KR101362113B1 - Apparatus and method for sterilizing handrail of escalator - Google Patents

Abstract

An apparatus and method for sterilizing a hand rail of an escalator according to the present invention have a shape surrounding a hand rail of an escalator, a case attached to an escalator, located on an inner side of the case, and including sterilization including a light emitting diode that irradiates ultraviolet rays to the hand rail. Module, the control unit for controlling the sterilization module when the escalator is in a stopped state so that ultraviolet rays are not irradiated, and when the escalator is in an operating state, controlling the sterilization module to irradiate the ultraviolet light to the hand rail. If the user holding the hand rail is protected from the risk of infection and the like, and the power consumption can be minimized by performing the sterilization operation of the hand rail only when the escalator is in operation, Sterilization on It can hold and move the handrail, which doubles the protection effect by sterilization.

Description

Apparatus and method for sterilizing handrail of escalator}

The present invention relates to an escalator, and more particularly, to an apparatus and method for sterilizing hand rails of an escalator for sterilizing and providing a hand rail held by a person using the escalator with ultraviolet rays.

An escalator is a kind of conveyor, which is a device for continuously raising and lowering a person by driving a step that is rotated by a power, which is also called an automatic step.

Escalators are routinely installed on buildings of a certain size and above, and provide convenience for people to move.

Such an escalator is provided with a handle structure such as a handrail so that the occupant can safely move on his / her body.

By the way, such a hand rail is caught by a large number of people, many bacteria or bacteria exist, and cause human infection.

Therefore, a method for effectively sterilizing bacteria or bacteria located on the hand rail of the escalator is required.

An object of the present invention for solving the above problems is to provide an apparatus and method for sterilizing hand rails of an escalator which can effectively sterilize the hand rail of an escalator so that a user can be safely protected from the risk of infection.

The hand rail sterilization apparatus of the escalator of the present invention for achieving the above object, has a shape surrounding the hand rail of the escalator, is attached to the escalator, located on the inner side of the case, the ultraviolet light to the hand rail Sterilization module including a light emitting diode to be irradiated, when the escalator is in a stopped state, by controlling the sterilization module not to be irradiated with ultraviolet rays, when the escalator is in an operating state to control the sterilization module to irradiate the ultraviolet light to the hand rail It characterized in that it comprises a control unit.

In the hand rail sterilization apparatus of the escalator of the present invention, the sterilization module is mounted on any one surface of the substrate, the substrate and formed to be spaced apart from the light emitting diode in a direction in which the ultraviolet light is emitted and the ultraviolet light is emitted. And a heat dissipation unit attached to the other surface of the substrate.

In the hand rail sterilizer of the escalator of the present invention, the lens unit includes a diffusion plate for diffusing the ultraviolet light of the light emitting diode as a point light source to a surface light source, and an irradiation angle lens for extending the irradiation angle of the light emitting diode. It is done.

In the hand rail sterilization apparatus of the escalator of the present invention, the sterilization module includes a plurality of light emitting diodes emitting ultraviolet rays of the same or different wavelengths, each of the plurality of light emitting diodes are UV-A (320 ~ 360nm), UV -B (280 ~ 320nm) or UV-C (250 ~ 280nm) is characterized in that the ultraviolet light of one or more wavelengths.

In the hand rail sterilization apparatus of the escalator of the present invention, comprising a proximity sensor module for detecting whether the human body is in proximity, the control unit is ultraviolet of UV-A (320 ~ 360nm) wavelength if the human body is close as a result of the detection of the proximity sensor module The sterilization module is controlled so that only the body is irradiated, and if the human body is not in close proximity as a result of the detection of the proximity sensor module, UV-A (320-360 nm), UV-B (280-320 nm) or UV-C (250-280 nm) The sterilization module is controlled to be irradiated with ultraviolet light of one or more wavelengths.

In the hand rail sterilization apparatus of the escalator of the present invention, further comprising a photocatalyst portion formed inside the case and excited by ultraviolet rays, wherein the controller controls the sterilization module to irradiate the ultraviolet light to the photocatalyst portion. do.

Handrail sterilization method of the escalator of the present invention for achieving the above object, the sterilization step of irradiating the ultraviolet light to the handrail of the escalator handrail sterilization device when the escalator is switched from the stop state, and the escalator When the transition from the operating state to the stationary state characterized in that the hand rail sterilization device comprises a step of stopping the ultraviolet irradiation.

In the hand rail sterilization method of the escalator of the present invention, the sterilization step, the detection step of detecting whether the hand rail sterilization apparatus is close to the human body, if the human body is close as a result of the detection, the hand rail sterilization apparatus is UV-A (320) Irradiate only ultraviolet rays having a wavelength of ˜360 nm), and if the human body is not in close proximity as a result of the detection, ultraviolet rays of at least one wavelength of UV-A (320-360 nm), UV-B (280-320 nm) or UV-C (250-280 nm) It characterized in that it comprises a survey step of investigating.

According to the hand rail sterilization apparatus and method of the escalator according to the present invention can be expected the following effects.

First, by sterilizing and providing the hand rail of the escalator, the user is protected from the risk of infection by bacteria or bacteria.

Second, the power consumption can be minimized by performing the sterilization operation of the hand rail only when the escalator is in operation.

Third, when the user uses the escalator, the handrail sterilized immediately before can be caught and moved, thereby doubling the protection effect by sterilization.

Fourth, depending on whether the human body is close to the sterilization apparatus of the present invention, by varying the wavelength of the ultraviolet light for sterilization, it is possible to protect the user from the harmful effects of ultraviolet rays and at the same time maximize the effect of sterilization.

1 is an exemplary view of the use of the hand rail sterilization apparatus of the present invention according to an embodiment of the present invention.
2 is a cross-sectional view of the hand rail sterilization apparatus according to the embodiment of FIG.
3 is a cross-sectional view of a hand rail sterilization apparatus according to another embodiment of FIG. 1.
4 is a configuration diagram of a sterilization module according to the embodiment of FIG. 2 or FIG. 3.
5 is a flowchart of a hand rail sterilization method according to an embodiment of the present invention.

In the following description, only parts necessary for understanding the embodiments of the present invention will be described, and the description of other parts will be omitted so as not to obscure the gist of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor is not limited to the meaning of the terms in order to describe his invention in the best way. It should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely preferred embodiments of the present invention, and are not intended to represent all of the technical ideas of the present invention, so that various equivalents And variations are possible.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary view of the use of the hand rail sterilization apparatus 100 of the present invention according to an embodiment of the present invention.

Referring to FIG. 1, the escalator 10 includes a hand rail 200, a handrail sidewall 300, and a moving stair 400, and includes a hand rail sterilization apparatus 100 for sterilizing the hand rail 200.

Hand rail 200 is a handle structure provided so that the user of the escalator 10 can be held by the hand to support the body.

The handrail sidewall 300 is a structure that serves to guide the hand rail 200 to a predetermined position while protecting the user of the escalator 10 from falling.

The moving staircase 400 is a structure in which a user of the escalator 10 can step down and rotates by power.

The hand rail sterilization apparatus 100 is a device that functions to irradiate and sterilize ultraviolet rays to the hand rail 200 and includes an ultra violet ray light emitting diode (UVLED) for irradiating ultraviolet rays. do.

The hand rail sterilization apparatus 100 has a shape surrounding the hand rail 200 and is fixedly attached to the handrail sidewall 300 to irradiate ultraviolet rays toward the hand rail 200 and perform sterilization.

The hand rail sterilization apparatus 100 of the present invention does not irradiate ultraviolet rays to the hand rail 200 when the escalator 10 is in a stopped state, and irradiates ultraviolet rays to the hand rail 200 when the escalator 10 is in an operating state. To perform the sterilization operation.

In some cases, the escalator 10 is always in operation, but depending on the type, the escalator 10 is stopped when the person does not use it, and when the person approaches to use the escalator 10, there is a case where the escalator 10 is started.

By the way, if the escalator 10 is irradiated with ultraviolet rays to the hand rail 200 in the stopped state, the ultraviolet rays only reach the same point, and only the corresponding part is sterilized. This in turn lowers the sterilization efficiency of the hand rail 200 and causes unnecessary power waste.

Thus, the hand rail sterilization apparatus 100 of the present invention, the user of the escalator 10, the escalator 10 is in the operating state, and thus irradiates ultraviolet rays and sterilizes only when the hand rail 200 is rotated. Do this.

In this way, both in the case where the escalator 10 is always in operation or when the escalator 10 starts operating in accordance with the user's approach, the user grabs the sterilized hand rail 200 just before holding it by hand. Can move and significantly lower the risk of infection by bacteria and the like. In addition, by irradiating ultraviolet rays and performing sterilization operation only when the escalator 10 is in an operating state, unnecessary power consumption may be reduced.

In one embodiment of the present invention, the hand rail sterilization apparatus 100 includes a plurality of light emitting diodes emitting ultraviolet rays of the same or different wavelengths, and the plurality of light emitting diodes are UV-A (320-360 nm) and UV, respectively. Ultraviolet rays of at least one wavelength of -B (280-320 nm) or UV-C (250-280 nm) may be irradiated.

There are three types of UV rays transmitted directly from the sun to the Earth, UV-A (320-360 nm), UV-B (280-320 nm), and UV-C (250-280 nm). Most of the absorption, 99% of the earth's surface, is in the form of UV-A (320-360 nm), with only minor harm to plants. On the other hand, UV-B (280-320nm) UV rays can damage plant tissues and cause skin cancer in humans. UV-C (250-280nm) UV rays can burn bacteria and viruses.

The bactericidal effect of ultraviolet rays is mainly caused by UV-C (250-280 nm) wavelength region between 250 nm and 280 nm. UV-C (250-280nm) is characterized by sterile ultraviolet light because DNA present in the cell absorbs UV-C (250-280nm) well.

Among UV-C (250-280nm), 253.7nm (approximately 254nm) wavelength is best absorbed by DNA, and this wavelength is known to permanently damage and kill DNA, a microbial genetic material. Moreover, the wavelength which shows the highest bactericidal effect is 265 nm. The wavelength of 254nm emitted by the low pressure or high output low pressure amalgam lamp has a very high UV sterilization effect, but because it emits only 254nm wavelength due to the characteristics of the lamp, it is known that the wavelength has the highest effect. It is reported to have efficiency.

The UV-C (250-280nm) wavelength is hardly detectable because the wavelength is too short and the transmittance is weak, and the ozone layer in the earth's atmosphere completely blocks it. This makes a sterilization module that emits ultraviolet rays and can be used for artificial sterilization.

While the sterilization using ultraviolet rays can sterilize all bacteria, it does not resist the irradiated bacteria, and the method of use is simple and economical.

According to the wavelength-specific properties of the ultraviolet rays, the hand rail sterilization apparatus 100 of the present invention is irradiated with ultraviolet rays of UV-B (280 ~ 320nm) or UV-C (250 ~ 280nm) wavelength to the hand rail 200 In the case of sterilization, the sterilization effect is increased, while the user of the escalator 10 is directly or indirectly exposed to ultraviolet rays of UV-B (280-320 nm) or UV-C (250-280 nm) wavelengths emitted by the hand rail sterilizer 100. Exposure to personal health may cause harmful injury.

In order to prevent such a risk in advance, the hand rail sterilization apparatus 100 of the present invention includes a proximity sensor module that detects whether a human body is in proximity, and can adaptively perform a sterilization operation according to the detection result.

That is, the hand rail sterilization apparatus 100 of the present invention performs sterilization by irradiating only the ultraviolet rays of UV-A (320-360 nm) wavelength to the hand rail 200 when the human body is close as a result of the detection of the proximity sensor module. Accordingly, even if the user of the escalator 10 is exposed to ultraviolet rays of UV-A (320 ~ 360nm) wavelength is not harmed.

On the other hand, the hand rail sterilization apparatus 100 of the present invention, if the human body is not close as a result of the detection of the proximity sensor module, UV-A (320 ~ 360nm), UV-B (280 ~ 320nm) or UV-C (250 ~ 280nm Ultraviolet rays of one or more wavelengths) are irradiated to the hand rail 200 to perform a strong sterilization operation.

In this case, the hand rail sterilization apparatus 100 may determine that the human body is not in proximity when the human body is separated by a predetermined distance or more as a result of the detection of the proximity sensor module.

The proximity sensor module for detecting a human body may include, for example, sensing equipment such as an infrared sensor, a proximity sensor, and a camera.

This operating feature of the hand rail sterilization apparatus 100 according to the present invention enables a strong sterilization operation on the hand rail 200 while at the same time giving maximum consideration to the safety of the user of the escalator 10.

The configuration and function of the hand rail sterilization apparatus for performing the sterilization operation on the hand rail 200 of the escalator 10 according to the present invention will be described in more detail with reference to FIGS. 2 and 3.

FIG. 2 is a cross-sectional view of the hand rail sterilization apparatus 100 according to the embodiment of FIG. 1.

1 and 2, the hand rail sterilization apparatus 100 of the embodiment of FIG. 2 includes a case 110, a sterilization module 120, and a control unit 130, and a fixing member at an end of the case 110. 140 is attached, the proximity sensor module 150 is located on the outer surface of the case 110.

The case 110 has a shape surrounding the hand rail 200 of the escalator 10 and is attached to the escalator 10.

The sterilization module 120 is located on the inner side of the case 110 and includes a light emitting diode that irradiates ultraviolet rays to the hand rail 200. At this time, the sterilization module 120 is preferably installed to face the hand rail 200 of the inner surface of the case (110).

The controller 130 controls the overall operation of the hand rail sterilization device 100 including the sterilization module 120 and the proximity sensor module 150, and may include a processor and an application program storage therefor.

The controller 130 of the present invention may be located on a circuit board included in the sterilization module 120 according to an embodiment.

The fixing member 140 located at the end of the case 110 is attached in contact with the handrail sidewall 300 of the escalator 10 to fix the case 110, thereby located on the inner side of the case 110. The ultraviolet irradiation direction of the sterilization module 120 is kept constant.

The proximity sensor module 150 may detect whether a human body is in proximity, and may include sensing equipment such as an infrared sensor, a proximity sensor, and a camera.

In the present invention, the control unit 130 does not irradiate ultraviolet rays from the sterilization module 120 when the escalator 10 is stopped, and conversely, when the escalator 10 is in the operating state, the control unit 120 controls the sterilization module 120 by hand rail. Ultraviolet rays are irradiated at 200.

Through this, the power consumption can be reduced by irradiating ultraviolet rays only when the user actually uses the escalator 10, and the user is protected from infection by bacteria by holding and moving the hand sterilized hand rail 200 by hand.

In one embodiment of the present invention, the sterilization module 120 includes a plurality of light emitting diodes emitting ultraviolet rays of the same or different wavelengths, and the plurality of light emitting diodes respectively include UV-A (320-360 nm) and UV-B ( 280 to 320 nm) or UV-C (250 to 280 nm) may be irradiated with ultraviolet light of one or more wavelengths.

The controller 130 controls the sterilization module 120 such that only ultraviolet rays of UV-A (320-360 nm) wavelengths are irradiated when the human body is close as a result of the detection of the proximity sensor module 150, and the proximity sensor module 150 of the proximity sensor module 150. If the human body is not in close proximity as a result of the detection, the sterilization module 120 is controlled to irradiate ultraviolet rays of one or more wavelengths of UV-A (320-360 nm), UV-B (280-320 nm) or UV-C (250-280 nm). .

In accordance with the control operation of the control unit 130, both the operation of the escalator 10 or the case of performing the operation only when the user is present on the escalator 10, while minimizing the risk to the human body Powerful sterilization operation can be performed on the hand rail 200.

3 is a cross-sectional view of a hand rail sterilization apparatus 100 according to another embodiment of FIG. 1.

1, 2 and 3, the hand rail sterilization apparatus 100 of the embodiment of FIG. 3 includes a case 110, a sterilization module 120, and a controller 130, and an end of the case 110. The fixing member 140 is attached thereto, and the proximity sensor module 150 is located on the outer surface of the case 110, and thus, detailed description thereof will be omitted.

3, the photocatalyst 160 is positioned on the inner surface of the case 110, and the sterilization module 120 irradiates ultraviolet rays toward the photocatalyst 160 as well as the hand rail 200. This is different from the embodiment described with reference to FIG. 2 in that respect.

The photocatalyst included in the photocatalytic unit 160 is a kind of catalyst and refers to a substance in which catalysis receives light energy. As a material that can be used for the photocatalytic unit 160, TiO ₂ , ZnO, CDS, ZRO ₂ , SNO ₂ , V ₂ O ₂ , WO _3, and the like, may be used perovskite-type composite metal oxides (SRTIO ₃ ). .

In particular, the photocatalyst 160 of the present invention preferably includes a photocatalyst made of titanium oxide (TiO ₂ ) material. Titanium oxide is very abundant in resources, so it is inexpensive, has excellent durability and abrasion resistance as a photocatalyst, and is itself a material that has no concern for secondary pollution even when disposed of as a safe and non-toxic material. Considering the conditions and activity of the photocatalyst, the titanium oxide can be used semi-permanently because it does not change even when it receives light. It is superior in oxidizing power than chlorine or ozone and has excellent sterilizing power, and can decompose all organic substances into carbon dioxide and water.

Meanwhile, the photocatalyst 160 may be formed by coating with a photocatalyst coating agent. Photocatalyst coatings are coatings designed to combine ultrafine titanium oxide with an inorganic binder to form a high hardness, acid resistant, transparent film. Such photocatalyst coating material is characterized by easy coating on building walls, glass, mirrors, tiles and the like.

On the other hand, when looking at the characteristics of titanium oxide, electrons (e-) and holes (h +) generated when light hits the titanium oxide, a photocatalyst, react with O ₂ and H ₂ O in the air, respectively, resulting in superoxide anion, It produces two kinds of free radicals.

In particular, since radicals have a high oxidation and reduction potential, they are excellent for purifying NOx, SOx, volatile organic compounds and various odors, and can remove wastewater, sewage, pollutants, environmental hormones, fungi, bacteria, etc. It has the ability to oxidize the target substance, such as sterilizing more than 99%.

In addition, when light is irradiated, one of the two oxygen constituents of titanium oxide reacts with H 2 O in the air to generate hydrophilic (-OH) having very high hydrophilicity, and the surface of the titanium oxide has contamination resistance to prevent adhesion of contaminants. Attached contaminants are characterized by having self-cleaning that allows them to be easily cleaned by rainfall or water.

The titanium oxide photocatalyst is also economical because the reaction takes place by solar energy or fluorescent light, it is fixed to an object, and performs a permanent function by a cycle which is reproduced after the decomposition process is completed after photolysis. In addition, the by-products after the reaction are substances that are harmless to the environment with water and CO2.

When the photocatalyst 160 made of titanium oxide absorbs ultraviolet rays having a wavelength of 380 nanometers or less, photocatalytic decomposition occurs. This is in the form of decomposing the material, for example, the organic material can be decomposed into carbon dioxide (CO ₂ ) and water (H ₂ O). This decomposition property corresponds to the combustion reaction which is the inverse of the photosynthesis reaction. The combustion reaction corresponds to the combustion reaction at 30,000 degrees or more, but is completely different from the normal combustion reaction. In other words, the combustion reaction through the photocatalyst does not increase the temperature, the reaction proceeds at a room temperature, and the reaction occurs only by the amount of light when the light hits.

Accordingly, the controller 130 included in the hand rail sterilization apparatus 100 of the present invention controls the ultraviolet rays emitted from the sterilization module 120 to be irradiated to the photocatalyst 160 as well as the hand rail 200. The photocatalyst 160 excited with ultraviolet rays decomposes bacteria, viruses, and the like existing in the air inside the hand rail sterilization apparatus 100 to prevent the growth of the bacteria on the hand rail 200.

The function and operation of the sterilization module 120 for irradiating ultraviolet rays to the hand rail 200 of the escalator 10 according to the present invention will be described in more detail with reference to FIG. 4.

4 is a configuration diagram of the sterilization module 120 according to the embodiment of FIG. 2 or FIG. 3.

1, 2, 3, and 4, the sterilization module 120 of the embodiment of FIG. 4 includes a heat dissipation unit 121, a substrate 122, a light emitting diode 123, and a lens unit 124. do.

The heat dissipation unit 121 is positioned on one side of the substrate 122 and serves to discharge heat due to ultraviolet radiation of the light emitting diode 123 or an operation of the substrate 122.

The light emitting diode 123 is mounted on the other side of the substrate 122 to emit ultraviolet light having at least one wavelength of UV-A (320-360 nm), UV-B (280-320 nm) or UV-C (250-280 nm). Irradiate with the hand rail 200 or the photocatalyst 160. The light emitting diode 123 may include a plurality of LEDs that emit ultraviolet rays having UV-A (320-360 nm), UV-B (280-320 nm), or UV-C (250-280 nm) wavelengths, respectively.

The substrate 122 may be manufactured in the form of a printed circuit board (PCB), and a controller 130 for controlling the overall operation of the sterilization module 120 may be mounted.

The lens unit 124 diffuses the ultraviolet light of the point light source to the surface light source and expands the angle at which the ultraviolet light of the light emitting diode 123 is irradiated.

The lens unit 124 of the present invention is formed to be spaced apart from the light emitting diode 123 in a direction in which ultraviolet rays of the light emitting diode 123 are radiated. In the embodiment shown in FIG. 4, the lens unit 124 is a diffusion plate 125. ) And the irradiation angle lens 126.

The diffusion plate 125 changes the ultraviolet rays of the light emitting diodes 123 which are point light sources into ultraviolet rays of the surface light source. That is, a diffusion pattern is formed in the diffusion plate 125, and the ultraviolet rays of the point light sources incident upon the diffusion patterns 125 are diffused into the ultraviolet rays of the surface light sources.

The diffusion plate 125 may be manufactured using a synthetic quartz (Fused quartz or Fused silica), a glass (glass) material in order to prevent ultraviolet diffusion and deterioration. The diffusion pattern formed on the diffusion plate 125 and the diffusion plate 125 may be formed using any one of a laser processing, a scratch, and an etching method.

The irradiation angle lens 126 extends the angle at which ultraviolet light emitted from the light emitting diode 123 is irradiated to widen the irradiation area. The irradiation angle lens 126 may be manufactured using synthetic quartz, glass polymer, Teflon, special acrylic, or special plastic material to prevent deterioration thereof. The irradiation angle lens 126 may be formed using laser processing, coating, deposition, scratching, etching, or the like.

A process of sterilizing the hand rail 200 according to an embodiment of the present invention will be described in more detail with reference to FIG. 5.

5 is a flowchart of a hand rail sterilization method of the present invention according to an embodiment of the present invention.

1 and 5, when there is no user, the escalator 10 is in a stopped state, and when the user approaches to use the escalator 10, the escalator 10 starts operation (S11).

When the escalator 10 is in the operating state, the hand rail sterilization apparatus 100 detects whether the human body is in proximity using an internal sensor or the like (S12).

In operation S12, the hand rail sterilization apparatus 100 may detect whether a human body is near by using sensing equipment such as an infrared sensor, a proximity sensor, or a camera. At this time, the hand rail sterilization apparatus 100 may determine that the human body is in proximity when within a certain distance.

If the human body is not in close proximity (S13) as a result of the detection in step S12, the hand rail sterilization apparatus 100 is UV-A (320-360 nm), UV-B (280-320 nm) or UV- for strong sterilization. Sterilization is performed by irradiating ultraviolet rays of at least one wavelength of C (250 to 280 nm) with the hand rail 200 (S14).

If the human body is in close proximity (S13) as a result of the detection in step S12, the hand rail sterilization apparatus 100 sterilizes the ultraviolet rays of UV-A (320-360 nm) wavelengths which are less harmful to the human body by irradiating the hand rail 200. Perform the operation (S15).

If the hand rail sterilization apparatus 100 irradiates ultraviolet rays to the hand rail 200 in steps S14 and S15, and there is no more user and the escalator 10 stops (S16), the hand rail sterilization apparatus 100 Stops the ultraviolet irradiation operation (S17).

If the user of the escalator 10 is still present and the escalator 10 is in the operating state while the hand rail sterilization apparatus 100 irradiates ultraviolet rays to the hand rail 200 in steps S14 and S15 (S16), The hand rail sterilization apparatus 100 repeats the process of steps S12 to S16, and continuously irradiates ultraviolet rays to the hand rail 200 and performs a sterilization operation.

On the other hand, the embodiments disclosed in the specification and drawings are merely presented specific examples to aid understanding, and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: escalator 100: hand rail sterilizer
110 case 120 sterilization module
121: heat radiating portion 122: substrate
123: light emitting diode 124: lens unit
125 diffuser 126 irradiation angle lens
130 control unit 140 fixing member
150: proximity sensor module 160: photocatalyst
200: hand rail 300: handrail sidewall
400: moving stairs

Claims (8)

A case attached to the escalator having a shape surrounding the hand rail of the escalator;
A sterilization module located on an inner side of the case and including a light emitting diode emitting ultraviolet light to the hand rail;
A controller for controlling the sterilization module so that ultraviolet rays are not irradiated when the escalator is in a stopped state, and controlling the sterilization module to irradiate ultraviolet rays with the hand rail when the escalator is in operation;
Hand rail sterilization apparatus of the escalator comprising a. The method of claim 1, wherein the sterilization module
Board;
The light emitting diode mounted on one surface of the substrate and emitting the ultraviolet rays;
A lens unit spaced apart from the light emitting diode in a direction in which the ultraviolet rays are emitted; And
A heat dissipation unit attached to the other surface of the substrate;
Hand rail sterilization apparatus of the escalator comprising a. 3. The method of claim 2,
The lens unit diffuser plate for diffusing the ultraviolet light of the light emitting diode which is a point light source to a surface light source; And
An irradiation angle lens for extending an irradiation angle of the light emitting diode;
Hand rail sterilization apparatus of the escalator comprising a. The method of claim 1,
The sterilization module includes a plurality of light emitting diodes emitting ultraviolet rays of the same or different wavelengths, wherein the plurality of light emitting diodes are UV-A (320-360 nm), UV-B (280-320 nm) or UV-C ( Handrail sterilization apparatus of an escalator, characterized in that irradiating ultraviolet rays of one or more wavelengths (250 ~ 280nm). 5. The method of claim 4,
It further includes; proximity sensor module for detecting whether the human body is in proximity,
The control unit controls the sterilization module to irradiate only ultraviolet rays of UV-A (320-360 nm) wavelength when the human body is close as a result of the detection of the proximity sensor module, and UV- if the human body is not close as a result of the detection of the proximity sensor module. Hand sterilization apparatus of the escalator, characterized in that to control the sterilization module to be irradiated with ultraviolet rays of at least one wavelength of A (320 ~ 360nm), UV-B (280 ~ 320nm) or UV-C (250 ~ 280nm). The method of claim 1,
It is formed on the inside of the case, further comprising a photocatalyst excited by ultraviolet light;
The control unit sterilization apparatus of the handrail of the escalator, characterized in that for controlling the sterilization module to irradiate the ultraviolet light to the photocatalyst. A sterilization step of the hand rail sterilizing apparatus irradiating ultraviolet rays to the hand rail of the escalator when the escalator is switched from the stopped state to the operating state; And
An interruption step in which the hand rail sterilizer stops irradiating ultraviolet rays when the escalator is switched from an operating state to a stopped state;
Hand rail sterilization method of the escalator comprising a. The method of claim 7, wherein the sterilization step,
A sensing step of detecting whether the hand rail sterilization apparatus is in close proximity to the human body;
If the human body is close as a result of the detection, the hand rail sterilizer irradiates only ultraviolet rays of UV-A (320-360 nm) wavelength, and if the human body is not close to the detection result, UV-A (320-360 nm), UV-B (280 ˜320 nm) or UV-C (250-280 nm) irradiation step of irradiating ultraviolet light of at least one wavelength;
Hand rail sterilization method of the escalator comprising a.

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