CN111219607A

CN111219607A - Anion led lamp

Info

Publication number: CN111219607A
Application number: CN202010031703.6A
Authority: CN
Inventors: 许敏; 焦佳伟
Original assignee: 许敏
Current assignee: Foshan Shunde Jinxiang Lighting Appliance Co.,Ltd.
Priority date: 2020-01-13
Filing date: 2020-01-13
Publication date: 2020-06-02
Anticipated expiration: 2040-01-13
Also published as: CN111219607B

Abstract

The invention discloses an anion LED lamp which comprises a lampshade, wherein the upper end of the lampshade is connected with an installation plate in a penetrating and threaded manner, the lower end of the installation plate is fixed with a lamp wick, the inner wall of the lampshade is fixed with two groups of symmetrically arranged magnetic field structure mechanisms, each magnetic field structure mechanism consists of two symmetrically arranged electromagnets, the inner wall of the lampshade is fixed with a thermistor, the inner wall of the lampshade is symmetrically fixed with two water conveying blocks, and the insides of the two water conveying blocks are respectively provided with an airflow groove. Has the advantages that: the heat that wick work produced is absorbed by the ether in the liquid reserve tank for ether gasification, and gaseous state ether will enter into the cooling tube and cool off, make the heat absorbed by the coolant liquid in the cooling box, realized the transport to the inside heat of lamp shade, make the inside heat of lamp shade can not gather fast, and then make the temperature around the wick can not be too high, make it not damaged from the leisurely protected wick, increase the life of wick.

Description

Anion led lamp

Technical Field

The invention relates to the technical field of LED lamps, in particular to an anion LED lamp.

Background

led, a light emitting diode, is a solid state semiconductor device that can convert electrical energy into visible light, and can directly convert electricity into light; the led lamp has the remarkable advantages of low energy consumption and long service life, and thus is widely applied.

Although the existing led lamp is widely used, the disadvantage is also obvious, the effective service life and the light emitting effect of the existing led lamp are seriously affected by the large heat productivity and the heat generation, so that the use of the led lamp is limited, the heat dissipation effect of the existing led lamp is poor or a large amount of extra energy is used, the service life of the led lamp is still greatly affected and the waste of the extra energy is easily caused, the effective service life of the led lamp is reduced, the replacement frequency of the led lamp is improved, and the use cost is further increased.

Disclosure of Invention

The invention aims to solve the problem of poor heat dissipation of a lamp wick in the prior art, and provides an anion LED lamp.

In order to achieve the purpose, the invention adopts the following technical scheme: an anion LED lamp comprises a lampshade, wherein the upper end of the lampshade is connected with a mounting plate through threads, the lower end of the mounting plate is fixed with a lamp wick, the inner wall of the lampshade is fixed with two groups of symmetrically arranged magnetic field structure mechanisms, each magnetic field structure mechanism consists of two symmetrically arranged electromagnets, the inner wall of the lampshade is fixed with a thermistor, the inner wall of the lampshade is symmetrically fixed with two water conveying blocks, the insides of the two water conveying blocks are respectively provided with an airflow groove, the insides of the two airflow grooves are respectively provided with a plurality of heat dissipation mechanisms, the side wall of the lampshade is provided with a plurality of heat dissipation holes in a penetrating way, the side walls of the two water conveying blocks are respectively fixed with a liquid storage tank, the side walls of the two liquid storage tanks are respectively inserted with a connecting pipe communicated with the insides of the corresponding airflow grooves in a penetrating way, the upper end of the lampshade is symmetrically fixed with two cooling tanks, and the side wall of one end, two the cooling tube all runs through the inside intercommunication of corresponding cooler bin and corresponding liquid reserve tank, lamp shade inside is fixed with forces closing device.

In the above-mentioned anion led lamp, the heat dissipation mechanism includes the rotation groove of seting up in the air current inslot wall, the sealed penetration rotation in inner wall that rotates the groove is connected with the pivot, the pivot is located to rotate a section of circumference lateral wall in inslot portion and is fixed with a plurality of and takes the movable vane, the pivot is located to rotate a section of circumference lateral wall outside the groove and is fixed with a plurality of flabellums and a plurality of needles.

In foretell anion led lamp, force closing means is including fixing the current collection board on the lamp shade inner wall, the bottom of current collection board is fixed with the photo resistor, the inner wall of lamp shade is fixed with the cover plate, the shading cloth has been placed to the inner wall of cover plate, the current collection board is located inside the cover plate.

Compared with the prior art, the invention has the advantages that:

1. in the invention, heat generated by the work of the lamp wick is absorbed by the ether in the liquid storage tank, so that the ether is gasified, and the gaseous ether enters the cooling pipe to be cooled, so that the heat is absorbed by the cooling liquid in the cooling tank, the transportation of the heat in the lampshade is realized, the heat in the lampshade cannot be rapidly gathered, the temperature around the lamp wick cannot be too high, the lamp wick is protected from being damaged, and the service life of the lamp wick is prolonged;

2. according to the invention, as the working time of the lamp wick increases, the heat in the lampshade is gradually accumulated, so that the evaporation speed of ether in the liquid storage tank is greatly increased, the flowing speed of airflow in the airflow groove is increased, the driving plate is impacted to drive the rotating shaft to rotate, the fan blades rotate to generate wind power, the outward rapid diffusion of air in the lampshade is realized through the rotation of the fan blades, the temperature in the lampshade is effectively reduced, and the service life of the lamp wick is prolonged;

3. according to the invention, the needle blade is driven to rotate by the rotation of the rotating shaft, so that the needle blade continuously cuts magnetic induction lines, electrons, namely negative charges, are continuously gathered at the tip end of the needle blade, and negative ions are continuously diffused into the air by blowing of the fan blades, so that the negative ions are dispersed indoors, and the air purification and the human health are benefited;

4. in the invention, the electron transfer leads to the continuous power loss of the collector plate and has adsorption capacity, when a user forgets to close the wick when going out, the long-time work of the wick leads to the excessive loss of the electron current on the collector plate and the enhanced adsorption capacity, and the collector plate has enough adsorption capacity to attract the shading cloth after a certain time, so that the shading cloth shields the photoresistor, and further the open-close circuit of the wick is disconnected, so that the wick is forcibly closed, the ineffective use of the wick is avoided, and the effective service life of the wick is prolonged.

Drawings

FIG. 1 is a schematic structural view of an anion LED lamp according to the present invention;

FIG. 2 is a side cross-sectional view of an anion LED lamp according to the present invention;

FIG. 3 is a partial cross-sectional view of a portion of a reservoir;

fig. 4 is an enlarged schematic view of a portion a of fig. 1.

In the figure: 1 lampshade, 2 mounting plates, 3 lamp wicks, 4 electromagnets, 5 water delivery blocks, 6 liquid storage tanks, 7 cooling tanks, 8 cooling pipes, 9 airflow grooves, 10 rotating grooves, 11 rotating shafts, 12 driven blades, 13 fan blades, 14 needle blades, 15 heat dissipation holes, 16 thermistors, 17 collector plates, 18 photoresistors, 19 cover plates, 20 shading cloth and 21 connecting pipes.

Detailed Description

The following examples are for illustrative purposes only and are not intended to limit the scope of the present invention.

Examples

Referring to fig. 1-4, an anion led lamp comprises a lamp shade 1, the upper end of the lamp shade 1 is connected with a mounting plate 2 through a thread, the lower end of the mounting plate 2 is fixed with a lamp wick 3, the inner wall of the lamp shade 1 is fixed with two sets of symmetrically arranged magnetic field structure mechanisms, each magnetic field structure mechanism consists of two symmetrically arranged electromagnets 4, the inner wall of the lamp shade 1 is fixed with a thermistor 16, the inner wall of the lamp shade 1 is symmetrically fixed with two water delivery blocks 5, the water delivery blocks 5 are positioned between the two electromagnets 4, the inner parts of the two water delivery blocks 5 are both provided with airflow grooves 9, the inner parts of the two airflow grooves 9 are both provided with a plurality of heat dissipation mechanisms, the side wall of the lamp shade 1 is provided with a plurality of heat dissipation holes 15 through, the side walls of the two water delivery blocks 5 are both fixed with liquid storage tanks 6, the inner parts of the liquid storage tanks 6 are filled with ether solution, the, the upper end symmetry of lamp shade 1 is fixed with two cooler bins 7, two air current grooves 9 keep away from the one end lateral wall that corresponds liquid reserve tank 6 and all run through to be inserted and be equipped with cooling tube 8, two cooling tube 8 all run through the inside intercommunication of corresponding cooler bin 7 with corresponding liquid reserve tank 6, cooling tube 8 sets up at one section slope of cooler bin 7 inside, make ether after the liquefaction can flow to 6 one ends of liquid reserve tank under the action of gravity, cooling tube 8 is equipped with the check valve with the hookup location of liquid reserve tank 6, access to by cooler bin 8 to inside the

liquid reserve tank

6, 1 inside of lamp shade is fixed with forces closing device.

The heat dissipation mechanism is including offering the rotation groove 10 in airflow groove 9 inner wall, and the inner wall of rotation groove 10 is sealed to run through to rotate and is connected with pivot 11, and pivot 11 is located and rotates groove 10 inside one section circumference lateral wall and be fixed with a plurality of drive leaves 12, and pivot 11 is located and rotates groove 10 outer one section circumference lateral wall and be fixed with a plurality of flabellums 13 and a plurality of needles 14, and the one end that needles 14 kept away from pivot 11 is most advanced, the gathering of the electron of being convenient for.

The forced closing device comprises a collector plate 17 fixed on the inner wall of a lampshade 1, a photosensitive resistor 18 is fixed at the bottom of the collector plate 17, a cover plate 19 is fixed on the inner wall of the lampshade 1, shading cloth 20 is placed on the inner wall of the cover plate 19, the shading cloth 20 is made of black dry cloth and has a good shading effect, the collector plate 17 is located inside the cover plate 19, the shading cloth 20 is located under the photosensitive resistor 18, the photosensitive resistor 18 can be effectively shielded after the shading cloth 20 is moved upwards, the cover plate is a screen cover with 19-bit hollow parts and cannot obstruct the contact between the collector plate 17 and the air, meanwhile, the contact position between the collector plate 17 and the lampshade 1 is subjected to insulation treatment, the contact position between the rotating shaft 11 and the water conveying block 5 comprises an insulating layer, the random transfer of electrons is avoided, the rotating shaft 11 is connected with the collector.

In the invention, when the lamp wick 3 works, the lamp wick can emit light and generate heat, the heat inside the lampshade 1 is gradually accumulated along with the increase of heat production, so that the temperature inside the lampshade rises, ether solution inside the liquid storage box 6 is heated and evaporated into a gaseous state, the gaseous state ether enters the airflow groove 9 through the connecting pipe 21, the gaseous state ether passes through the airflow groove 9 and enters the cooling pipe 8, the cooling pipe 8 is soaked in cooling liquid in the cooling box 7, so that the gaseous state ether entering the cooling pipe 8 is gradually liquefied and flows to one end of the liquid storage box 6, the ether is evaporated and exhausted against the inside of the liquid storage box 6, the air pressure inside the liquid storage box 6 is low, the ether accumulated in the cooling pipe 8 passes through the one-way valve and enters the liquid storage box 6, the circulating flow of the ether is realized, the heat is absorbed through the ether gasification, the heat inside the lampshade 1 is carried out, and the heat dissipation inside the lampshade 1 is, the temperature of the air around the lamp wick 3 is reduced, so that the service life of the lamp wick 3 is longer;

along with the increase of the working time of the lamp wick 3, the heat dissipated only by ether gasification is limited, the temperature in the lampshade 1 can slowly rise, along with the accumulation of the temperature in the lampshade 1, the evaporation speed of ether in the liquid storage tank 6 is rapidly increased, so that the amount of gaseous ether entering the airflow groove 9 in unit time is increased, the air pressure in the airflow groove 9 is further increased, the airflow circulation speed is increased, the driving blade 12 drives the rotating shaft 11 to rotate under the impact of airflow, the rotating blade 13 is driven to rotate through the rotation of the rotating shaft 11, the wind power is generated by the blade 13, the airflow speed in the lampshade 1 is accelerated, the airflow circulation inside and outside the lampshade 1 is accelerated, the hot air in the lampshade 1 is rapidly diffused outwards, and the effective heat dissipation is further realized;

the rotating shaft 11 can drive the needle blade 14 to rotate while rotating, so that the needle blade 14 continuously cuts the magnetic field formed by the electromagnet 4 through rotation, electrons on the needle blade 14 move to the tip of the needle blade 14 under the action of Lorentz force and are gradually gathered, and the electrons are blown by wind force generated by the fan blades 13 to be diffused into air to form negative ion beams, and the negative ion beams are diffused indoors along with airflow, so that indoor air purification is realized, the indoor air quality is improved, and the human health is benefited, and the resistance value of the thermistor 16 is continuously reduced along with the rise of the internal temperature of the lampshade 1, so that the magnetic force of the electromagnet 4 is continuously increased, the gathering speed of the electrons is increased, the generation amount of the electrons, namely negative ions is improved, and the indoor environment purification effect is improved;

the electron lost on the collector plate 17 is gradually increased along with the continuous diffusion of the negative ions on the needle blades 14 into the air, after the wick 3 works for a long time, the collector plate 17 is electrified and has adsorption capacity, the adsorption capacity is increased along with the working duration of the wick 3, when a user forgets to close the wick 3 when going out, the wick 3 is in a working state for a long time, the adsorption capacity of the collector plate 17 is increased, the shading cloth 20 is attracted when the adsorption capacity of the collector plate 17 is increased to a certain degree, the shading cloth 20 is adsorbed on the surface of the shading cloth, the shading cloth 20 shields the photosensitive resistor 18, the photosensitive resistor 18 does not receive external illumination any more, the resistance value of the photosensitive resistor 18 is rapidly increased, the current in the power-on circuit of the wick 3 is extremely small, the on-off circuit of the circuit is disconnected, and the lighting function of the wick 3 can be recovered by, after wick 3 is out of work, just also can not be in the production of heat, needle leaf 14 does not rotate under this state, there will not be electron transfer, and then make the electron on the current collection board 17 can not continue to shift, along with the neutralization of free electron to current collection board 17 in the air, make current collection board 17 progressively saturate and no longer electrified, shading cloth 20 will drop this moment and break away from photo resistance 18, photo resistance 18 resistance reduces, can not influence follow-up restart wick 3, the invalid work of avoiding wick 3 that can be fine when the user goes out to forget to close wick 3, increase wick 3's effective life, the energy has been practiced thrift simultaneously, avoid the endless waste of electric energy.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. An anion LED lamp comprises a lampshade (1), wherein the upper end of the lampshade (1) is connected with a mounting plate (2) through threads, the lower end of the mounting plate (2) is fixed with a lamp wick (3), and the anion LED lamp is characterized in that two sets of magnetic field structure mechanisms which are symmetrically arranged are fixed on the inner wall of the lampshade (1), each magnetic field structure mechanism consists of two electromagnets (4) which are symmetrically arranged, a thermistor (16) is fixed on the inner wall of the lampshade (1), two water conveying blocks (5) are symmetrically fixed on the inner wall of the lampshade (1), airflow grooves (9) are formed in the two water conveying blocks (5), a plurality of heat dissipation mechanisms are arranged in the airflow grooves (9), a plurality of heat dissipation holes (15) are formed in the side wall of the lampshade (1), and a liquid storage tank (6) is fixed on the side wall of the water conveying blocks (5), two the lateral wall of liquid reserve tank (6) all runs through to be inserted and is equipped with and correspond connecting pipe (21) of inside intercommunication of air current groove (9), the upper end symmetry of lamp shade (1) is fixed with two cooler bins (7), two the one end lateral wall that corresponds liquid reserve tank (6) is kept away from in air current groove (9) all runs through to be inserted and is equipped with cooling tube (8), two cooling tube (8) all run through corresponding cooler bin (7) and correspond the inside intercommunication of liquid reserve tank (6), lamp shade (1) inside is fixed with forces closing device.

2. The anion led lamp as claimed in claim 1, wherein the heat dissipation mechanism comprises a rotating groove (10) formed in the inner wall of the airflow groove (9), the inner wall of the rotating groove (10) is connected with a rotating shaft (11) in a sealing and penetrating manner, a plurality of movable blades (12) are fixed on the circumferential side wall of the rotating shaft (11) located at one section inside the rotating groove (10), and a plurality of fan blades (13) and a plurality of needle blades (14) are fixed on the circumferential side wall of the rotating shaft (11) located at one section outside the rotating groove (10).

3. The negative ion led lamp as claimed in claim 1, wherein the forced closing means comprises a current collecting plate (17) fixed on the inner wall of the lamp housing (1), a photo resistor (18) is fixed at the bottom of the current collecting plate (17), a cover plate (19) is fixed on the inner wall of the lamp housing (1), a shading cloth (20) is placed on the inner wall of the cover plate (19), and the current collecting plate (17) is located inside the cover plate (19).