CN212631291U

CN212631291U - Sterilizing lamp

Info

Publication number: CN212631291U
Application number: CN202020386722.6U
Authority: CN
Inventors: 兰刚; 王维; 陈实; 周扬
Original assignee: Huizhou Cdn Industrial Development Co ltd
Current assignee: Huizhou Cdn Industrial Development Co ltd
Priority date: 2020-03-24
Filing date: 2020-03-24
Publication date: 2021-03-02
Anticipated expiration: 2030-03-24

Abstract

The utility model relates to a bactericidal lamp includes lamp body, ultraviolet disinfection fluorescent tube and baffle, and the ultraviolet disinfection fluorescent tube sets up towards the air intake, and the ultraviolet disinfection fluorescent tube disinfects the air, and the baffle is used for sheltering from the ultraviolet disinfection fluorescent tube. The air conditioning air blown out from the air inlet is irradiated by ultraviolet rays, so that the blown air conditioning air does not carry or reduces the number of viruses, and the concentration of harmful germs entering the indoor air is reduced. The baffle can fully shelter from the radiation of ultraviolet disinfection fluorescent tube to the human body, and the baffle can freely dismantle and be convenient for maintain ultraviolet disinfection fluorescent tube. Set up indoor ultraviolet disinfection lamp and infrared human sensor module, the indoor ultraviolet disinfection lamp of infrared human sensor module control is disinfected indoor environment untimely, still is provided with timing device in the infrared human sensor module, usable wireless control equipment or integrated switch panel control, sets up the interior space disinfection time quantum that needs the disinfection, and the ultraviolet disinfection lamp disinfects indoor air time quantum in the control room.

Description

Sterilizing lamp

Technical Field

The utility model relates to a lamps and lanterns illumination technical field, in particular to bactericidal lamp.

Background

It is known that the disinfection of hotels or restaurants, shopping malls or other public places of operation presents problems: 1. the situation that people gather in places for disinfecting is achieved by using alcohol or disinfectant and other chemical modes, epidemic situation prevention and control difficulty is high, and the situation is only a temporary effect and cannot be sustained. 2. Secondary pollution is easy to bring;

at present, an ultraviolet germicidal lamp is used as a physical disinfection mode, the ultraviolet germicidal lamp can disinfect 99.9% of viruses, and the disinfection and sterilization effects are proved for a long time. According to the pneumonia diagnosis and treatment scheme data of the novel coronavirus infection, the 2019 novel coronavirus (2019-nCoV) is sensitive to ultraviolet rays and heat. That is, the infection prevention of 2019 of the novel coronavirus can be realized by sterilizing with an ultraviolet germicidal lamp. The indoor is equipped with 30W ultraviolet germicidal lamp with intensity of >70 μ W/cm2 at 1.0m, the number should be no less than 1.5W per cubic meter on average, and the irradiation time is no less than 30 min.

However, the conventional ultraviolet germicidal lamp must be used in an unmanned condition, and the human body cannot be exposed to the irradiation range of the ultraviolet germicidal lamp, which also limits the use range of the ultraviolet germicidal lamp. Namely, the physical disinfection mode of ultraviolet-sterilizing lamp is adopted singly, so that the problem that the human body cannot be directly irradiated exists.

In addition, the air-conditioning outlet lamp panel is an electrical product which is arranged in public places such as offices, hotels, markets or hospitals and is used all year round. However, viruses caused by wind blown out through the air outlet cannot be disinfected, and even if the ultraviolet germicidal lamp is used for disinfection, when people are present, the ultraviolet germicidal lamp stops working, and the viruses caused by wind blown out through the air outlet of the air conditioner cannot be disinfected.

SUMMERY OF THE UTILITY MODEL

Based on this, there is a need for a germicidal lamp that can disinfect air-conditioning air entering a room to reduce the concentration of harmful germs in the air entering the room, and can disinfect the air entering the room.

The utility model provides a sterilizing lamp, includes lamp body, ultraviolet disinfection fluorescent tube and baffle, be provided with the holding chamber in the lamp body, the lamp body in the air intake has been seted up on the bottom surface in holding chamber, the ultraviolet disinfection lamp set up in the lamp body in on the inside wall in holding chamber, the ultraviolet disinfection fluorescent tube orientation the air intake sets up, the ultraviolet disinfection fluorescent tube be used for right the air that the air intake blown in disinfects, be provided with the installing port on the baffle, the edge of baffle with the lamp body is connected, the installing port is located the air intake below, the baffle is used for sheltering from the ultraviolet disinfection fluorescent tube.

In one embodiment, the germicidal lamp further comprises an indoor ultraviolet disinfection lamp, an infrared human body sensor module and a grid sheet, the indoor ultraviolet disinfection lamp is arranged on the inner side wall of the accommodating cavity, the infrared human body sensor module is arranged in the accommodating cavity, the infrared human body sensor module is electrically connected with the indoor ultraviolet disinfection lamp, the edge of the grid sheet is connected with the lamp body, the indoor ultraviolet disinfection lamp is located below the grid sheet, the edge of the grid sheet is abutted to the edge of the baffle, an air outlet is formed in the grid sheet, and the air outlet is communicated with the air inlet.

In one embodiment, the germicidal lamp further includes an LED light source assembly disposed in the accommodating cavity and a light-transmissive protective cover fixed to the lamp body, and the LED light source assembly is located below the light-transmissive protective cover.

In one embodiment, the germicidal lamp further comprises a driving power supply, and the driving power supply is respectively used for being electrically connected with the ultraviolet disinfection lamp tube, the indoor ultraviolet disinfection lamp, the infrared human body sensor module and the LED light source assembly.

In one embodiment, the lamp body includes a lamp panel frame and a top cover, the top cover is fixed to an edge of the lamp panel frame, the accommodating cavity is disposed between the top cover and the lamp panel frame, and the air inlet is disposed on the top cover.

In one embodiment, the indoor ultraviolet disinfection lamps are two, the two indoor ultraviolet disinfection lamps are respectively arranged on the inner side wall of the accommodating cavity, the two indoor ultraviolet disinfection lamps are symmetrically arranged, the two indoor ultraviolet disinfection lamps are respectively electrically connected with the infrared human body sensor module, and the two indoor ultraviolet disinfection lamps are respectively positioned below the grid pieces.

In one embodiment, two LED light source assemblies are arranged, and the two LED light source assemblies are respectively arranged in the accommodating cavity;

the light-transmitting protective covers are provided with two light-transmitting protective covers which are respectively fixed with the lamp body, and the LED light source assemblies are respectively positioned below the two light-transmitting protective covers.

In one embodiment, the light-transmissive protective cover is a light-transmissive PC cover.

Compared with the prior art, the utility model discloses following beneficial technological effect has:

firstly, the sterilizing lamp is provided with an ultraviolet sterilizing lamp tube and a baffle, the ultraviolet sterilizing lamp tube is arranged towards the air inlet, the ultraviolet sterilizing lamp tube is used for sterilizing air blown in by the air inlet, and the baffle is used for shielding the ultraviolet sterilizing lamp tube. The air conditioning air blown out from the air inlet is irradiated by the ultraviolet rays emitted by the ultraviolet disinfection lamp tube to achieve the disinfection purpose, so that the blown air conditioning air does not carry or reduces the number of viruses, and the concentration of harmful germs in the air entering the room is reduced.

Secondly, the baffle can be utilized to fully shield the radiation of the ultraviolet disinfection lamp tube to the human body, and the baffle can be freely detached to facilitate the maintenance of the ultraviolet disinfection lamp tube.

And finally, through setting up indoor ultraviolet disinfection lamp and infrared human sensor module, through infrared human sensor module control indoor ultraviolet disinfection lamp is untimely disinfected to the indoor environment, still be provided with timing device in the infrared human sensor module, usable wireless control equipment or integrated switch panel control set up the interior space disinfection time quantum that needs the disinfection, control indoor ultraviolet disinfection lamp disinfects to the indoor air timesharing.

Drawings

Fig. 1 is a schematic structural diagram of a germicidal lamp according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a germicidal lamp according to another embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a germicidal lamp according to another embodiment of the present invention.

The drawings are for illustrative purposes only and are not to be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted; the same or similar reference numerals correspond to the same or similar parts; the terms describing positional relationships in the drawings are for illustrative purposes only and are not to be construed as limiting the patent.

Detailed Description

The following detailed description of the preferred embodiments of the present invention is provided to enable those skilled in the art to better understand the advantages and features of the present invention, and to define the scope of the present invention more clearly.

Please refer to fig. 1, which is a schematic structural diagram of a germicidal lamp 10 according to an embodiment of the present invention. The utility model provides a bactericidal lamp 10 includes lamp body 100, ultraviolet disinfection fluorescent tube 200 and baffle 300, be provided with holding chamber 110 in the lamp body 100, lamp body 100 in air intake 111 has been seted up on the bottom surface in holding chamber 110, the ultraviolet disinfection lamp set up in lamp body 100 in on the inside wall in holding chamber 110, ultraviolet disinfection fluorescent tube 200 orientation air intake 111 sets up, ultraviolet disinfection fluorescent tube 200 be used for right the air that air intake 111 blown in disinfects, be provided with installing port 310 on the baffle 300, the edge of baffle 300 with lamp body 100 is connected, installing port 310 is located air intake 111 below, baffle 300 is used for sheltering from ultraviolet disinfection fluorescent tube 200. It should be noted that the air inlet is used for communicating with an air outlet of an air conditioner, that is, air blown out by the air conditioner enters the room from the air inlet, and the ultraviolet disinfection lamp tube 200 is arranged toward the air inlet 111, that is, ultraviolet light emitted by the ultraviolet disinfection lamp tube irradiates the air inlet, that is, air-conditioning air blown out by the air inlet irradiates the air inlet through the ultraviolet light emitted by the ultraviolet disinfection lamp tube to achieve the purpose of disinfection, so that the blown air-conditioning air does not carry or reduces the number of viruses, thereby reducing the concentration of harmful germs entering the room air. After the power is on, the ultraviolet disinfection lamp tube is always in a working state, even a piece of printing paper cannot penetrate due to extremely weak penetrating power of ultraviolet rays, so that the radiation of the ultraviolet disinfection lamp tube to a human body can be fully shielded by utilizing the baffle plate, and the baffle plate can be freely detached so as to be convenient for maintaining the ultraviolet disinfection lamp tube. The mounting hole is used as a hole for mounting integrated equipment such as a down lamp, a horn, smoke sensing, fire sprinkler and the like.

In an embodiment, referring to fig. 1 and 2 together, the germicidal lamp further includes an indoor ultraviolet disinfection lamp 400, an infrared human body sensor module 500 and a grating sheet 600, the indoor ultraviolet disinfection lamp 400 is disposed on the inner side wall of the accommodating cavity 110, the infrared human body sensor module 500 is disposed in the accommodating cavity 110, and the infrared human body sensor module 500 is electrically connected to the indoor ultraviolet disinfection lamp 400, that is, the indoor ultraviolet disinfection lamp is controlled by the infrared human body sensor module to disinfect the indoor environment at random, and when a person exists, the infrared human body sensor module senses the person, and then the indoor ultraviolet disinfection lamp is controlled to be automatically turned off; when no person exists, the infrared human body sensor module can not sense the existence of the person, and then the indoor ultraviolet disinfection lamp is controlled to be automatically started, namely, the disinfection mode is started. In addition, a timing device is further arranged in the infrared human body sensor module, and can be controlled by wireless control equipment or an integrated switch panel to set an indoor space disinfection time period to be disinfected and control the indoor ultraviolet disinfection lamp to disinfect indoor air at time periods. The edge of the grid plate 600 is connected with the lamp body 100, and the indoor ultraviolet disinfection lamp 400 is located below the grid plate 600, that is, the indoor ultraviolet disinfection lamp irradiates to the indoor environment through the grid plate gap space. The edge of grid piece 600 with the edge counterbalance of baffle 300, be provided with air outlet 610 on the grid piece 600, air outlet 610 with air intake 111 intercommunication, process ultraviolet disinfection fluorescent tube 200 reaches the air conditioner wind-path that indoor ultraviolet disinfection lamp 400 disinfected the air outlet 610 gets into indoorly. Namely, the light of the indoor ultraviolet disinfection lamp also irradiates the indoor environment through the air outlet. For another example, the indoor ultraviolet disinfection lamps 400 are two, two indoor ultraviolet disinfection lamps 400 are respectively arranged on the inner side wall of the accommodating cavity 110, and are symmetrically arranged on the indoor ultraviolet disinfection lamps 400, two indoor ultraviolet disinfection lamps 400 are respectively electrically connected with the infrared human body sensor module 500, and two indoor ultraviolet disinfection lamps 400 are respectively located below the grid pieces 600.

In one embodiment, referring to fig. 3, the germicidal lamp further includes an LED light source assembly 700 and a light-transmitting protective cover 800, the LED light source assembly 700 is disposed in the accommodating cavity 110, the light-transmitting protective cover 800 is fixed to the lamp body 100, and the LED light source assembly 700 is located below the light-transmitting protective cover 800. For another example, the germicidal lamp further includes a driving power source 900, and the driving power source 900 is respectively used for being electrically connected to the ultraviolet disinfection lamp tube 200, the indoor ultraviolet disinfection lamp 400, the infrared human body sensor module 500, and the LED light source assembly 700. As another example, two LED light source assemblies 700 are provided, the two LED light source assemblies 700 are respectively disposed in the accommodating cavity 110, and the two LED light source assemblies 700 are respectively electrically connected to the driving power source 900; the light-transmitting protective cover 800 is provided with two, two the light-transmitting protective cover 800 respectively with the lamp body 100 is fixed mutually, two the LED light source assembly 700 is respectively located two below the light-transmitting protective cover 800. As another example, the light-transmissive protective cover 800 is a light-transmissive PC cover.

In one embodiment, referring to fig. 1 and fig. 2, the lamp body 100 includes a lamp panel frame 120 and a top cover 130, the top cover 130 is fixed to an edge of the lamp panel frame 120, the accommodating cavity 110 is disposed between the top cover 130 and the lamp panel frame 120, and the air inlet 111 is disposed on the top cover 130.

firstly, in the germicidal lamp 10, the ultraviolet disinfection lamp tube 200 and the baffle 300 are arranged, the ultraviolet disinfection lamp tube 200 is arranged towards the air inlet 111, the ultraviolet disinfection lamp tube 200 disinfects air blown in from the air inlet 111, and the baffle 300 is used for shielding the ultraviolet disinfection lamp tube 200. The air conditioning air blown out from the air inlet is irradiated by the ultraviolet rays emitted by the ultraviolet disinfection lamp tube to achieve the disinfection purpose, so that the blown air conditioning air does not carry or reduces the number of viruses, and the concentration of harmful germs in the air entering the room is reduced.

Finally, through setting up indoor ultraviolet disinfection lamp 400 and infrared human sensor module 500, through infrared human sensor module control indoor ultraviolet disinfection lamp disinfects the indoor environment untimely, still be provided with timing device in the infrared human sensor module, usable wireless control equipment or integrated switch panel control set up the interior space disinfection time quantum that needs the disinfection, control indoor ultraviolet disinfection lamp disinfects the indoor air time quantum.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims

1. The utility model provides a sterilizing lamp, its characterized in that, includes lamp body, ultraviolet disinfection fluorescent tube and baffle, be provided with the holding chamber in the lamp body, the lamp body in the air intake has been seted up on the bottom surface in holding chamber, ultraviolet disinfection lamp set up in the lamp body in on the inside wall in holding chamber, ultraviolet disinfection fluorescent tube orientation the air intake sets up, ultraviolet disinfection fluorescent tube is used for right the air that the air intake blew in disinfects, be provided with the installing port on the baffle, the edge of baffle with the lamp body is connected, the installing port is located the air intake below, the baffle is used for sheltering from ultraviolet disinfection fluorescent tube.

2. The sterilizing lamp according to claim 1, further comprising an indoor ultraviolet sterilizing lamp, an infrared human body sensor module and a grating sheet, wherein the indoor ultraviolet sterilizing lamp is disposed on an inner side wall of the accommodating cavity, the infrared human body sensor module is disposed in the accommodating cavity, the infrared human body sensor module is electrically connected with the indoor ultraviolet sterilizing lamp, an edge of the grating sheet is connected with the lamp body, the indoor ultraviolet sterilizing lamp is located below the grating sheet, an edge of the grating sheet abuts against an edge of the baffle, an air outlet is disposed on the grating sheet, and the air outlet is communicated with the air inlet.

3. The germicidal lamp as claimed in claim 2, further comprising an LED light source assembly disposed in the receiving chamber and a light-transmissive protective cover secured to the lamp body, the LED light source assembly being disposed under the light-transmissive protective cover.

4. The germicidal lamp as claimed in claim 3, further comprising a driving power source, wherein the driving power source is respectively used to electrically connect with the ultraviolet disinfection lamp tube, the indoor ultraviolet disinfection lamp, the infrared human body sensor module and the LED light source assembly.

5. The germicidal lamp as claimed in claim 4, wherein the lamp body includes a lamp housing and a top cover, the top cover is fixed to an edge of the lamp housing, the receiving cavity is disposed between the top cover and the lamp housing, and the air inlet is disposed on the top cover.

6. The sterilizing lamp according to claim 2, wherein there are two indoor uv sterilizing lamps, two indoor uv sterilizing lamps are respectively disposed on the inner side wall of the accommodating chamber, and the two indoor uv sterilizing lamps are symmetrically disposed, the two indoor uv sterilizing lamps are respectively electrically connected to the infrared human body sensor module, and the two indoor uv sterilizing lamps are respectively located below the grid plates.

7. The bactericidal lamp as set forth in claim 3, wherein there are two LED light source assemblies, and the two LED light source assemblies are respectively disposed in the accommodating cavities;

8. A germicidal lamp as claimed in claim 3 or 7, characterized in that the light-transmissive protective cover is a light-transmissive PC cover.