KR20110042990A - Hand drier and method for sterilization of tray of hand drier - Google Patents

Abstract

PURPOSE: A hand drier capable of sterilizing an outlet tray, and an outlet tray sterilization method thereof are provided to prevent the secondary microbism of dried hands, and to extend the lifetime of the hand drier. CONSTITUTION: A hand drier comprises the following: an outlet tray(320) exhausting air generated by a drying fan; and an ultraviolet lamp sterilizing the outlet tray by irradiating ultraviolet rays. The ultraviolet lamp includes a first ultraviolet lamp(330) irradiating the ultraviolet rays to the inner surface of the outlet tray, and a second ultraviolet lamp(340) irradiating the ultraviolet rays to the outer surface of the outlet tray.

Description

Hand Drier and Method for Sterilization of Tray of Hand Drier}

The present invention relates to a hand dryer and a method for sterilizing the outlet tray of the hand dryer, and more particularly, to a hand dryer and a method for sterilizing the outlet tray of the hand dryer which can sterilize the outlet tray by itself.

Washing hands in public restrooms such as rest areas, hotels, department stores, companies, restaurants, factories, etc., removes water from the hands and wipes them with a towel or paper, or dry them with a hot air dryer. The use of towels is unsanitary due to the common use of many people, and the use of paper has a lot of waste of resources.

Therefore, the hot air drying method is used a lot, the hot air drying method is to use a hand dryer to dry the hand with water in a short time independent of the sink. The hot air drying method generally uses warm air or cold air.

Conventional hand dryers are exposed to the outside of the outlet tray for outflow of the wind, and often located in a bathroom with a lot of moisture and bacteria, there was a problem that bacteria such as microorganisms and molds adhere to the surface. Because of this, the bacteria that are attached to the surface by the outflowing wind will be buried again in the hand may cause secondary pollution.

In addition, there is a problem that the corrosion of the device may occur due to the bacteria attached to the surface, shortening the life of the hand dryer.

Accordingly, an object of the present invention for solving the above problems is to provide a hand dryer having a sterilizing function and a method for sterilizing the outlet tray of the hand dryer.

It is also an object of the present invention to prevent secondary bacterial infections to dry hands and to extend the life of the hand dryer.

The technical problem is a hand dryer according to the present invention, the outlet tray for outflow of the wind generated by the drying fan; And an ultraviolet lamp for sterilizing the exit tray by irradiating the exit tray with ultraviolet rays.

Preferably, the ultraviolet lamp includes a first ultraviolet lamp located inside the exit tray and irradiating ultraviolet rays to an inner surface of the exit tray.

Preferably, the ultraviolet rays irradiated from the first ultraviolet lamp have a wavelength of 240 to 270 nm.

It is preferable that the said 1st ultraviolet lamp irradiates an ultraviolet-ray to the said exit tray periodically.

Preferably, the ultraviolet lamp includes a second ultraviolet lamp positioned outside the exit tray and irradiating ultraviolet rays to an outer surface of the exit tray.

The apparatus may further include an approach detection sensor configured to detect whether a hand approaches the exit tray, and the second ultraviolet lamp may further include a second setting time when the access detection sensor does not detect the approach of the hand for a first setting time. It is preferable to irradiate ultraviolet rays during.

Preferably, the first setting time is smaller than 5 minutes.

Preferably, the second ultraviolet lamp stops the irradiation of the ultraviolet rays when the proximity sensor detects the approach of the hand during ultraviolet irradiation.

Preferably, the second ultraviolet lamp is positioned inside the sidewall perpendicular to the outlet tray and irradiates ultraviolet rays to the outer surface of the outlet tray.

The outlet tray is titanium dioxide (TiO ₂ ), zinc oxide (ZnO), cadmium sulfide (CdS), zirconium dioxide (ZrO ₂ ), tin dioxide (SnO ₂ ), vanadium dioxide (V ₂ O ₂ ), tungsten trioxide ( WO ₃ ) or strontium titanate (SrTiO ₃ ), preferably consisting of a photocatalyst coated metal.

On the other hand, the technical problem is the method of sterilizing the outlet tray of the hand dryer, (a) detecting the approach of the hand to the outlet tray; And (b) if the approach is not detected during the first set time, irradiating the surface of the outlet tray with ultraviolet light during the second set time.

Prior to the step (a), (c) further comprises the step of irradiating the ultraviolet light on the inner surface of the outlet tray, the step (b), characterized in that for irradiating the ultraviolet light on the outer surface of the outlet tray It is preferable.

Next to step (b), (d) preferably further comprises the step of stopping the ultraviolet irradiation to the outer surface of the exit tray when the approach of the hand to the exit tray is detected.

Preferably, the first setting time is smaller than 5 minutes.

As described above, the hand dryer according to the present invention may provide a hand dryer having a self-sterilization function by sterilizing the outlet tray using an ultraviolet lamp.

In addition, the sterilization of the exit tray can prevent secondary bacterial infections by hand and extend the life of the hand dryer.

The above objects, features and other advantages of the present invention will become more apparent by describing the preferred embodiments of the present invention in detail with reference to the accompanying drawings. Hereinafter, a hand dryer according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Structure of Hand Dryer 300

1 is a view showing the appearance of the hand dryer 300 according to the present invention from the outside, FIG. 2 is a view showing a side view of the user using the hand dryer 300 according to the present invention. .

As the hand is brought closer to the exit tray from which the wind is generated, as shown in FIG. When hand access is detected, the drying fan is driven by a motor inside the hand dryer to allow wind to flow through the outlet tray. The temperature of the outflowing wind can be set to warm air or cold wind.

3 is a view showing the interior of the hand dryer 300 according to an embodiment of the present invention.

The hand dryer 300 according to the present invention includes a drying fan 310, an outlet tray 320, a first ultraviolet lamp 330, a second ultraviolet lamp 340, and an approach detection sensor 350.

The drying fan 310 is driven by a motor to generate wind. A heater (not shown) is provided above the drying fan 310 to increase the temperature of the wind generated by the drying fan 310 to generate warm air. The approach detection sensor 350 detects whether a hand approaches the exit tray 320, and the drying fan 310 is driven only when the approach of the hand is detected.

The outlet tray 320 is a duct through which the wind generated by the drying fan 310 flows out. The outlet tray 320 may be implemented in various shapes in addition to the shape shown in FIG. 3.

The outlet tray 320 is basically a SUS-based metal material. However, in order to improve the surface sterilization effect, a photocatalyst metal coating may be applied to the surface of the outlet tray 330. Coating photocatalysts include titanium dioxide (TiO ₂ ), zinc oxide (ZnO), cadmium sulfide (CdS), zirconium dioxide (ZrO ₂ ), tin dioxide (SnO ₂ ), vanadium dioxide (V ₂ O ₂ ), and tungsten trioxide ( WO ₃ ) or strontium titanate (SrTiO ₃ ), and the like, but is not limited thereto.

A photocatalyst is a substance that promotes chemical reactions by generating a highly active material on the surface by light energy by a catalyst. When a photocatalyst is irradiated with a certain level of light or more, electrons and holes are generated. In this process, harmful chemicals, bacteria or organic substances are decomposed or sterilized.

The first ultraviolet lamp 330 irradiates ultraviolet rays to the inner surface of the outlet tray 320 to sterilize the outlet tray 320.

Ultraviolet rays have different properties depending on the type of wavelength. Ultraviolet rays range from 100 nm to 400 nm (nano-meta, 1 nm = 10-7 cm), depending on the range of wavelength, with 100 nm to 280 nm being UV-C (short wave) and 280 nm to 315 nm. UV-B (medium wave), 315nm ~ 400nm is classified as UV-A (long wave). The ultraviolet lamp uses ultraviolet rays of UV-C (short wave). Among them, UV germicidal activity was shown to be strong between 210 and 280 nm, and among them, the sterilization effect was higher at the wavelength of 240 to 270 nm. More preferably, it is preferable to irradiate ultraviolet rays with a wavelength of 254 nm. Sterilization using UV lamp is simple to use, and installation and maintenance cost is low.

Ultraviolet rays decompose oxygen molecules (O ₂ ) in the air into oxygen atoms (O). Oxygen atom (O) combines with oxygen molecule (O ₂ ) to generate ozone (O ₃ ). Ozone is a very strong sterilization / deodorization gas, and when the first ultraviolet lamp 330 irradiates ultraviolet rays to the inner surface of the outlet tray 320, the ozone may kill bacteria such as microorganisms attached to the inner surface.

The first ultraviolet lamp 330 may be set to continuously irradiate ultraviolet rays, but is preferably set to periodically irradiate ultraviolet rays at regular intervals. It is not only unnecessary to continuously irradiate ultraviolet rays for sterilization, but because the concentration of ozone may not only cause bad smell, but also may be harmful to the human body.

The first ultraviolet lamp 330 is filled with a mixture of low pressure mercury gas and argon gas inside a high purity quartz tube, and has electrodes connected to emitters at both ends thereof. When voltage is applied, a discharge is generated between the two electrodes. At this time, low-pressure mercury gas and argon gas are excited and returned to the ground state, and thus, ultraviolet sterilization may be performed by radiating electromagnetic waves.

The second ultraviolet lamp 340 irradiates the outer surface of the outlet tray 320 with ultraviolet rays to sterilize the outlet tray 320. Similarly to the first ultraviolet lamp, the second ultraviolet lamp 330 is also preferably irradiated with a wavelength of 240-270 nm in the ultraviolet rays of UV-C, and more preferably ultraviolet rays with a wavelength of 254 nm.

The second ultraviolet lamp 340 is not mounted inside the hand dryer, but is mounted outside. Ultraviolet rays sterilize, but when UV rays are irradiated directly on the human body, problems such as skin erythema, cell destruction and conjunctivitis may occur.

Therefore, it is preferable that the second ultraviolet lamp 340 irradiates ultraviolet rays only when the hand does not approach the exit tray 320. By placing the access sensor 350 on the exit tray 320, the access sensor 350 may be set to irradiate ultraviolet rays only when the access sensor 350 does not detect the approach of the hand. The approach detection sensor 350 may utilize an existing approach detection sensor that detects the hand's approach and drives the drying fan 310.

In addition, the second ultraviolet lamp 340 is preferably implemented as an ultraviolet LED lamp. This is because the ultraviolet LED lamp can be configured in one direction, so that the ultraviolet LED lamp can be irradiated only toward the outer surface of the outlet tray 320. In addition, the ultraviolet LED lamp has a simpler circuit configuration than a general cylindrical ultraviolet lamp, and is compact and easy to install in a narrow space.

The approach detection sensor 350 detects whether a hand approaches the exit tray 320. In one embodiment of the approach detection sensor 350 may be implemented to generate a detection signal when detecting the proximity of the hand, and does not generate a signal if the approach is not detected. In another embodiment of the approach detection sensor 350 may be implemented by generating an On signal when detecting the approach of the hand, and generating an Off signal when not detecting the approach of the hand. .

The generated detection signal or the on / off signal is transmitted to a controller (not shown) of the hand dryer, and the controller drives the drying fan 310 and the second ultraviolet lamp 340 based on the transmitted signal.

In one embodiment of the approach detection sensor 350, the control unit drives the drying fan 310 when generating the detection signal. If the user's hand is far from the exit tray 320 and the time exceeds the first set time from the time when the detection signal is not generated, the controller drives the second ultraviolet lamp 340 to irradiate ultraviolet rays. The first set time refers to a time sufficient to determine that the user's human body is not harmed even when irradiated with ultraviolet rays because the user's hand is not detected and the user has moved away from the hand dryer. The first setting time may be variously set according to a user, and may be variously set within a range of about 5 minutes.

In another embodiment of the approach detection sensor 350, when the approach detection sensor 350 generates an ON signal, the drying fan 310 is driven. After the drying fan 310 generates wind to dry the user's hand, if the user's hand moves away from the exit tray 320 and no approach is detected, the approach detection sensor 350 generates an off signal. When the proximity sensor 350 generates the off signal for the first set time, the controller may control the second ultraviolet lamp 340 to stop the drying fan 310 and irradiate ultraviolet rays. The first setting time is as described above.

The second ultraviolet lamp 340 may be designed to irradiate ultraviolet rays for a second set time. The second setting time may be set in various ways according to the user, and preferably, about 3 seconds to 1 minute. Irradiation of UV light for more than 1 minute can result in excessive power wastage, and sufficient sterilization effect can be obtained by ultraviolet light irradiation within 1 minute.

Even when the ultraviolet rays are being irradiated by the second ultraviolet lamp 340, when the user's hand approaches the exit tray 320 to generate the on-signal of the proximity sensor 350, the second ultraviolet lamp 340 is ultraviolet light. Stop the investigation. This is because direct ultraviolet irradiation may be harmful to the human body such as the user's hand.

The approach detection sensor 350 may be implemented as any type of sensor capable of detecting the approach of the user's hand, for example, an infrared sensor. The access sensor 350 may be installed anywhere as long as it can detect the proximity of the user's hand near the exit tray 320 as well as the exit tray 320.

Description of the method of sterilizing the exit tray of the hand dryer

Figure 4 is a flow chart illustrating a sterilization method of the outlet tray of the hand dryer according to an embodiment of the present invention.

In operation 410, the first ultraviolet lamp irradiates ultraviolet rays on the inner surface of the outlet tray of the hand dryer. As above-mentioned, the ultraviolet-ray irradiated from a 1st ultraviolet-ray lamp has a wavelength of 240 nm-270 nm, More preferably, the ultraviolet-ray of 254 nm wavelength is used. The exit tray can be sterilized by erasing bacteria such as microorganisms and organic substances attached to the inner surface due to the irradiation of ultraviolet rays.

In step 420, the proximity sensor detects the user's hand approaching the exit tray. If access to the exit tray is detected, step 430 is performed. If access is not detected, step 440 is performed.

In operation 430, when a user's approach to the exit tray is detected, the drying fan is driven. When the drying fan is driven, the wind flows out through the exit tray, thereby allowing the user's hand to dry. After starting to drive the drying fan, the flow proceeds to step 420 to drive the drying fan until the hand's approach is not detected.

In operation 440, when the user's approach to the exit tray is not detected, it is determined whether the time when the access is not detected exceeds the first preset time. As described above, the first setting time may be variously set according to a user, and may be variously set within a range of 5 minutes. If the time when the approach is not detected exceeds the first set time, the process proceeds to step 450.

In operation 450, the second ultraviolet lamp irradiates the outer surface of the exit tray with ultraviolet rays for a second predetermined time to sterilize the outer surface of the exit tray. The second ultraviolet lamp is mounted on the outside of the hand dryer. Since the ultraviolet rays may have a harmful effect on the human body, the second ultraviolet lamp is irradiated with the ultraviolet rays only when the time when the access of the hand is not detected exceeds the first set time.

The second ultraviolet lamp is preferably composed of an ultraviolet LED lamp that can be implemented in one direction. The second setting time may be variously designed according to the user's setting, but it is preferable that the second setting time is 3 seconds to 1 minute as described above. Step 410 and step 450 may be performed simultaneously.

While preferred embodiments of the present invention have been described above, the present invention is not limited to the above-described specific embodiments. That is, those skilled in the art to which the present invention pertains can make many changes and modifications to the present invention without departing from the spirit and scope of the appended claims, and all such appropriate changes and modifications are possible. Equivalents should be considered to be within the scope of the present invention.

1 is a view showing the appearance of the hand dryer according to the present invention from the outside.

2 is a view showing a side view of using the hand dryer according to the present invention.

3 is a view showing the interior of the hand dryer according to the present invention.

Figure 4 is a flow chart illustrating a sterilization method of the outlet tray of the hand dryer according to an embodiment of the present invention.

Claims (14)

Hand dryer, An outlet tray through which wind generated by the drying fan flows out; And UV light is irradiated to the outlet tray, characterized in that it comprises an ultraviolet lamp for sterilizing the outlet tray, Hand dryer. The method of claim 1, The ultraviolet lamp, Located in the outlet tray, characterized in that it comprises a first ultraviolet lamp for irradiating ultraviolet rays to the inner surface of the outlet tray, Hand dryer. The method of claim 2, Ultraviolet light emitted from the first ultraviolet lamp, characterized in that having a wavelength of 240-270nm, Hand dryer. The method according to claim 2 or 3, The first ultraviolet lamp, Periodically irradiating ultraviolet rays to the outlet tray, Hand dryer. The method according to any one of claims 1 to 3, The ultraviolet lamp, Located at the outside of the outlet tray, characterized in that it comprises a second ultraviolet lamp for irradiating ultraviolet rays to the outer surface of the outlet tray, Hand dryer. The method of claim 5, Further comprising a proximity detection sensor for detecting whether a hand approaching the exit tray, The second ultraviolet lamp, When the approach detection sensor does not detect the approach of the hand for a first set time, it characterized in that for irradiating ultraviolet rays for a second set time, Hand dryer. The method of claim 6, The first set time is characterized in that less than 5 minutes, Hand dryer. The method of claim 6, The second ultraviolet lamp, When the approach detection sensor detects the approach of the hand during the ultraviolet irradiation, characterized in that the irradiation of the ultraviolet light is stopped, Hand dryer. The method of claim 6, The second ultraviolet lamp, Located on the inside of the side wall perpendicular to the exit tray, characterized in that for irradiating ultraviolet rays to the outer surface of the exit tray, Hand dryer. The method according to any one of claims 1 to 3, The outlet tray, Titanium dioxide (TiO ₂ ), zinc oxide (ZnO), cadmium sulfide (CdS), zirconium dioxide (ZrO ₂ ), tin dioxide (SnO ₂ ), vanadium dioxide (V ₂ O ₂ ), tungsten trioxide (WO ₃ ) or titanic acid Characterized in that consisting of a photocatalyst coated metal by any one of the group consisting of strontium (SrTiO ₃ ), Hand dryer. In the method of sterilizing the outlet tray of the hand dryer, (a) detecting the proximity of a hand to the exit tray; And (b) if the approach is not detected during the first set time, irradiating the surface of the exit tray with ultraviolet light for a second set time, How to sterilize the exit tray of the hand dryer. The method of claim 11, Prior to step (a), (c) irradiating ultraviolet rays to the inner surface of the outlet tray, In step (b), Irradiating ultraviolet rays to the outer surface of the outlet tray, How to sterilize the exit tray of the hand dryer. The method of claim 12, After step (b) above, (d) stopping the irradiation of ultraviolet rays to the outer surface of the exit tray when a hand's approach to the exit tray is detected; How to sterilize the exit tray of the hand dryer. 14. The method according to any one of claims 11 to 13, The first set time is characterized in that less than 5 minutes, How to sterilize the exit tray of the hand dryer.

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