and algae 600 absorbing carbon dioxide of layer breathe out oxygen, can be with pure air.

For example, the other embodiment of the algae lamps and lanterns of the present invention further includes each technology in the respective embodiments described above The intercombination of feature is formed by algae lamps and lanterns.

Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality It applies all possible combination of each piece of technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the range of this specification record.

Several embodiments of the invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously Cannot the limitation to the scope of the claims of the present invention therefore be interpreted as.It should be pointed out that for those of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the guarantor of the present invention Protect range.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims

1. a kind of algae lamps and lanterns, which is characterized in that including：

Radiating subassembly, the radiating subassembly include multiple heat-dissipating pipes, and each heat-dissipating pipe distortion setting, the heat-dissipating pipe has solid Fixed end and input terminal, the heat-dissipating pipe has hollow structure, interior to form heat dissipation cavity, for housing liquid water, the input terminal Input port being offered, and the input port is connected to the heat dissipation cavity, multiple fixing ends may be contained within the heat dissipation base, Wherein, the madial wall of the heat-dissipating pipe protrudes inwardly is provided with several heat dissipation twisted sheets, and several heat dissipation twisted sheets are equal It is placed in the heat dissipation cavity；

LED component, the LED component include multiple LED light, and multiple LED light are uniformly arranged on the outside of the heat-dissipating pipe Wall；

Input disc, the input disc offer storage tank, and for housing liquid water, multiple input terminals may be contained within described defeated Enter side of the disk far from the storage tank, the bottom of the storage tank offers multiple delivery outlets, and each delivery outlet is one by one Correspondence is connected to an input port, for making multiple heat dissipation cavities be connected to respectively with the storage tank；

There is the hollow structure of both ends open, the first end of the transparent lamp shade to be set to institute for transparent lamp shade, the transparent lamp shade Heat dissipation base is stated, the radiating subassembly, the LED component and the input disc are placed in inside the transparent lamp shade, described The distance of heat dissipation base to the input disc is less than the heat dissipation base to the distance of the second end of the transparent lamp shade；

Algae layer, the algae layer are attached to the madial wall of the transparent lamp shade, and the light that the LED light is sent out is for exposing to The algae layer；

Wherein, the heat-dissipating pipe includes sequentially connected first bending tube, the second bending tube and third bending tube, and described first is curved The junction of broken pipe and second bending tube has a structure that is bent in an arc shape of gentle transition, the third bending tube and described the The junction of two bending tubes is bent in an arc shape structure with gentle transition；

The algae lamps and lanterns further include wireless receiving module, processing module and control module, the control module with it is described LED light is electrically connected.

2. algae lamps and lanterns according to claim 1, which is characterized in that several heat dissipation twisted sheets are spaced successively to be set It sets.

3. algae lamps and lanterns according to claim 2, which is characterized in that the side of the heat dissipation twisted sheet has arc Structure.

4. algae lamps and lanterns according to claim 3, which is characterized in that the side of the heat dissipation twisted sheet has circular arc The structure of shape.

5. algae lamps and lanterns according to claim 1, which is characterized in that several heat dissipation twisted sheets are with the heat dissipation It radially distributes centered on the axle center of pipe.

6. algae lamps and lanterns according to claim 5, which is characterized in that six heat dissipation twisted sheets of setting.

7. algae lamps and lanterns according to claim 1, which is characterized in that the heat dissipation twisted sheet has spiral shape knot Structure.