CN2911422Y - Intelligent air purifying lampset - Google Patents

Abstract

An intelligent air purification lamp set device, the main body of the device includes a lamp source, a lampshade, a pyroelectric infrared sensor and a control mechanism. The visible light nano-titanium dioxide photocatalyst layer on the surface of the main body, the start-up of the ultraviolet light source or the visible light source is regulated by the pyroelectric infrared sensor and the control mechanism. When a person enters the detection range of the pyroelectric infrared sensor, the smart air purification lamp The group device will switch the lighting source to the visible light source; when the person leaves and the pyroelectric infrared sensor cannot detect the human body, the light group device will switch the lighting source to the ultraviolet light source to maximize the photocatalyst Excellent photocatalytic performance, eliminating formaldehyde, benzene, odor, germs, ammonia and organic pollutants in the air. The lamp group device is any type including grille lamp series, spotlight lamp series, ceiling lamp series, and bracket lamp series.

Description

A new type of intelligent air purification lamp group device

technical field

The invention relates to a novel lamp group device, in particular to a novel intelligent air purification lamp group device.

Background technique

Ultraviolet lamps have good bactericidal effects, and are increasingly used in many places requiring high cleanliness as necessary auxiliary equipment for sterilization and antibacterial. Visible light nano-titanium dioxide photocatalyst has long-term antibacterial effect, and the photocatalytic effect can be exerted by the irradiation of ultraviolet light source or visible light source. Titanium dioxide photocatalyst can have the best photocatalytic effect under the irradiation of light with a wavelength less than 388nm. By forming positively charged holes on the surface, taking away the electrons of OH ^- in H ₂ O, generating O ₂ ^- and OH free radicals with super oxidizing ability, which can oxidize organic compounds and decompose organic compounds into carbon dioxide and water. The super-strong oxidation ability of the photocatalyst can effectively degrade organic substances such as formaldehyde, benzene, and ammonia in the air, and can purify and improve the air. The wavelength of light generated by the light source of the ultraviolet lamp is less than 388nm, which is the light required for the best photocatalytic effect of the titanium dioxide photocatalyst.

However, the ultraviolet light source is dangerous and not suitable for direct contact with the human body. The ultraviolet rays emitted by the ultraviolet lamp have harmful effects on the human body. For example, ultraviolet rays will increase the probability of human cancer, especially skin cancer; it has a catalytic effect on many diseases, such as: Lip rash and lupus; long-term exposure to ultraviolet rays will accelerate skin aging; inhibit the function of the immune system and cause immune system lesions; degeneration and deterioration of the cornea on the surface of the eyeball, damage the eyes, and cause cataracts, etc. Therefore, the time of direct exposure to ultraviolet rays should be minimized.

Generally, the control of ultraviolet lamps is directly turned on or off by human means. No matter whether the operator is on site or not, the ultraviolet lamps are kept on, which is easy to cause accidental injury accidents, thus greatly affecting the wide application of ultraviolet lamps in real life. . Therefore, in real life, a new type of intelligent air-purifying lamp set device is needed. When the human body enters a certain range of the air-purifying lamp set device, the air-purifying lamp set device will switch the lighting source to a visible light source. When leaving a certain range of the air-purifying lamp unit, the air-purifying lamp unit will switch the lighting source to an ultraviolet lamp source to maximize the photocatalytic efficiency of the photocatalyst and enable personnel to work in the safest environment.

Contents of the invention

The purpose of this utility model is to provide a new type of intelligent air purification lamp group device. The lampshade of the intelligent air purification lamp group device is coated with visible light nano-titanium dioxide photocatalyst, which can keep the photocatalyst maintained under the continuous irradiation of ultraviolet light source and visible light source respectively. Uninterrupted work to play photocatalytic reaction at any time, to achieve the best air purification effect, using pyroelectric infrared sensor to automatically turn on and delay automatic lighting, the method of use is when people enter the space pyroelectric infrared sensor When the detection range is within the detection range, the intelligent air purification lamp unit will switch the lighting source to the visible light illumination source; when the person leaves the space and the pyroelectric infrared sensor cannot detect the human body within a certain period of time, the intelligent air purification lamp unit will The device will switch the lighting source to the ultraviolet light source, and through an automatic conversion device with the function of a pyroelectric infrared sensor, people can continue to work under non-dangerous lighting, so as to maximize the photocatalytic performance of the photocatalyst and eliminate Formaldehyde, benzene, odor, germs, ammonia and organic pollutants in the air.

The technical solution adopted by the utility model is: an intelligent air purification lamp group device, the main body of the air purification lamp group includes a lamp source, a lampshade, a pyroelectric infrared sensor and a control mechanism, and the feature is that the lamp source includes a group of ultraviolet lamp sources And a group of visible light sources, the surface of the main body of the lampshade that can be irradiated by ultraviolet light or visible light is coated with a visible light nano-titanium dioxide photocatalyst coating, and the start of the ultraviolet light source or visible light source is regulated by the pyroelectric infrared sensor and the control mechanism .

The method of use is that when people enter the detection range space of the pyroelectric infrared sensor, the intelligent air purification lamp group device will switch the lighting source to the visible light source. When the human body cannot be detected, the intelligent air purification lamp unit will switch the lighting source to an ultraviolet light source to maximize the photocatalytic performance of the photocatalyst.

The intelligent air purification lamp group device adopted in the utility model can be any type of grille lamp series, spotlight lamp series, ceiling lamp series, bracket lamp series, etc.

The visible light type nano-titanium dioxide photocatalyst sol coating treatment method adopted in the utility model can adopt any one of brushing method, dipping method or spraying method.

After the lampshade of the intelligent air purification lamp group device in the utility model is coated with the visible light nano-titanium dioxide photocatalyst sol, at normal temperature, the visible light-type nano-titanium dioxide is formed into a film by self-crystallization on the surface of the heat exchanger without too high a temperature. easy to use.

We commissioned the National Environmental Protection Product Quality Supervision and Inspection Center to carry out the ONID visible light photocatalyst liquid removal harmful gas test, the experimental temperature: 20.0 ℃, humidity: 48.0%; simulation laboratory: 1m ³ small climate box (airtight, equipped with a fan); removal test plan : According to GB50325-2001 "Code for the Control of Indoor Environmental Pollutants in Civil Construction Engineering", GB/T18204.26-2000 "Methods for Determination of Formaldehyde in the Air of Public Places", GB11737-89 "Hygienic Inspection of Benzene, Toluene and Xylene in the Air of Residential Areas" Standard method - Gas Chromatography" inspection, the inspection results show that the removal efficiency of free formaldehyde and benzene by ONID visible light photocatalyst solution for 48 hours is 92.3% and 91.9% respectively.

We commissioned the Microbial Analysis and Testing Center of Guangdong Province to test the antibacterial performance of ONID visible light photocatalyst solution. The testing basis and analysis method were in accordance with JC/T897-2002. The antibacterial rates of Staphylococcus aureus, Klebsiella pneumoniae and Pseudomonas aeruginosa were all greater than 99.99%.

Description of drawings

Fig. 1 is a structural schematic diagram of the intelligent air purification lamp group device of the present invention.

Among them, 1 is a schematic diagram of the main body of the new intelligent air purification lamp unit, 2 is a visible light source, 3 is an ultraviolet light source, 4 is a pyroelectric infrared sensor, 5 is a lampshade, and 6 is a visible-light nano-titanium dioxide photocatalyst coating.

Detailed ways

The following embodiments are not limited to any type of lighting device, and any lighting device that does not deviate from the spirit of the present utility model falls within the patent scope of the present utility model.

Example 1.

Refer to Fig. 1. The intelligent air purification lamp group device used in this utility model is any one of grille lamp series, floodlight series, ceiling lamp series, bracket lamp series, etc. The photocatalyst on the lampshade of the new intelligent air purification lamp group device The preparation process of the coating adopts the spraying method:

1. Clean the surface of the lampshade (5) of the intelligent air purification lamp unit (1), and evenly spray the visible light nano-titanium dioxide photocatalyst treatment solution on the surface of the lampshade (5) by spraying, and dry the lampshade coating with hot air . In this way, one deck of visible light-type nano-titanium dioxide photocatalyst coating (6) can be attached to the lampshade surface of the intelligent air purification lamp group device;

2. Put the lampshade (5) coated with the visible light-type nano-titanium dioxide photocatalyst coating (6) back into the intelligent air purification lamp unit (1), and the light source in the device includes a visible light source (2) and ultraviolet light A light source (3), and a pyroelectric infrared sensor (4);

3. Turn on the power supply of the smart air purification lamp set device, and then enter the switch of the light source according to whether the person enters the detection range of the pyroelectric infrared sensor.

Example 2.

Refer to Fig. 1. The intelligent air purification lamp group device used in this utility model is any one of grille lamp series, floodlight series, ceiling lamp series, bracket lamp series, etc. The photocatalyst on the lampshade of the new intelligent air purification lamp group device The preparation process of the coating adopts the brushing method, and the lampshade coating is dried with hot air:

1. Clean the surface of the lampshade (5) of the intelligent air purification lamp unit (1), apply the visible light nano-titanium dioxide photocatalyst treatment liquid on the surface of the lampshade (5) by brushing, and dry the lampshade coating with hot air Dry. In this way, one deck of visible light-type nano-titanium dioxide photocatalyst coating (6) can be attached to the lampshade surface of the intelligent air purification lamp group device;

2. Put the lampshade (5) coated with the visible light-type nano-titanium dioxide photocatalyst coating (6) back into the intelligent air purification lamp unit (1), and the light source in the device includes a visible light source (2) and ultraviolet light A light source (3), and a pyroelectric infrared sensor (4);

3. Turn on the power supply of the smart air purification lamp set device, and then enter the switch of the light source according to whether the person enters the detection range of the pyroelectric infrared sensor.

The beneficial effects of the utility model are:

1. The titanium dioxide film on the surface of the lampshade of the intelligent air purification lamp group device in the present invention generally exerts its easy-to-clean and antifouling properties under solid-gas phase contact.

2. The visible light type nano-titanium dioxide photocatalyst sol used in the present invention has stronger adsorption compared with bulk materials of the same material due to its large specific surface area and insufficient coordination of surface atoms. The larger the specific surface, the easier to clean and antifouling performance of the film will also increase.

3. In the present invention, the photocatalytic efficiency of the visible light-type nano-titanium dioxide photocatalyst is used. As long as the photocatalyst is irradiated with weak light, the photocatalyst can degrade formaldehyde, benzene, peculiar smell, germs, ammonia and organic pollutants in the air to achieve the goal of purifying the air. Effect.

4. The lampshade of the lamp group device in the present invention is coated with visible light nano-titanium dioxide photocatalyst, under the uninterrupted irradiation of ultraviolet light source and visible light source respectively, the photocatalyst can keep working uninterruptedly to play photocatalytic reaction at any time, to achieve the best Air purification effect. And through the automatic conversion device of a pyroelectric infrared sensor, people can continue to work without the irradiation of ultraviolet light source.

Claims (2)

1. A new type of intelligent air purification lamp unit, comprising a lamp source, a lampshade, a pyroelectric infrared sensor and a control mechanism, characterized in that a group of ultraviolet lamp sources, a group of visible light lamp sources and Pyroelectric infrared sensor and control mechanism, and the surface of the main body of the lampshade of the air purification lamp group device are coated with visible light nano-titanium dioxide photocatalyst coating. 2. A new type of intelligent air purification lamp set device according to claim 1, which can be any type of lamp set device including grille lamp series, spotlight lamp series, ceiling lamp series, bracket lamp series .