CN113425870A - Handheld lamp of 222nm excimer deep ultraviolet lamp - Google Patents

Abstract

Translated fromChinese

本发明提供了一种222nm准分子深紫外灯手持灯具，包括手持灯和移动电池箱。手持灯包括航空插头、把手、开关、灯头盖、灯管固定环、灯罩、反光片、灯尾板、石英玻璃、底板以及222准分子灯管，移动电池箱包括箱体和箱盖、电池、电源线。工作时，箱盖关闭，电池通过电源线为222准分子灯管提供电力支持进行移动消杀；无需工作时，可将电源线和手持灯放入移动电池箱开设的收纳空间中，节省空间。本发明提供的一种222nm准分子深紫外灯手持灯具，可以实现手持222nm准分子灯管移动消杀，用于日常家居、交通、医疗、教育等各类容易有消杀死点的场所，尤其是狭缝等难消毒到的位置。对实现222nm深紫外线的全面推广，实现人灯共存消杀应用均具有重要意义。

The invention provides a 222nm excimer deep ultraviolet lamp hand-held lamp, including the hand-held lamp and a mobile battery box. The hand-held lamp includes aviation plug, handle, switch, lamp cap, lamp tube fixing ring, lampshade, reflector, lamp tail plate, quartz glass, bottom plate and 222 excimer lamp tube, mobile battery box includes box body and box cover, battery, power cable. When working, the box cover is closed, and the battery provides power support for the 222 excimer lamp through the power cord for mobile disinfecting; when no work is required, the power cord and the hand-held light can be put into the storage space opened by the mobile battery box to save space. The 222nm excimer deep ultraviolet lamp hand-held lamp provided by the invention can realize the mobile killing of the hand-held 222nm excimer lamp tube, and is used in various places that are prone to killing points such as daily household, transportation, medical treatment, education, etc., especially It is a position that is difficult to sterilize, such as slits. It is of great significance to realize the comprehensive promotion of 222nm deep ultraviolet rays and realize the coexistence and disinfecting application of people and lamps.

Description

Handheld lamp of 222nm excimer deep ultraviolet lamp

Technical Field

The invention discloses a handheld lamp for mounting 222nm excimer deep ultraviolet light, belongs to the technical field of ultraviolet consumption, and particularly relates to a handheld lamp for a 222nm excimer deep ultraviolet light.

Background

The outbreak of new coronary pneumonia epidemic situation in the early 2020 arouses public disinfection consciousness, large-scale, long-time and high-frequency disinfection is needed in national medical institutions and other public places, and the domestic disinfection consciousness of the people is also improved unprecedentedly. The disinfectant product is a product which eliminates pathogenic microorganisms by chemical, physical and biological methods and cuts off the transmission path of infectious diseases to achieve the effect of disease prevention, and mainly takes a disinfectant as a main component. The common disinfectant comprises chlorine-containing disinfectant, chlorine dioxide and ozone, has the advantages of reliable effect, lower cost and the like, but simultaneously, the strong oxidizing chemical components playing a role in disinfection and sterilization have more or less adverse effects on the environment and human bodies, so that long-acting, safe, low-toxicity and even non-toxic disinfection and sterilization products need to be found.

In "diagnosis and treatment of pneumonia with novel coronavirus infection (trial fifth edition): "understanding of the physicochemical properties of coronaviruses is mostly derived from the study of SARS-CoV and MERS-CoV. Viruses are sensitive to ultraviolet light and heat. The ultraviolet disinfection technology as the non-contact disinfection technology has no chemical reaction and meets the requirement of environmental protection. Ultraviolet light has been used for many years to kill bacteria and has been shown to have higher germicidal efficacy than drugs, heat, and the like. Ultraviolet rays emitted by a conventional 254nm lamp penetrate and damage the skin epidermis and are absorbed by the cornea and crystalline lens of an eye to cause pathological changes and the like, and ultraviolet rays with the wavelength of more than 300nm even penetrate the dermis of the skin and the retina of the eye to cause serious consequences such as skin cancer and retina damage, so all ultraviolet light sources cannot be used in places with people at present. The university of Columbia, New York, university of Columbia, David, Brenner, 2017, David, discovered that KrCl excimer lamps produced 222nm deep UV irradiated mice, with no evidence of skin damage, but the same light was effective in killing the superbacterial MRSA, and more than 95% of type A H1N1 was exposed to 2mJ/cm²Can be safely inactivated under the deep ultraviolet ray of 222 nm; however, the experiment of Sachiko Kaidzu of the university of island root of Japan shows that the deep ultraviolet ray of 222nm has no damage to the cornea and skin of the rat. The discovery of the 222nm deep ultraviolet provides possibility for killing living bodies, and the realization of coexistence of human lights becomes a powerful tool for controlling virus diffusion in a virus pandemic period. However, the current 222nm excimer lamp movable disinfection instrument is blank, the 222nm excimer lamp only stays in the production of a lamp tube and a fixed disinfection machine at home and abroad, and can only be hung or installed and fixed at a certain position in practical application, so that each position in a space is influenced by radiation distance, the disinfection and sterilization effect is also reduced in a radiation mode, and certain positions shielded by articles cannot be irradiated to disinfect, such as under a hospital bed,The shadow irradiated by the desk and chair becomes a killing dead point. Therefore, a mobile 222nm excimer lamp handheld lamp needs to be designed, real-time mobile disinfection of the handheld lamp can be realized, and the portable 222nm excimer lamp handheld lamp is suitable for comprehensive disinfection of mobile vehicles such as daily homes, trains and airplanes, and places such as hospital wards and classrooms.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides the 222nm excimer deep ultraviolet lamp handheld lamp which is compact and light in structure, realizes real-time moving killing of the handheld lamp, and can be used for comprehensive killing in various places with easy killing dead points, such as daily homes, moving vehicles, hospital wards, classrooms and the like.

The invention provides a 222nm excimer deep ultraviolet lamp handheld lamp which mainly comprises a handheld lamp and a mobile battery box.

The handheld lamp comprises an aviation plug, a handle, a switch, a lamp cap cover, a lamp tube fixing ring, a lamp shade, a reflector, a lamp tail plate, quartz glass, a bottom plate and a 222 excimer lamp tube. The handle is hollow, one end of the handle is connected with the aviation plug, and the other end of the handle is connected with the lamp cap cover. The lamp cap is provided with a plurality of ventilation and heat dissipation holes, the lamp cap is further provided with the switch, and the switch is connected with the aviation plug and the 222 excimer lamp tube through a conducting wire and used for controlling the 222 excimer lamp tube to be started and closed. One end of the 222 excimer lamp tube is connected with the lamp tube fixing ring, and the other end of the 222 excimer lamp tube is connected with the lamp tail plate. The lamp tube fixing ring is arranged on the lamp cap and used for fixing one end of the 222 excimer lamp tube. The lamp tail plate is provided with an assembling hole for fixing the other end of the 222 excimer lamp tube fixed by the lamp tube fixing ring, the lamp tail plate is provided with a linear groove for fixing one end of the quartz glass, and the lamp tail plate is also provided with a plurality of ventilation and heat dissipation holes. The bottom plate is arranged below the lamp cap cover, and a ladder is arranged on the bottom plate and used for fixing the quartz glass except the other end fixed by the lamp tail plate. The light reflecting sheet is tightly attached to the lamp shade and is mounted on the lamp cap cover and the lamp tail plate together through screws, the light reflecting sheet is used for reflecting 222nm ultraviolet rays emitted by the 222 excimer lamp tube, and the lamp shade is used for protecting the 222 excimer lamp tube and the quartz glass.

The mobile battery box comprises a box body, a box cover, a battery and a power line, wherein a closed cavity is formed by the box body and the box cover together, the battery is fixed in the box body, the power line and a containing space of the handheld lamp are further formed in the box body, in the working process, the box cover is closed, the power line is connected with the battery and the aviation plug on the handheld lamp, and the battery passes through the power line and is used for providing electric power support for the 222 excimer lamp tube.

The invention has the beneficial effects that:

(1) the invention discloses a handheld lamp of a 222nm excimer deep ultraviolet lamp, which is provided with a mobile battery box and can be used for killing the lamp in a mobile way.

(2) According to the handheld lamp of the 222nm excimer deep ultraviolet lamp, the lamp cap and the lamp tail plate are respectively provided with the plurality of ventilation and heat dissipation holes, so that the lamp can work normally, the working temperature of a lamp tube is effectively reduced, the service life of the lamp tube can be prolonged, and the output of 222nm ultraviolet rays can be increased better.

(3) According to the handheld lamp of the 222nm excimer deep ultraviolet lamp, one end of the quartz window is arranged in the linear groove of the lamp tail plate, the other end of the quartz window is fixed by the bottom plate, when the lamp is placed downwards, quartz glass cannot be in contact with a placing plane, and the quartz glass is protected from being broken due to contact with hard objects.

(4) The 222nm excimer deep ultraviolet lamp handheld lamp disclosed by the invention is compact and light in structure, and can be suitable for positions which are difficult to sterilize, such as a bed bottom, a table bottom, a slit and the like; the 222nm deep ultraviolet ray is harmless to human bodies, can be used in places with people, and has great potential application value in the public fields of various people clustering such as daily home, medical treatment, traffic, education and the like.

Drawings

FIG. 1 is an external view of a 222nm excimer deep ultraviolet lamp

FIG. 2 is a schematic view of a hand-held lamp assembly of a 222nm excimer deep ultraviolet lamp hand-held lamp

FIG. 3 is a schematic view of a cap of a handheld lamp of a 222nm excimer deep ultraviolet lamp handheld lamp

FIG. 4 is a schematic view of a tail plate of a handheld lamp of a 222nm excimer deep ultraviolet lamp handheld lamp

FIG. 5 is a schematic diagram of a first embodiment of a 222nm excimer deep ultraviolet lamp handheld lamp

FIG. 6 is a schematic diagram of a second embodiment of a 222nm excimer deep ultraviolet lamp handheld lamp

In the figure: 1. the lamp comprises a handheld lamp, 1-1 aviation plug, 1-2 handles, 1-3 switches, 1-4 lamp cap covers, 1-5 lamp tube fixing rings, 1-6 lamp shades, 1-7 reflectors, 1-8 lamp tail plates, 1-9 quartz glass, 1-10 bottom plates and 1-11.222 excimer lamp tubes, wherein the handheld lamp is a hollow lamp; 2. mobile battery box, 2-1. box body, 2-2. box cover, 2-3 batteries, 2-4. power line

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. It is to be understood that the following examples are only illustrative and explanatory of the present invention and should not be construed as limiting the scope of the present invention. All the technologies realized based on the above-mentioned contents of the present invention are covered in the protection scope of the present invention.

The invention provides ahandheld lamp 1 with a 222nm excimer deep ultraviolet lamp, which mainly comprises ahandheld lamp 1 and a mobile battery 2-3box 2.

Thehandheld lamp 1 comprises an aviation plug 1-1, a handle 1-2, a switch 1-3, a lamp cap cover 1-4, a lamp tube fixing ring 1-5, a lamp shade 1-6, a reflector 1-7, a lamp tail plate 1-8, quartz glass 1-9, a bottom plate 1-10 and a 222 excimer lamp tube 1-11. The handle 1-2 is hollow inside, one end of the handle is connected with the aviation plug 1-1, and the other end of the handle is connected with the lamp cap 1-4. The lamp cap 1-4 is provided with a plurality of ventilation and heat dissipation holes, the switch 1-3 is further mounted on the lamp cap 1-4, and the switch 1-3 is connected with the aviation plug 1-1 and the 222 excimer lamp 1-11 through a conducting wire and used for controlling the starting and the closing of the 222 excimer lamp 1-11. One end of the 222 excimer lamp tube 1-11 is connected with the lamp tube fixing ring 1-5, and the other end is connected with the lamp tail plate 1-8. The lamp tube fixing ring 1-5 is arranged on the lamp cap cover 1-4 and used for fixing one end of the 222 excimer lamp tube 1-11. The lamp tail plate 1-8 is provided with an assembling hole for fixing the other end of the 222 excimer lamp tube 1-11 fixed by the lamp tube fixing ring 1-5, the lamp tail plate 1-8 is provided with a linear groove for fixing one end of the quartz glass 1-9, and the lamp tail plate 1-8 is also provided with a plurality of ventilation and heat dissipation holes. The bottom plate 1-10 is arranged below the lamp cap 1-4, and the bottom plate 1-10 is provided with a step for fixing the other end of the quartz glass 1-9 except the end fixed by the lamp tail plate 1-8. The light reflecting sheets 1-7 are tightly attached to the lamp covers 1-6 and are mounted on the lamp cap 1-4 and the lamp tail plate 1-8 together through screws, the light reflecting sheets 1-7 are used for reflecting 222nm ultraviolet rays emitted by the 222 excimer lamp tubes 1-11, and the lamp covers 1-6 are used for protecting the 222 excimer lamp tubes 1-11 and the quartz glass 1-9.

The mobile battery 2-3box 2 comprises a box body 2-1, a box cover 2-2, a battery 2-3 and a power line 2-4, the box body 2-1 and the box cover 2-2 jointly form a closed cavity, the battery 2-3 is fixed in the box body 2-1, a containing space of the power line 2-4 and thehandheld lamp 1 is further formed in the box body 2-1, when the mobile battery works, the box cover 2-2 is closed, the power line 2-4 is connected with the battery 2-3 and the aviation plug 1-1 on thehandheld lamp 1, and the battery 2-3 provides electric power support for the 222 excimer lamp tube 1-11 through the power line 2-4.

Example 1

Fig. 5 shows an embodiment of ahandheld lamp 1 with a 222nm excimer deep ultraviolet lamp according to the present invention. The device comprises ahandheld lamp 1 and a mobile battery 2-3box 2, and can be used for mobile and non-contact disinfection and sterilization of mobile vehicles such as daily houses, trains, airplanes and the like, and places such as hospital wards, classrooms and the like, particularly for positions which are difficult to disinfect such as slits and the like. Firstly, ahandheld lamp 1 and a battery 2-3 are connected through a power line 2-4, a 222nm excimer lamp tube is lightened after light is turned on by pressing, a person holds a handle 1-2 of thehandheld lamp 1 with one hand and pulls a movable battery 2-3box 2 with the other hand to move in a space needing disinfection, 1-9 surfaces of quartz glass of thehandheld lamp 1 are placed above an object needing disinfection, and thehandheld lamp 1 is moved, so that 222nm ultraviolet rays emitted by the 222nm excimer lamp tube irradiate all surfaces of the object needing disinfection, and comprehensive disinfection is realized.

Example 2

Fig. 6 shows an embodiment of ahandheld lamp 1 with a 222nm excimer deep ultraviolet lamp according to the present invention. The device comprises ahandheld lamp 1 and a mobile battery 2-3box 2, and when the device does not need to work, thehandheld lamp 1 can be contained in the mobile battery 2-3box 2, so that thehandheld lamp 1 is protected from being damaged, and the occupied space of the device is saved. When the device does not need to work, the power cord 2-4 is pulled down, the box cover 2-2 of the mobile battery 2-3box 2 is opened, thehandheld lamp 1 is placed in a containing space which is arranged in the mobile battery 2-3box 2 and used for containing the fixedhandheld lamp 1, finally the power cord 2-4 is wound and placed in a containing space which is arranged in the mobile battery 2-3box 2 and used for containing the fixed power cord 2-4, the box cover 2-2 is closed and locked, and then the mobile power supply box is pulled to a specified placing position of the device

The embodiments of the present invention have been described above. However, the present invention is not limited to the above embodiment. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

Translated fromChinese

1.一种222nm准分子深紫外灯手持灯具，其特征在于，主要包括手持灯和移动电池箱：1. a 222nm excimer deep ultraviolet lamp handheld lamp, is characterized in that, mainly comprises handheld lamp and mobile battery box:所述手持灯包括航空插头、把手、开关、灯头盖、灯管固定环、灯罩、反光片、灯尾板、石英玻璃、底板以及222准分子灯管组成；所述把手内部中空，其一头连接所述航空插头，一头连接所述灯头盖；所述灯头盖上开设有若干通风散热孔，所述灯头盖上还安装有所述开关，所述开关通过导线连接所述航空插头和所述222准分子灯管，用于控制所述222准分子灯管的启动和关闭；所述222准分子灯管一头连接所述灯管固定环，另一头连接所述灯尾板，所述灯管固定环安装在所述灯头盖上，所述灯尾板上开设有装配孔，用于固定所述222准分子灯管除被所述灯管固定环固定的另一端，所述灯尾板上开设有直线槽，用于固定所述石英玻璃一端，所述灯尾板上还开设有若干通风散热孔；所述底板安装在所述灯头盖下，所述底板上开设有阶梯，用于固定所述石英玻璃除被所述灯尾板固定的另一端；所述反光片紧贴所述灯罩，一起通过螺钉安装在所述灯头盖和灯尾板上；The hand-held lamp includes an aviation plug, a handle, a switch, a lamp cap, a lamp tube fixing ring, a lamp shade, a reflector, a lamp tail plate, a quartz glass, a bottom plate and a 222 excimer lamp tube; the handle is hollow inside, and one end of which is connected One end of the aviation plug is connected to the lamp cap; the lamp cap is provided with a number of ventilation and heat dissipation holes, and the switch is also installed on the lamp cap, and the switch is connected to the aviation plug and the 222 through a wire. The excimer lamp is used to control the startup and closing of the 222 excimer lamp; one end of the 222 excimer lamp is connected to the lamp fixing ring, and the other end is connected to the lamp tail plate, and the lamp is fixed The ring is installed on the lamp cap, and the lamp tail plate is provided with an assembly hole for fixing the other end of the 222 excimer lamp except the lamp tube fixing ring. There is a straight groove for fixing one end of the quartz glass, and a number of ventilation and heat dissipation holes are also opened on the tail plate of the lamp; the bottom plate is installed under the lamp cap, and a ladder is opened on the bottom plate for fixing the The other end of the quartz glass is fixed by the tail plate of the lamp except the other end; the reflector is closely attached to the lampshade, and is installed on the lamp cap and the lamp tail plate together by screws;所述移动电池箱包括箱体和箱盖、电池、电源线，所述箱体和箱盖共同组成封闭腔，所述电池固定在所述箱体中，所述箱体中还开设有所述电源线和所述手持灯的收纳空间。The mobile battery box includes a box body, a box cover, a battery, and a power cord. The box body and the box cover together form a closed cavity, the battery is fixed in the box body, and the box body is also provided with the Storage space for the power cord and the hand-held light.2.根据权利要求1所述的一种222nm准分子深紫外灯手持灯具，其特征在于，所述箱盖可以打开和关闭。2 . The 222nm excimer deep ultraviolet lamp handheld lamp according to claim 1 , wherein the box cover can be opened and closed. 3 .3.根据权利要求1和2中任一项所述的一种222nm准分子深紫外灯手持灯具，其特征在于，工作时，所述箱盖关闭，所述电源线连接所述电池和所述手持灯上的所述航空插头，所述电池通过所述电源线为所述222准分子灯管提供电力供应。3. A 222nm excimer deep ultraviolet lamp handheld lamp according to any one of claims 1 and 2, characterized in that, during operation, the box cover is closed, and the power cord is connected to the battery and the Holding the aviation plug on the lamp, the battery provides power supply for the 222 excimer lamp through the power cord.4.根据权利要求1和2中任一项所述的一种222nm准分子深紫外灯手持灯具，其特征在于，无需工作时，打开所述箱盖，将所述电源线和所述手持灯放入移动电池箱开设的所述电源线和所述手持灯的收纳空间，关闭所述箱盖。4. A kind of 222nm excimer deep ultraviolet lamp handheld lamp according to any one of claims 1 and 2, characterized in that, when no work is required, open the box cover, connect the power cord and the handheld lamp Put into the storage space of the power cord and the hand-held light opened by the mobile battery box, and close the box cover.

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