KR20220008562A - Stabilizer integrated excimer air purifier - Google Patents

Abstract

Embodiments of the present invention relate to a stabilizer-integrated excimer air purifier. According to one embodiment of the present invention, provided is a stabilizer-integrated excimer which comprises: an excimer lamp for emitting UV light; a base for accommodating therein a stabilizer for supplying power to the excimer lamp; a mounting member including a power connection part so that an external power source is connected to the stabilizer; a fan part for supplying air to a surface of the excimer lamp; and a lamp protection tube including at least one air inlet through which air can be introduced, wherein an insulation part is connected between the excimer lamp and the base.

Description

Stabilizer integrated excimer air purifier {STABILIZER INTEGRATED EXCIMER AIR PURIFIER}

Embodiments of the present invention relate to a ballast-integrated excimer air purifier.

After the 1870s, research to understand the molecular changes of living things generated by UV absorption using UV light sources started. A systematic study of the effects of UV on various biological systems using UV lamps has been initiated. For biological systems, UV is being studied as a means to prevent the spread of infectious diseases by inactivating microorganisms in food, water and air. In particular, air disinfection using UV-C emits UV-C light to damage bacteria and viruses floating in space, and is known to be effective in suppressing disease transmission.

Conventionally, low-pressure mercury lamps have been mainly used as light sources for air purifiers using UV, but as mercury regulations spread due to problems such as environmental pollution, continuous development of air purifiers using excimer lamps that do not use mercury is in progress. have. Excimer lamps have the characteristic of emitting a characteristic wavelength in the process of gas molecules returning to the ground state after excitation of the gas enclosed in the light emitting tube by dielectric barrier discharge, and the type and ratio of internal gas Accordingly, there is an advantage of being able to select light emission in various areas such as 172 nm, 222 nm, and 308 nm.

Existing air purifiers using excimer lamps are mainly installed on walls or ceilings in hospitals and other facilities. The general structure of an excimer lamp air purifier consists of a ballast, a power connector, and a lamp in a frame forming the exterior. However, in the case of an excimer lamp air purifier having such a structure, the lamp must be replaced by disassembling the frame of the air purifier at the end of the lamp's service life or failure. In addition, even if the ballast connecting the power source and the lamp is broken, the frame must be dismantled to replace the ballast, or if this is not possible, the entire air purifier including the frame must be replaced.

Due to this replacement method, the existing excimer lamp air purifier is inconvenient to work for general users except for experts due to the difficulty of the operation, and a separate maintenance cost that exceeds the lamp replacement cost after installing the air purifier occurs.

Republic of Korea Patent Publication No. 10-1217329 (2012.12.24.)

Embodiments of the present invention are to provide a ballast-integrated excimer air purifier that is easy to replace when an excimer lamp or ballast is abnormal.

In addition, embodiments of the present invention are to provide a ballast-integrated excimer air purifier capable of minimizing maintenance costs.

According to an embodiment of the present invention, an excimer lamp emitting UV light; a base accommodating therein a ballast for supplying power to the excimer lamp; a mounting member including a power connection part so that an external power source is connected to the ballast; a fan unit for supplying air to the surface of the excimer lamp; and a lamp protection tube including at least one air inlet through which the air can be introduced, wherein the excimer lamp is connected between the excimer lamp and the base by an insulating part.

The excimer lamp may emit UV-C light included in a wavelength range of 200 to 280 nm.

The excimer lamp may emit a single light having a wavelength of 222 nm.

The ballast-integrated excimer air purifier may have a triple tube structure.

The excimer lamp may have a cylindrical structure.

The excimer lamp may have a polygonal prism structure of square or more.

The mounting member may have a thread on its surface.

The mounting member is connected to the lamp mounting holder, and can be mounted or detached while the mounting member rotates in the lamp mounting holder along the threaded line.

The excimer lamp may be fixed to the base by the insulating part.

Air around the ballast-integrated excimer air purifier may be introduced through the air inlet by the fan unit to circulate air on the excimer lamp side.

The excimer lamp may include an inner tube and an outer tube, and may have a structure in which a lamp protection tube surrounds the outer tube.

The external electrode formed on the outer surface of the outer tube may be formed of a wire.

According to embodiments of the present invention, when an abnormality occurs in the excimer lamp or the ballast, it can be replaced in the same manner as in the general lamp replacement method, so that non-professionals can easily replace it.

In addition, according to embodiments of the present invention, the maintenance cost of the excimer lamp air purifier is minimized, so that once installed in a hospital or home, additional maintenance cost may hardly occur.

1 is a view showing a ballast-integrated excimer air purifier according to an embodiment of the present invention;
2 is a cross-sectional view showing the triple tube structure of the ballast-integrated excimer air purifier according to an embodiment of the present invention;
3 is a view showing a movement path of air in the ballast integrated excimer air purifier;

Hereinafter, specific embodiments will be described with reference to the drawings. The following detailed description is provided to provide a comprehensive understanding of the methods, devices, and/or systems described herein. However, this is merely an example and the disclosed embodiments are not limited thereto.

In describing the embodiments, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the disclosed embodiments, the detailed description thereof will be omitted. And, the terms to be described later are terms defined in consideration of functions in the disclosed embodiments, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification. The terminology used in the detailed description is for the purpose of describing the embodiments only, and should in no way be limiting. Unless explicitly used otherwise, expressions in the singular include the meaning of the plural. In this description, expressions such as “comprising” or “comprising” are intended to indicate certain features, numbers, steps, acts, elements, some or a combination thereof, one or more other than those described. It should not be construed to exclude the presence or possibility of other features, numbers, steps, acts, elements, or any part or combination thereof.

1 is a view showing a ballast-integrated excimer air purifier according to an embodiment of the present invention.

1, the ballast-integrated excimer air purifier according to an embodiment of the present invention includes an excimer lamp 1 emitting UV light and a ballast 4 connected to supply power to the excimer lamp 1 inside. A mounting member (5) including a base (3) for accommodating the ballast (4) and a power connection (6) to connect an external power source (5), a fan (fan) for supplying air to the surface of the excimer lamp (1) ) may include a lamp protection tube 11 including at least one air inlet 10 so that the air supplied to the unit 9 and the excimer lamp 1 can be introduced.

The excimer lamp 1 may emit UV light to disinfect the surrounding air or to fight bacteria and viruses contained in the air. The ballast 4 may create a discharge condition for lighting the excimer lamp 1, and after the excimer lamp 1 is turned on, the voltage and current of the excimer lamp 1 may be stably supplied. In the past, the ballast was separate from the excimer lamp in the air purifier, so if the excimer lamp breaks down or expires, the air purifier must be dismantled and the lamp replaced. had to replace itself. Therefore, it is necessary to dismantle the air purifier, and this operation is difficult for non-professionals to perform. Accordingly, the existing excimer air purifier continues to incur additional maintenance costs after installation of the air purifier.

However, in the case of the air purifier according to an embodiment of the present invention, the excimer lamp 1 and the ballast 4 are integrally coupled through the base 3, and the integrated part is detachable from the lamp mounting holder 7 As a result, when the excimer lamp 1 does not operate, the general public can easily replace it.

The excimer lamp 1 and the base 3 are connected by an insulating part 2 so that the excimer lamp 1 and the ballast 4 in the base 3 can be integrated. Insulation 2 may provide a mechanical bond that allows the connection between the excimer lamp 1 and the ballast 4 in the base 3 to be maintained. In addition, the base 3 is also mechanically coupled to the insulating part 2 to maintain the coupling state between the excimer lamp 1 and the base 3 . The insulating part 2 connects the excimer lamp 1 and the base 3 while preventing electrical leakage to the user by energization between the excimer lamp 1 and the ballast 4 inside the base 3 It may be formed of an insulating material to do so.

The excimer lamp 1 emits UV light as described above, and in particular, may emit UV-C light in a wavelength range of 200 to 280 nm. UV-C light is light with a wavelength that can sterilize or remove bacteria, bacteria and viruses. Accordingly, by emitting UV-C light from the excimer lamp 1 , it is possible to have an effect of removing harmful microorganisms and viruses from the air supplied to the vicinity of the excimer lamp 1 . In addition, more preferably, the excimer lamp 1 emits a single light having a wavelength of 222 nm to maximize the air purification and sterilization effect.

And, the ballast-integrated excimer air purifier according to an embodiment of the present invention may have a triple tube structure. In addition, the shape of the excimer lamp 1 may be a cylindrical structure or a polygonal column structure of more than a square. The triple-tube structure may be to prevent the excimer lamp 1 from being directly exposed to an outside person while allowing external air to continuously flow into the excimer lamp 1 side. A specific form of the triple tube structure will be described with reference to FIG. 2 .

The main role of the mounting member 5 positioned below the base 3 may be to be connected to the lamp mounting holder 7 . The mounting member 5 has a thread, and the inner side of the lamp mounting holder 7 has a corresponding thread, so that the mounting member 5 rotates with respect to the lamp mounting holder 7 and the ballast-integrated excimer air purifier becomes the lamp. It can be coupled to the mounting holder (7). For example, the ballast-integrated excimer air purifier can be mounted on the lamp-mounted holder 7 by rotating the ballast-integrated excimer air purifier clockwise with respect to the lamp-mounted holder 7, It can be removed by rotating it clockwise.

However, the present invention is not limited thereto, and the mounting member 5 may be fitted inside the lamp mounting holder 7 . In this case, no screw thread is required between the mounting member 5 and the lamp mounting holder 7, and the mounting member 5 is mounted on the lamp by contact between the outer surface of the mounting member 5 and the inner surface of the lamp mounting holder 7 . It can be fixed in the holder 7 .

The fan unit 9 disposed on the upper side of the excimer lamp 1 continuously supplies air around the excimer lamp 1 to sterilize the air in the space where the ballast-integrated excimer air purifier is installed by the excimer lamp 1 and It can play a role in helping the purification take place. In the vicinity of the excimer lamp 1, the lamp protection tube 11 prevents the excimer lamp 1 from being directly exposed to people and allows air to enter and exit the air inlet 10 formed in the lamp protection tube 11. have. Accordingly, when the fan unit 9 is operated, the air flowing in and out through the air inlet 10 reaches the vicinity of the excimer lamp 1 , so that air purification and sterilization by the excimer lamp 1 can be effectively performed.

Although not shown in FIG. 1 , power may be supplied to the fan unit 9 to operate the fan unit 9 .

2 is a cross-sectional view showing the triple tube structure of the ballast-integrated excimer air purifier according to an embodiment of the present invention.

Referring to FIG. 2 , the excimer lamp 1 may include an outer tube 13 and an inner tube 12 on which electrodes are formed. An external electrode 8 may be formed on the outer peripheral surface of the outer tube 13 , and an internal electrode (not shown) may be formed on the inner peripheral surface of the inner tube 12 . An inert gas may be accommodated in the space formed by the outer tube 13 and the inner tube 12 .

The external electrode 8 may be a coil-shaped wire that is wrapped while rotating along the outer circumferential surface of the outer tube 13 .

The inert gas may be a xenon (Xe) gas, but is not limited thereto, and may be any one of arbitrary excimers (KrCl, XeI, XeCl, Xe, etc.). In this case, the term 'excimer' refers to a chemical species that does not bind in a ground state and binds in an excited state.

In the excimer lamp 1, when high frequency and high voltage power is applied between the external electrode 8 and the internal electrode, an excimer discharge occurs and light can be emitted.

And, the external tube 13 of the excimer lamp 1 has a structure in which the lamp protection tube 11 surrounds it, so that the inner tube 12, the outer tube 13 and the lamp protection tube 11 have a triple-tube structure. can have As shown in FIG. 1 above, the lamp protection tube 11 may include one or more air inlets 10 to serve as a passage through which air may be introduced to the excimer lamp 1 side.

3 is a view showing a movement path of air in the ballast integrated excimer air purifier.

Referring to FIG. 3 , air may be introduced from the air inlet 10 to the excimer lamp 1 side by the operation of the fan unit 9 , and the air from the excimer lamp 1 side may flow through the air inlet 10 . It may be discharged outside. This can be adjusted according to the rotation direction of the fan unit 9, and which one is suitable can be changed according to the situation.

The ballast-integrated excimer air purifier according to an embodiment of the present invention does not dismantle the air purifier itself when the excimer lamp does not work properly due to a ballast abnormality, etc., and can be easily replaced by ordinary people as in the case of general lamp replacement. Accordingly, if the ballast-integrated excimer air purifier according to an embodiment of the present invention is installed in a place where air purification and sterilization is essential, such as a hospital, it can be easily replaced even by a non-professional. In addition, if the excimer lamp does not work after installing the ballast integrated excimer air purifier as needed, even a housewife can easily replace it.

Although representative embodiments of the present invention have been described in detail above, those of ordinary skill in the art to which the present invention pertains will understand that various modifications are possible within the limits without departing from the scope of the present invention with respect to the above-described embodiments. . Therefore, the scope of the present invention should not be limited to the described embodiments, and should be defined by the following claims as well as the claims and equivalents.

1: Excimer lamp
2: Insulation
3: base
4: ballast
5: Mounting member
6: power connection
7: Lamp mounting holder part
8: external electrode
9: Fan part
10: air inlet
11: lamp protection tube
12: inner tube
13: outer tube
14: air circulation path

Claims (13)

excimer lamps emitting UV light;
a base accommodating therein a ballast for supplying power to the excimer lamp;
a mounting member including a power connection part so that an external power source is connected to the ballast;
a fan unit for supplying air to the surface of the excimer lamp; and
A lamp protection tube including at least one air inlet through which the air can be introduced;
A ballast-integrated excimer air purifier connected between the excimer lamp and the base by an insulating part.
The method according to claim 1,
The excimer lamp is a ballast-integrated excimer air purifier that emits UV-C light included in a wavelength range of 200 to 280 nm.
The method according to claim 1,
The excimer lamp emits a single light having a wavelength of 222 nm, a ballast-integrated excimer air purifier.
The method according to claim 1,
The ballast-integrated excimer air purifier has a triple tube structure, the ballast-integrated excimer air purifier.
The method according to claim 1,
The excimer lamp has a cylindrical structure, a ballast-integrated excimer air purifier.
The method according to claim 1,
The excimer lamp is a ballast-integrated excimer air purifier having a polygonal prism structure of square or more.
The method according to claim 1,
wherein the mounting member has a thread on its surface.
8. The method of claim 7,
The mounting member is connected to the lamp mounting holder, and the mounting member is mounted or detached while rotating in the lamp mounting holder along the screw line.
The method according to claim 1,
The mounting member is fitted and fixed in the lamp mounting holder, a ballast-integrated excimer air purifier.
The method according to claim 1,
The excimer lamp is fixed to the base by the insulating part, a ballast-integrated excimer air purifier.
The method according to claim 1,
The ballast-integrated excimer air purifier, in which air around the ballast-integrated excimer air purifier is introduced through the air inlet by the fan unit to circulate the air at the excimer lamp side.
5. The method according to claim 4,
The excimer lamp includes an inner tube and an outer tube, and has a structure in which a lamp protection tube surrounds the outside of the outer tube, the ballast integrated excimer air purifier.
12. The method of claim 11,
The external electrode formed on the outer surface of the outer tube is formed of a wire, ballast integrated excimer air purifier.

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