CN210291451U - Multifunctional lamp - Google Patents

Abstract

The utility model relates to a multifunctional lamp, including lamp shade, LED lamp base plate, the lamp shade is including the preceding lamp shade, the back lamp shade that link to each other, LED lamp base plate is fixed to be set up in the back lamp shade, be provided with heat radiation structure on the back lamp shade, the lower terminal surface distribution of LED lamp base plate has a plurality of full gloss register LED that are located the preceding lamp shade, is provided with the filter layer in the back lamp shade at LED lamp base plate rear, the antibiotic layer has been covered on the filter layer, set up the base plate hole on the LED lamp base plate, the below of preceding lamp shade is provided with rectangular air intake, be provided with the air outlet on the lateral wall of back lamp shade, the filter layer is located between base plate hole and the air outlet, air outlet department is provided with the driving source that is. The utility model prolongs the service life and healthy light source of the full spectrum LED; purifying air; the physical filtration of the filter layer and the bacteriostatic and antibacterial effects of the antibacterial layer can be kept; and the cost is lower.

Description

Multifunctional lamp

Technical Field

The utility model relates to a lamps and lanterns especially relate to a multifunctional lamp.

Background

With the development of society and the improvement of people on environmental awareness, the modern life of people is troubled by the problems of atmospheric haze, PM2.5, indoor formaldehyde release, influenza virus and bacteria infection, stroboflash of common lighting lamps and blue light radiation, and the influence of the blue light radiation on the vision of people, especially teenagers. Some schools, institutions, and homes are attempting to address and improve through various means, such as installing air purifiers in rooms. The whole system has more invested facilities, large occupied area, high cost and low safety.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model aims to provide a multifunctional lamp which prolongs the service life of the lamp, has a healthy light source, can play the role of purifying air, and has good antibacterial effect and low cost.

In order to achieve the above purpose, the utility model discloses a technical scheme is: the utility model provides a multifunctional lamp, includes lamp shade, LED lamp base plate, the lamp shade is including preceding lamp shade, the back lamp shade that links to each other, LED lamp base plate is fixed to be set up in the lamp shade of back, be provided with heat radiation structure on the back lamp shade, the lower terminal surface distribution of LED lamp base plate has a plurality of full gloss register for easy reference LED that are located preceding lamp shade, be provided with the filter layer in the back lamp shade of LED lamp base plate rear, the filter layer coats and is equipped with antibiotic layer, set up the base plate hole on the LED lamp base plate, the below of preceding lamp shade is provided with rectangular air intake, be provided with the air outlet on the lateral wall of back lamp shade, the filter layer is located between base plate hole and the air outlet, air outlet department is provided with the.

The utility model discloses multifunctional lamp's beneficial effect is, the driving source (if adopt the fan) is used for improving the heat energy that produces by full gloss register for easy reference LED and drives the air convection, and partly cold air gets into from the front lampshade air intake, mixes with the hot-air that produces by full gloss register for easy reference LED, has reduced the heat energy that full gloss register for easy reference LED produced to a certain extent, compares with the heat dissipation of the heat radiation structure heat dissipation that the current LED lamp only leaned on the back, and the radiating effect of this application promotes greatly, has prolonged full gloss register for easy reference LED's life; the heat energy generated by the full-spectrum LED drives the air in the front lampshade and the air outside the lamp to pass through the filter layer, the filter layer filters and performs antibacterial treatment on the air in the front lampshade and the air in the lamp, and the filtered air is discharged from the air outlet, so that the air purification effect is realized; the antibacterial layer is used for sterilizing organic matter macro-molecular groups in harmful substances such as formaldehyde, ammonia, benzene, various viruses and bacteria and the like are decomposed into water and carbon dioxide in a broad-spectrum, long-acting, rapid and safe manner, in addition, the filter layer can absorb moisture in air during filtering, a water film is formed on the surface of the filter layer, and then the adsorption capacity and the antibacterial effect of the filter layer and the antibacterial layer are reduced; and the filter layer is arranged in the lampshade of the lamp, so that the cost is low.

Preferably, a partition plate is arranged in the rear lamp cover, the partition plate divides the rear lamp cover into at least two mutually independent filtering areas, and each filtering area corresponds to one substrate hole, one air inlet, one air outlet, one driving source and one filtering layer. The lampshade is arranged into a plurality of mutually independent filtering areas, so that the filtering layer of each filtering area can be conveniently and independently drawn out, replaced and cleaned.

Preferably, each driving source is connected with a system control board, an alternating current power line port is arranged on the system control board, and a power supply supplied to the LED lamp substrate by the system control board is a constant current power supply. The input voltage of the alternating current power line port is 100-240V, and the output LED supplies power to be constant current so as to reduce stroboflash. In addition, the system control board can control the starting or non-starting of the driving source of each filtering area, the driving sources can be started together or in sequence through the control of the system control, and when the driving sources are started in sequence, the noise generated when the driving sources run can be reduced.

Preferably, the rear lamp shade is provided with silencing cotton, and the silencing cotton is attached to the inner side of the rear lamp shade. So as to reduce the cavity resonance noise generated in the air flow.

Preferably, the drive source is a dc turbine mute motor. Further reducing the noise caused by the driving source.

Preferably, the air inlets are located on two sides below the front lampshade, and the air outlets are located at two ends of the rear lampshade. The air current that the setting of driving source can strengthen wind gap department flows, and the user under the lamps and lanterns can obviously feel the air current and flow, causes the discomfort then, so with the both sides of air intake setting in the front lampshade below, the air outlet setting is at the side both ends, can avoid under the lamps and lanterns user to feel windy.

Preferably, an antireflection film is arranged on the front lampshade, or/and the front lampshade is wrapped by the lower end of the rear lampshade, and a concave surface (namely an obtuse angle) is formed at the position, where the lower end surface of the rear lampshade is slightly lower than the outer eave connecting part of the front lampshade. Two kinds of modes can both be in order to avoid dazzling and the facula problem that LED lamp light source direct irradiation produced, plate antireflection coating on preceding lamp shade surface for the reverberation that the surface produced around the rete interferes with each other, thereby has offset the reverberation, reaches the effect of antireflection, thereby increases the luminousness to more than 90%, uses the stray light of lamp shade surface atomizing in order to reduce or eliminate the system simultaneously.

Preferably, the filter layer includes from supreme nylon primary filter screen, antibiotic particle layer, HEPA down, antibiotic layer all sets up on nylon primary filter screen, antibiotic particle layer, HEPA. The air can filter most large granule dust and flock through nylon primary filter screen, and nylon primary filter screen live time is dirty for a long time, can take out, and the washing is used repeatedly. The antibacterial particle layer can filter tiny dust, expel PM2.5, formaldehyde and have antibacterial effect, and can also be pumped out, washed with water, dried and then put back, or pumped out and replaced. After two layers of physical filtration, air is discharged through the air outlet after passing through the antibacterial HEPA, the antibacterial layer on the HEPA can be made of inorganic nano materials with strong adsorption capacity, and the materials are nontoxic, long-acting, broad-spectrum and efficient in decomposing various pathogenic and toxic pollutants such as bacteria, viruses, formaldehyde, ammonia gas and the like into carbon dioxide and water, so that secondary pollution can not be generated. The generated water and the absorbed environmental moisture generate heat due to the work of the full-spectrum LED, so that the passing air becomes hot air, the heat dissipation of the LED is facilitated, the lighting life is prolonged, the water and the moisture can be taken away in time, the drying effect is achieved, and the system is promoted to keep the antibacterial and antibacterial efficiency for a long time.

Preferably, the nylon primary filter screen is detachably arranged in each filter area. The use time is set after every filtration area viscera for a long time, can dismantle, and the washing is used repeatedly.

Drawings

FIG. 1 is a front view of the present embodiment;

fig. 2 is a bottom view at a in fig. 1.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Referring to fig. 1 and 2, the multifunctional lamp of this embodiment, including lamp shade 1, LED lamp substrate 2, lamp shade 1 includes continuous front lamp shade 8, back lamp shade 9, fixed the setting in back lamp shade 9 of LED lamp substrate 2, be provided with heat radiation structure on the back lamp shade 9, the lower terminal surface distribution of LED lamp substrate 2 has a plurality of full gloss register LEDs 3 that are located front lamp shade 8, be provided with filter layer 4 in the back lamp shade 9 of LED lamp substrate 2 rear, the antibiotic layer has been covered on filter layer 4, set up substrate hole 5 on the LED lamp substrate 2, the below of front lamp shade 8 is provided with rectangular air intake 6, be provided with air outlet 7 on the lateral wall of back lamp shade 9, filter layer 4 is located between substrate hole 5 and air outlet 7, air outlet 7 department is provided with the driving source that is used for taking out wind to air outlet 7. The driving source (such as a fan) is used for improving the convection of air driven by the heat energy generated by the full-spectrum LED3, and a part of cold air enters from the air inlet 6 of the front lampshade 8 and is mixed with the hot air generated by the full-spectrum LED3, so that the heat energy generated by the full-spectrum LED3 is reduced to a certain extent, the heat dissipation effect is greatly improved, and the service life of the full-spectrum LED3 is prolonged; the heat energy generated by the full-spectrum LED3 drives the air in the front lampshade 8 and the air outside the lamp to pass through the filter layer 4, the filter layer 4 filters and antibacterial treats the air in the two parts of the air, and the filtered air is discharged from the air outlet 7, so that the air purification effect is realized; most antibiotic layer's degerming mode is decomposed the organic matter macromolecule group in harmful substances such as formaldehyde, ammonia, benzene and is water and carbon dioxide, in addition filter layer 4 can absorb the moisture in the air when filtering, the surface of filter layer 4 forms the water film, lead to the adsorption efficiency of filter layer 4 and antibiotic layer then, antibiotic effect reduces, and the outside cold air of hot-air and 6 departments of air intake in the lamp shade 1 in this application passes through filter layer 4 along with the air current, the temperature after hot-air combines with the cold air still has certain heat, can be with filter layer 4, the drying of antibiotic layer, keep filter layer 4, the dry state of antibiotic layer, filter layer 4 has then been kept, the filtration of antibiotic layer, antibiotic function.

Wherein, filter layer 4 includes from the nylon primary filter 41 of supreme down, antibiotic particle layer 42, HEPA43, and antibiotic layer all sets up on nylon primary filter 41, antibiotic particle layer 42, HEPA 43. If the antibacterial layer can be arranged on the HEPA43, the antibacterial layer can be made of inorganic nano materials with strong adsorption capacity, and the materials are nontoxic, long-acting, broad-spectrum and efficient in decomposing various pathogenic and toxic pollutants such as bacteria, viruses, formaldehyde, ammonia gas and the like into carbon dioxide and water, so that secondary pollution can not be generated.

The antibacterial particle layer 42 can filter tiny dust, remove PM2.5, formaldehyde and has antibacterial effect. After two-layer physics filters, the air is got rid of through air outlet 7 behind antibiotic HEPA43, and the water and the absorbent ambient moisture of production make the past air become the hot-air because of full-spectrum LED3 work produces the heat, help the LED heat dissipation, prolong lighting life, can in time take away these water and moisture simultaneously, play the drying effect, promote the system to keep antibacterial antibiotic efficiency for a long time.

In this embodiment, a partition plate 10 may be disposed in the rear lamp cover 9, the partition plate 10 partitions the rear lamp cover 9 into at least two mutually independent filtering regions 11, and each filtering region 11 corresponds to one substrate hole 5, one air inlet 6, one air outlet 7, one driving source, and one filtering layer 4. The lampshade 1 is provided with a plurality of mutually independent filtering areas 11 so as to facilitate the filtering layer 4 of each filtering area 11 to be drawn out for replacement and cleaning, and the structure can be selected according to requirements. The nylon primary filter screen 41 detachably sets up in every filtration zone 11, and the air passes through nylon primary filter screen 41 earlier, can filter most large granule dust and flock, and nylon primary filter screen 41 live time is dirty for a long time after, can take out, and the washing is used repeatedly.

Each driving source is connected with a system control board 13, an alternating current power line port 14 is arranged on the system control board 13, and a power supply supplied to the LED lamp substrate 2 by the system control board 13 is a constant current power supply. The AC power line port 14 can input 100-240V voltage and output constant current for supplying power to the LED, so as to reduce stroboscopic effect. An alternating current power line port 14 is arranged on the rear lamp shade 9, and a rubber ring is arranged between the alternating current power line port 14 and a product casing rear lamp shade 9 interface, so that the sealing and the friction problem of the rear lamp shade 9 interface to the alternating current power line port 14 are solved.

In addition, the system control board 13 can control whether the driving sources of each filtering area 11 are started or not, the driving sources can be started together or in sequence through the control of the system control, and when the driving sources are started in sequence, the noise generated when the driving sources are operated can be reduced. Besides the noise reduction by adopting the above mode, the rear lamp cover 9 can be provided with the sound attenuation cotton 15, and the sound attenuation cotton 15 is attached to the inner side of the rear lamp cover 9 to reduce echoes generated in air flow. The driving source (such as a fan) can also be directly provided with the direct-current turbine mute motor 16, so that the noise caused by the driving source is further reduced.

Due to the arrangement of the fan, the airflow flowing at the air inlet 6 can be enhanced, a strand of airflow capable of being sensed is formed around the lamp, and if the floor is short, a user below the lamp can obviously sense the airflow flowing, and the user can feel uncomfortable. In order to solve the problem, the air inlets 6 can be arranged at two sides below the front lampshade 8, and the air outlets 7 can be arranged at two ends of the rear lampshade, so that the discomfort of a user right below the lamp can be reduced.

In addition, an antireflection film may be provided on the front lamp cover 8; or can wrap up front lampshade 8 with the lower extreme of back lamp shade 9, and the lower terminal surface of back lamp shade 9 is less than front lampshade 8's outer eaves junction and forms a concave surface 12, dazzling and the facula problem that produces for avoiding LED lamp light source direct irradiation, antireflection coating is plated on front lampshade 8 surface, make the reverberation of rete front and back surface production disturb each other, thereby offset the reverberation, reach the effect of antireflection, thereby increase luminousness to more than 90%, use front lampshade 8 surface atomizing in order to reduce or eliminate the stray light of system simultaneously.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, so as not to limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (9)

1. The utility model provides a multifunctional lamp, includes lamp shade (1), LED lamp base plate (2), lamp shade (1) is including continuous preceding lamp shade (8), back lamp shade (9), LED lamp base plate (2) are fixed to be set up in back lamp shade (9), be provided with heat radiation structure on back lamp shade (9), the lower terminal surface distribution of LED lamp base plate (2) has a plurality of full gloss register for easy reference LED (3) that are located preceding lamp shade (8), its characterized in that: be provided with filter layer (4) in back lamp shade (9) at LED lamp base plate (2) rear, antibiotic layer has been coated on filter layer (4), set up base plate hole (5) on LED lamp base plate (2), the below of front lampshade (8) is provided with rectangular air intake (6), be provided with air outlet (7) on the lateral wall of back lamp shade (9), filter layer (4) are located between base plate hole (5) and air outlet (7), air outlet (7) department is provided with and is used for taking out the driving source to air outlet (7) with wind.

2. The multifunctional light fixture of claim 1, wherein: be provided with division board (10) in back lamp shade (9), division board (10) are separated back lamp shade (9) for two at least mutually independent filtering area (11), every filtering area (11) all correspond a substrate hole (5), air intake (6), air outlet (7), driving source and filter layer (4).

3. The multifunctional light fixture of claim 1, wherein: each driving source is connected with a system control board (13), an alternating current power line port (14) is formed in the system control board (13), and a power supply supplied to the LED lamp substrate (2) by the system control board (13) is a constant current power supply.

4. The multifunctional light fixture of claim 1, wherein: the rear lamp shade (9) is provided with silencing cotton (15), and the silencing cotton (15) is attached to the inner side of the rear lamp shade (9).

5. The multifunctional light fixture of claim 1, wherein: the driving source adopts a direct-current turbine mute motor (16).

6. The multifunctional light fixture of claim 2, wherein: the air inlets (6) are positioned at two sides below the front lampshade (8), and the air outlets (7) are positioned at two ends of the rear lampshade (9).

7. The multifunctional light fixture of claim 1, wherein: an antireflection film is arranged on the front lampshade (8), or/and

the lower extreme parcel of back lamp shade (9) preceding lamp shade (8), just the lower terminal surface of back lamp shade (9) is less than the outer eaves junction of preceding lamp shade (8) and forms a concave surface (12).

8. The multifunctional light fixture of claim 2, wherein: the filter layer (4) comprises a nylon primary filter screen (41), an antibacterial particle layer (42) and HEPA (43), wherein the nylon primary filter screen (41), the antibacterial particle layer (42) and the HEPA (43) are arranged from bottom to top, and the antibacterial layer is arranged on the nylon primary filter screen (41), the antibacterial particle layer (42) and the HEPA (43).

9. The multi-function light fixture of claim 8, wherein: the nylon primary filter screen (41) is detachably arranged in each filter area (11).

Images