CN214713608U - Light anion module and lamp using same - Google Patents

Abstract

The utility model relates to an air purification technical field specifically is light anion module and uses its lamps and lanterns, and light anion module includes: a composite circuit board mounted with a light source and an anion releaser; the negative ion generator circuit board is electrically connected with the composite circuit board; a spacer disposed between the composite circuit board and the ionizer circuit board for spacing the composite circuit board and the ionizer circuit board apart. The utility model discloses light anion module and use its lamps and lanterns sets up the separator and separates both apart between composite circuit board and anion generator circuit board, has effectively avoided anion releaser to cause the harm to anion generator circuit board at the high pressure or the electrified spark that release anion in-process produced, has consequently improved light anion module's life.

Description

Light anion module and lamp using same

Technical Field

The utility model relates to an air purification technical field specifically is light anion module and uses its lamps and lanterns.

Background

Negative air (oxygen) ions (NAI) are a generic term for negatively charged individual gas molecules and hydrogen ion clusters. In natural ecosystems, forests and wetlands are important sites for generating negative (oxygen) ions in air. The air quality control system has a regulating effect on the aspects of air purification, urban microclimate and the like, and the concentration level of the air quality control system is one of indexes for urban air quality evaluation. In order to improve the air quality, people usually use an anion air purifier; the negative ion air purifier is a device for generating air negative ions, and after input direct current or alternating current is processed by an EMI processing circuit and a lightning stroke protection circuit, the device carries out overvoltage current limiting through a pulse type circuit; high-low voltage isolation and other lines are raised to alternating current high voltage, then pure direct current negative high voltage is obtained after rectification and filtration through special grade electronic materials, the direct current negative high voltage is connected to a release tip made of metal or carbon elements, high corona is generated by utilizing the tip direct current high voltage, a large amount of electrons (e-) are emitted at high speed, the electrons cannot exist in the air for a long time (the service life of the existing electrons is only nS grade), and the electrons can be immediately captured by oxygen molecules (O2) in the air, so that air negative ions are generated. With the continuous development of science and technology, some products combining the anion generator and the lamp are appeared, but the anion carbon brush of the product is close to the anion generator, the electronic components and the circuit board, so that the high voltage or electrified sparks generated in the process of releasing anions by the anion carbon brush can damage the anion generator, the electronic components and the like, and the service life is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a light anion module and use its lamps and lanterns, the high pressure or electrified spark that aim at solving among the prior art anion carbon brush and produce at the in-process of release anion can lead to the fact the harm to anion generator, electronic components etc. influence life's technical problem.

In order to achieve the above object, the utility model provides an optical anion module, include:

a composite circuit board mounted with a light source and an anion releaser;

the negative ion generator circuit board is electrically connected with the composite circuit board;

a spacer disposed between the composite circuit board and the ionizer circuit board for spacing the composite circuit board and the ionizer circuit board apart. The damage of high voltage or electrified sparks generated by the negative ion releaser in the negative ion releasing process to the negative ion generator circuit board is effectively avoided, and the service life of the optical negative ion module is prolonged.

Preferably, the isolation piece is a jacking column, and two ends of the jacking column are respectively connected with the composite circuit board and the negative ion generator circuit board. The composite circuit board and the negative ion generator circuit board can be connected together, and the distance between the composite circuit board and the negative ion generator circuit board can be ensured.

Preferably, at least two jacking columns are arranged between the composite circuit board and the negative ion generator circuit board. The connection between the composite circuit board and the circuit board of the negative ion generator is more stable.

Preferably, the composite circuit board is provided with a spacing groove between the light source and the negative ion releaser. The damage of the high voltage of the negative ion releaser to the light source is avoided.

Preferably, a plurality of the spacing grooves are arranged between the light source and the negative ion releaser, and the spacing grooves are uniformly arranged at intervals. The damage of the high voltage of the negative ion releaser to the light source is avoided.

Preferably, the light source is one or more of a white light LED, an infrared LED, and an ultraviolet LED. The light anion module can have multiple functions and is more practical in life.

Preferably, a plurality of the light sources are uniformly distributed around the center of the composite circuit board; the negative ion releaser is installed at the center of the composite circuit board. And a spacing groove is conveniently arranged between the negative ion releaser and the light source.

Preferably, the negative ion generator further comprises a resin layer, and the negative ion generator circuit board and the spacer are encapsulated in the resin layer. The resin layer can play the effect of dampproofing and placing high-pressure spark to anion generator circuit board.

Preferably, the negative ion generator further comprises a housing, and the composite circuit board, the negative ion generator circuit board and the separator are all located in the housing. The sealing performance of the photo-anion module structure can be improved.

On the other hand, the utility model discloses still provide a lamps and lanterns, include as above arbitrary one light anion module. The beneficial effects related to the photo-anion module are provided.

The utility model discloses light anion module and use its lamps and lanterns have following beneficial effect at least: the composite circuit board and the negative ion generator circuit board are separated by the partition piece, so that the negative ion generator circuit board is effectively prevented from being damaged by high voltage or electrified sparks generated by the negative ion releaser in the negative ion releasing process, and the service life of the optical negative ion module is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic cross-sectional structure diagram of the photo-anion module of the present invention;

fig. 2 is the structure diagram of the utility model after the resin layer and the shell are removed by the photo-anion module.

In the drawings: 1-composite circuit board, 11-spacing groove, 2-light source, 3-anion releaser, 4-anion generator circuit board, 5-spacer, 6-resin layer, 7-shell and 8-electronic component.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1 to 2, the photo-anion module includes:

a composite circuit board 1 mounted with a light source 2 and an anion releaser 3;

the negative ion generator circuit board 4 is electrically connected with the composite circuit board 1;

a spacer 5 disposed between the composite circuit board 1 and the anion generator circuit board 4 for spacing the composite circuit board 1 and the anion generator circuit board 4 apart.

The light source 2 and the anion releaser 3 are both installed on the composite circuit board 1, the light source 2 can emit specific light to achieve specific effects, and the anion releaser 3 is used for generating anions (namely, negative oxygen ions) through high-voltage discharge. The negative ion generator circuit board 4 is electrically connected with the composite circuit board 1 and is used for controlling the negative ion releaser 3 to discharge at high voltage and generate negative ions. Other electronic components 8 such as resistors and the like may be mounted on the ionizer circuit board 4. A spacer 5 for spacing the composite circuit board 1 and the ionizer circuit board 4 apart from each other is provided between them. The anion releaser 3 can adopt an anion carbon brush or an anion needle tip; the negative ion carbon brush is impact-resistant, and the negative ion needle tip is easy to discharge.

With the continuous development of science and technology, some products combining the anion generator and the lamp are appeared, but the anion carbon brush of the product is close to the anion generator, the electronic component 8 and the circuit board, so that the high voltage or electrified sparks generated in the process of releasing anions by the anion carbon brush can damage the anion generator, the electronic component 8 and the like, and the service life is influenced. According to the technical scheme, the isolating piece 5 is arranged between the composite circuit board 1 and the anion generator circuit board 4 to separate the composite circuit board and the anion generator circuit board, so that the damage of high voltage or electrified sparks generated by the anion releaser 3 in the anion releasing process to the anion generator circuit board 4 is effectively avoided, and the service life of the optical anion module is prolonged.

The light anion module mainly has the function of purifying air, and the light anion module provided by the technical scheme has the advantages of small volume and low manufacturing cost, and is conveniently combined into a life scene; for example, the photo-anion module can be arranged in equipment such as lamps, air conditioners, fans and the like, so that the equipment has an air purification function, and an air purifier does not need to be additionally arranged.

Further, the isolation piece 5 is a jacking column, and two ends of the jacking column are respectively connected with the composite circuit board 1 and the negative ion generator circuit board 4.

The separator 5 may take various forms, such as an insulating film or the like. In the embodiment, the spacer 5 is a top high column, the two ends of the top high column are respectively connected with the composite circuit board 1 and the anion generator circuit board 4, the top high column not only connects the composite circuit board 1 and the anion generator circuit board 4 together to form a whole, but also isolates the two, and the anion releaser 3 is prevented from damaging the anion generator circuit board 4. The jacking columns are used as the spacers 5, so that the composite circuit board 1 and the negative ion generator circuit board 4 can be connected together, the distance between the two can be ensured, the negative ion generator circuit board 4 is prevented from being damaged, and the mutual influence between the two on heat dissipation is avoided; on the other hand, the jacking columns with different lengths can be arranged according to requirements.

Further, at least two jacking columns are arranged between the composite circuit board 1 and the negative ion generator circuit board 4.

At least two jacking columns are arranged; when two jacking pillars are arranged, the two jacking pillars can be symmetrically arranged relative to the center of the composite circuit board 1; when more than three jacking pillars are arranged, the more than three jacking pillars can be uniformly distributed around the center of the composite circuit board 1 at intervals; the technical scheme does not limit the specific number of the jacking pillars. The plurality of jacking columns are arranged, so that the composite circuit board 1 and the negative ion generator circuit board 4 can be connected more stably.

Further, the composite circuit board 1 is provided with a spacing groove 11 between the light source 2 and the negative ion releaser 3.

The light source 2 and the negative ion releaser 3 are both arranged on the composite circuit board 1, so that the light source and the negative ion releaser are simultaneously provided with current by the composite circuit board 1; the negative ion releaser 3 needs a high voltage of more than 4000V to ionize the air to form negative ions, but the light emitted by the light source 2 does not need such a high voltage, so a large voltage difference exists between the two. In the embodiment, the spacing groove 11 is arranged between the anion releaser 3 and the light source 2, so that the resistance between the anion releaser 3 and the light source 2 is increased, and the light source 2 can normally emit light rays on the basis that the anion releaser 3 can normally release anions; the spacer 11 prevents the light source 2 from being damaged by the high voltage of the negative ion discharger 3.

Furthermore, a plurality of spacing grooves 11 are arranged between the light source 2 and the negative ion releaser 3, and the spacing grooves 11 are uniformly arranged at intervals.

The number of the spacing grooves 11 can be set according to requirements, and can be one, two, three or more; when a plurality of the spacing grooves 11 are provided, the plurality of the spacing grooves 11 may be uniformly spaced between the light source 2 and the negative ion releaser 3. The number of the spacing grooves 11 can be made larger as the voltage applied to the negative ion releaser 3 is higher. A plurality of spaced grooves 11 are provided, the main purpose being to avoid the high voltage of the anion releaser 3 from causing damage with the light source 2.

Further, the light source 2 is one or more of a white light LED, an infrared LED, and an ultraviolet LED.

The white light LED can emit white light for illumination; the infrared LED can emit infrared rays, and the infrared rays irradiate a human body, so that the blood circulation can be improved, the metabolism can be enhanced, the circulation system can be improved, and the immunity of the human body can be improved, thereby having the physiotherapy function; the ultraviolet LED can emit ultraviolet rays outwards to sterilize and disinfect air. On the other hand, the ultraviolet light source 2LED can emit ultraviolet rays with a wave band of 250 nm-300 nm, and can generate oxygen under the action of ozone generated by the negative ion releaser 3 during working, so that the harm of the ozone to human bodies is reduced. When the light source 2 is a white light LED, the light anion module has the functions of purifying air and lighting; when the light source 2 is an infrared LED, the light anion module has the functions of purifying air and improving the immunity of a human body; when the light source 2 is an ultraviolet LED, the light anion module has the functions of air purification and sterilization; when the light source 2 is two or three of the three, the above-mentioned related multiple functions are provided; therefore, the optical anion module has multiple functions and is more practical in life.

Further, a plurality of light sources 2 are uniformly distributed around the center of the composite circuit board 1; the negative ion releaser 3 is installed at the center of the composite circuit board 1.

The plurality of light sources 2 are uniformly distributed around the center of the composite circuit board 1, and if the composite circuit board 1 is circular, the plurality of light sources are uniformly distributed around the center of the composite circuit board 1; that is, the distance between each light source 2 and the center of the composite circuit board 1 is equal, and the distance between two adjacent light sources 2 is equal. Set up a plurality of light sources 2, and evenly distributed sets up, can make the effect that light source 2 can reach better, if a plurality of light sources 2 are white light LED, then the illuminating effect is better. The anion releaser 3 is specifically installed at the center of the composite circuit board 1, and a spacing groove 11 can be conveniently arranged between the anion releaser 3 and the light source 2.

Further, the negative ion generator circuit board comprises a resin layer 6, and the negative ion generator circuit board 4 and the spacer 5 are packaged in the resin layer 6.

The resin layer 6 mainly comprises epoxy resin, and the anion generator circuit board 4 and the spacer 5 are encapsulated in the resin layer 6 by the following specific method: assembling the photo-anion module, and then placing the photo-anion module in a forming die; heating the epoxy resin to a molten state; then, injecting epoxy resin into the forming die through the spacing groove 11 or a gap between the composite circuit board 1 and the forming die, wherein at the moment, the injected epoxy resin cannot cover the light source 2 and the negative ion releaser 3; after the epoxy resin is cooled and formed, a resin layer 6 is formed; therefore, the anion generator circuit board 4 and the spacer 5 are encapsulated in the resin layer 6. Of course, the packaging method can also be: firstly, adding epoxy resin in a molten state into a forming die, and then inserting the assembled photo-anion module into the forming die by taking an anion generator circuit board 4 as a front end, wherein the light source 2 and the anion releaser 3 cannot be immersed into the epoxy resin; after the epoxy resin is cooled and molded, the circuit board 4 of the negative ion generator and the spacer 5 are packaged in the resin layer 6. The resin layer 6 is arranged, so that the negative ion generator circuit board 4 and the electronic component 8 mounted on the negative ion generator circuit board can be packaged, the aim of moisture prevention is fulfilled, and the negative ion generator circuit board 4 can be prevented from being damaged by high voltage or electrified sparks generated by the negative ion releaser 3; on the other hand, the resin layer 6 can also make the structure of the photo-anion module more stable.

Further, the composite circuit board 1, the negative ion generator circuit board 4 and the spacer 5 are all located in the shell 7.

The composite circuit board 1, the negative ion generator circuit board 4 and the isolating piece 5 are arranged in the hollow shell 7, so that the sealing performance of the negative ion module structure can be improved; and the shell 7 can also be used as a forming die of the encapsulating resin layer 6, namely after the composite circuit board 1, the anion generator circuit board 4 and the spacer 5 are arranged in the shell 7, the fused epoxy resin is poured into the shell 7, after the epoxy resin is cooled and formed, the resin layer 6 is formed in the shell 7, and the anion generator circuit board 4 and the spacer 5 are both encapsulated in the resin layer 6.

In another aspect, a luminaire includes any one of the photo-anion modules described above. The light anion module has compact structure and smaller volume, and can be conveniently arranged on a lamp, thereby being more practical; on the other hand, when the light anion module is arranged on the lamp, the light source can be the same as the lamp source of the lamp, so that the lighting effect of the lamp cannot be influenced. Meanwhile, the lamp equipped with the photo-anion module also has the beneficial effects related to the photo-anion module, which are not repeated herein.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. An optical anion module, comprising:

a composite circuit board (1) mounted with a light source (2) and an anion releaser (3);

the negative ion generator circuit board (4) is electrically connected with the composite circuit board (1);

a spacer (5) disposed between the composite circuit board (1) and the anion generator circuit board (4) for spacing the composite circuit board (1) and the anion generator circuit board (4) apart.

2. The photo-anion module of claim 1 wherein: the isolating piece (5) is a jacking column, and two ends of the jacking column are respectively connected with the composite circuit board (1) and the negative ion generator circuit board (4).

3. The photo-anion module of claim 2 wherein: at least two jacking columns are arranged between the composite circuit board (1) and the negative ion generator circuit board (4).

4. The photo-anion module of claim 1 wherein: the composite circuit board (1) is provided with a spacing groove (11) between the light source (2) and the negative ion releaser (3).

5. The photo-anion module of claim 4 wherein: be equipped with many between light source (2) and anion releaser (3) interval groove (11), many interval groove (11) interval evenly sets up.

6. The photo-anion module of claim 1 wherein: the light source (2) is one or more of a white light LED, an infrared LED and an ultraviolet LED.

7. The photo-anion module of claim 1 wherein: the light sources (2) are uniformly distributed around the center of the composite circuit board (1); the negative ion releaser (3) is installed at the center of the composite circuit board (1).

8. The photo-anion module of claim 1 wherein: the negative ion generator further comprises a resin layer (6), and the negative ion generator circuit board (4) and the spacer (5) are packaged in the resin layer (6).

9. The photo-anion module of claim 1 wherein: the composite circuit board is characterized by further comprising a shell (7), wherein the composite circuit board (1), the negative ion generator circuit board (4) and the isolating piece (5) are all located in the shell (7).

10. A light fixture, characterized by: comprising the photo-anion module of any of claims 1 to 9.

Images