KR20220075925A - Handle automatic sterilizing device and methof thereof - Google Patents

Abstract

An automatic disinfection apparatus of the present invention includes: a first member gripped by a user's hand; a second member having both ends facing both ends of the first member and forming a closed inner space together with the first member; Including, by the ultraviolet LED, it is possible to automatically disinfect the first member.

Description

Handle automatic sterilizing device and method of automatic hand disinfection

The present invention relates to a handle automatic disinfection device and automatic handle disinfection method for automatically sterilizing viruses, etc. using an ultraviolet LED.

In the era of 'with Corona', it has become more important than anything to sterilize daily items such as mobile phones and wallets and the human body such as hands.

Stable and consistent sterilization with only disinfectants or scrubbers is not easy.

Therefore, recently, ultraviolet sterilization, which is known to sterilize 99.9% or more of bacteria or viruses, satisfies this requirement.

In particular, ultraviolet LEDs that emit ultraviolet light, have a long lifespan and are environmentally friendly, are in the spotlight.

The problem to be solved by the present invention is that when using public transportation such as a bus, it is inconvenient and inconsistent with only a disinfectant or a washer. It is to provide an automatic disinfection handle that protects.

An automatic disinfection apparatus of the present invention includes: a first member gripped by a user's hand; a second member having both ends facing both ends of the first member and forming a closed inner space together with the first member; Including, by the ultraviolet LED, it is possible to automatically disinfect the first member.

In the automatic disinfection method of the present invention, a detection sensor for detecting that a hand is gripped is provided on the first member, and a light emitting part for irradiating an ultraviolet LED for sterilizing microorganisms without the hand being gripped by the first member is provided on the second member a detection step of detecting the gripped hand by the detection sensor; a disinfection step of sterilizing the light emitting unit by irradiating an ultraviolet LED for a predetermined time after sensing the hand; a resting step in which the ultraviolet LED is not irradiated from the light emitting unit to the first member after the disinfection; Including, when the hand is gripped while disinfecting the hand, it is possible to stop the irradiation of the UV LED and return to the sensing step of detecting the gripped hand.

The handle of the present invention includes a first member capable of gripping the user's hand; a second member having both ends facing both ends of the first member and connected to the connecting member at a predetermined position; may include

A detection sensor for detecting that the hand is gripped may be provided on the first member.

The second member may be provided with a light emitting unit irradiating an ultraviolet LED for sterilizing microorganisms for a predetermined time when the first member is not held by a hand.

When the user's hand is gripped, the ultraviolet LED may not be irradiated from the light emitting part to the first member by the gripping detection of the detection sensor, and when the gripping of the hand is released, the detection of the grip release of the detection sensor The ultraviolet LED may be irradiated from the light emitting part to the first member.

Looking at the disinfection operation method of the handle of the present invention, the operation step of the handle is a detection step of detecting a hand held by the detection sensor; A disinfection step of irradiating the UV LED for a predetermined time by the light emitting unit immediately after the hand finishes holding the first member; Resting stage in which UV LED is not irradiated after the disinfection stage; may include

The sensing phase may begin again when the hand is gripped by the first member during the rest phase.

If the hand is gripped within a predetermined time of the disinfection step, the light emitting unit may stop irradiating and return to the sensing step. Then, when the hand is released from gripping again, the disinfection stage can be entered.

1 is a perspective view of a handle of the present invention.
Figure 2 is a perspective view of the handle of the present invention.
3 is a perspective view of the handle of the present invention.
Figure 4 is a front view of the handle of the present invention.
5 is a front view of the handle of the present invention.
6 is an explanatory view showing irradiation of a light emitting part of the present invention.
7 is an explanatory diagram showing irradiation of a light emitting part of the present invention.

1 to 3 are perspective views of the handle 100 of the present invention. 1 and 2 are each viewed from a symmetrical direction, and FIG. 3 is a perspective view seen from the upper side.

1 to 3, when a user uses the handle 100 while standing in public transportation such as a bus, the handle 100 is fixed or slidingly connected to the public transportation means (1), A connection member 2 connecting the support rod 1 and the handle 100 may be provided.

The handle 100 of the present invention includes a first member 200 capable of gripping the user's hand; a second member 300 having both ends facing both ends of the first member 200 and connected to the connecting member 2 at a predetermined position; may include

The connection members 2 along the support rods 1 fixed to public transportation means such as buses and subways may be provided at regular intervals. The connecting member 2 may be shaken back and forth during deceleration and acceleration of the means of transportation due to its characteristics, and may be made of a material with good elasticity.

A connection hole 320 capable of fixing the connection member 2 and the second member 300 may be provided in the second member 300 . The connection hole 320 may be sufficient if the connection member 2 and the handle 100 are connected to each other. The connection hole 320 may be provided in the center of the second member 300 to pass through the external space.

The space surrounding the handle 100 is the inner space, the surface of the handle 100 facing the inner space is the inner surface, the space not surrounded by the handle 100 is the outer space, and the handle 100 is facing the outer space One side can be defined as the outer side.

When the user grips the hand, a detection sensor 220 for detecting the grip may be provided. The detection sensor 220 may be provided on the first member 200 . The detection sensor 220 may be provided on the inner surface of the first member 200 to sense toward the inside of the first member 200 . Since the detection sensor 220 may contact only a portion of the first member 200 with the gripped hand, at regular intervals along the longitudinal direction of the first member 200 over the entire inner surface of the first member 200 . can be provided. The detection sensor 220 may be a contact type or a laser irradiation type.

The first member 200 may have various shapes of straight lines or curves to make it easier to grip the hand.

Both ends of the second member 300 may face both ends of the first member 200 .

A user may place a hand into the interior space for gripping.

Accordingly, the first member 200 and the second member 300 may be provided in any shape sufficient for a user to put their hand into the inner space.

As an embodiment, in the second member 300 of FIG. 5 , both ends of the second member 300 connected to both ends of the first member 200 are connected to each other at a predetermined angle, and the connecting member 2 and A central portion of the connected second member 300 may be provided parallel to the first member 200 .

As an example, the second member 300 of FIG. 6 may be provided in the form of a semicircle.

A light emitting part 310 through which an ultraviolet LED can be irradiated to the first member 200 may be provided on an inner surface of the second member 300 .

The light emitting unit 310 may have any arrangement as long as it can irradiate all inner surfaces of the first member 200 .

An ultraviolet LED device that enables the light emitting unit 310 to irradiate the ultraviolet LED to the first member 200 may be provided inside the second member 300 .

Referring to FIG. 3 , a power supply groove 330 may be provided on an outer surface of the second member 300 .

Ultraviolet LED devices can be rechargeable or externally powered. In the case of the charging method, the UV LED device may be charged using an internal battery or by using an RF (Radio Frequency) wireless method.

When power is supplied from the outside, the external electric wire 3 may be connected to the inside of the second member 300 through the power supply groove 330 of the second member 300 .

6 and 7 may be referred to for an efficient arrangement of the light emitting unit 310 for irradiating the entire inner surface of the first member 200 .

The ultraviolet LED irradiated from the light emitting unit 310 may have a predetermined area that can be effectively disinfected.

A virtual tangent line may be defined at each position of the light emitting unit 310 along the inner surface of the second member 300 on which the light emitting unit 310 is provided. An imaginary vertical line perpendicular to the tangent line may be defined. The angle from the vertical line to the maximum range to which the UV LED is effectively irradiated may be defined as the emission angle θ. Therefore, the effective disinfection angle irradiated from one light emitting unit 310 may be twice (2θ) of the light emission angle (θ).

It may be efficient to install the light emitting unit 310 on the inner surface of the second member 300 facing the first member 200 . In order to connect the inner surface of the second member 300 facing the first member 200 among the inner surfaces of the second member 300 to the first member 200 at both ends of the first surface and the first surface An inner surface of the provided second member 300 may be defined as a second surface.

All of the inner surface of the first member 200 may be irradiated with an ultraviolet LED emitted from one light emitting unit 310 located on the first surface. However, if the inner surfaces of all the first members 200 are not irradiated with the irradiation range of the ultraviolet LED emitted from one light emitting unit 310 , a plurality of light emitting units 310 may be provided on the first surface. As shown in FIG. 5 , if the irradiation range irradiated from both ends of the plurality of light emitting units 310 irradiates the entire first member 200 , it may not be necessary to install the additional light emitting units 310 on the second surface.

An angle between the first surface and the second surface may be defined as a face-to-face angle φ. The shape of the second member 300 may vary, and the first surface and the second surface may be straight or curved. In the case of a curve, an angle may be defined based on a virtual tangent line in each light emitting unit 310 .

Referring to FIG. 6 , the light emission angle θ and the facing angle φ may be the same. In this case, the entire first member 200 may be irradiated with the light emitting part 310 located on the first surface.

FIG. 7A may be a case in which the emission angle θ and the facing angle φ are the same as in FIG. 6 .

7(b) may be a case in which the emission angle θ is greater than the facing angle φ. When the emission angle θ is greater than the facing angle φ, the first member 200 may be irradiated as in the case where the angle is the same.

7(c) may be a case in which the emission angle θ is smaller than the facing angle φ. When the light emitting angle θ is smaller than the facing angle φ, an unsterilized area that is not sufficiently irradiated with only the light emitting part 310 of the first surface may be formed in the first member 200 . Accordingly, in this case, the entire first member 200 may be irradiated with the UV LED by additionally installing the light emitting unit 310 on the second surface adjacent to the non-sterilized area.

More light emitting units 310 may be required in the case where the first surface protrudes from the inner space to the outer space than when the first surface facing the first member 200 protrudes into the inner space. have.

Looking at the disinfection operation method of the handle 100 of the present invention, the operation step of the handle 100 is a detection step of detecting the hand the detection sensor 220 is gripped; Disinfection step in which the light emitting unit 310 irradiates the UV LED for a predetermined time immediately after the hand finishes gripping the first member 200; Resting stage in which UV LED is not irradiated after the disinfection stage; may include

In the detection step, when the detection sensor 220 detects a hand gripped through the inner surface of the first member 200 , the light emitting unit 310 may not irradiate ultraviolet rays.

When the grip of the hand by the first member 200 is released, the disinfection step may start. In the disinfection step, the ultraviolet LED may be irradiated to the first member 200 through the light emitting unit 310 for a predetermined time. Most microorganisms can be killed by over 90% when exposed to UV light for 1 minute. The predetermined time may be 1 minute and 30 seconds. The predetermined time may be equal to the total time of the disinfection step.

If the first member 200 is not gripped for the predetermined time, the resting step may be started after the predetermined time of the disinfection step is over. In the resting stage, the UV LED may not be irradiated from the light emitting unit 310 , and when the hand is held by the first member 200 during the resting stage, the sensing stage may be restarted.

When the hand is gripped within a predetermined time of the disinfection step, the light emitting unit 310 may stop irradiation. In other words, it is possible to return to the detection stage. Then, when the hand is released from gripping again, the disinfection stage can be entered.

In order to proceed with each of the above steps, a control circuit diagram capable of controlling each element such as the detection sensor 220 and the ultraviolet LED element may be further provided inside the handle 100 .

1. Support bar
2... connecting member 3... external electric wire
100... handle 200... first member
220... detection sensor 300... second member
310... Light emitting part 320... Connection hole
330... power home
θ... Emission angle φ... Face-to-face angle

Claims (7)

a first member gripped by the user's hand;
a second member having both ends facing both ends of the first member and forming a closed inner space together with the first member; including,
An automatic disinfection device for automatically disinfecting the first member by an ultraviolet LED.
According to claim 1,
When a portion of the first member and the second member facing the inner space is defined as an inner surface,
A detection sensor for detecting that a hand is gripped is provided on the inner surface of the first member,
On the inner surface of the second member, a light emitting part for irradiating an ultraviolet LED to sterilize microorganisms for a predetermined time when the hand is not held by the first member is provided,
The light emitting part is provided in plurality,
When the user's hand is gripped, the ultraviolet LED is not irradiated from the light emitting part to the first member by the grip detection of the detection sensor,
When the grip of the hand is released, the UV LED is irradiated from the light emitting unit to the first member by the detection of the release of the grip by the detection sensor.
According to claim 1,
A support rod to which the second member is fixed or slidably connected and a connection member for connecting the support rod and the second member are provided;
The second member is provided with a connection hole for fixing the connection member and the second member to the automatic disinfection device.
According to claim 1,
The second member is provided with an ultraviolet LED element for generating the ultraviolet LED,
The ultraviolet LED device is rechargeable,
The charging is performed using an internal battery installed inside the first member or the second member, or an automatic disinfection device in which power is supplied to the internal battery in a wireless manner from the outside of the first member or the second member.
According to claim 1,
The second member is provided with an ultraviolet LED element for generating the ultraviolet LED,
The ultraviolet LED element receives power from the outside,
A power supply groove for supplying power to the ultraviolet LED element is provided in the second member,
An external electric wire is connected to the inside of the second member through the power supply groove to suffice the UV LED device.
According to claim 1,
When a portion of the first member and the second member facing the internal space is defined as an inner surface, the inner surface of the second member contains microorganisms for a predetermined time during which the hand is not gripped by the first member. A light emitting unit that irradiates UV LED to disinfect is provided.
An imaginary tangent line and an imaginary vertical line perpendicular to the tangent are defined for each position of the light emitting part along the inner surface of the second member provided with the light emitting part, and the maximum angle at which the UV LED is irradiated from the vertical line is defined as a light emitting angle and an inner surface of the second member facing the first member among the inner surfaces of the second member, the inner surface of the second member provided to be connected to the first member at both ends of the first surface If the side surface is defined as the second surface, and the angle between the first surface and the second surface is defined as the facing angle,
When the light emitting angle is greater than or equal to the facing angle, the entire inner surface of the first member is irradiated with an ultraviolet LED by the light emitting part provided on the first surface,
When the light emitting angle is smaller than the face-to-face angle, the automatic disinfection apparatus is provided with the light emitting part in addition to the light emitting part on the second surface in addition to the light emitting part on the first surface.
When a detection sensor for detecting that a hand is gripped is provided on the first member and a light emitting part for irradiating an ultraviolet LED for sterilizing microorganisms without gripping the hand on the first member is provided on the second member, the detection sensor is gripped A detection step of detecting the old hand;
a disinfection step of sterilizing the light emitting unit by irradiating an ultraviolet LED for a predetermined time after sensing the hand;
a resting step in which the ultraviolet LED is not irradiated from the light emitting part to the first member after the disinfection; including,
If the hand is gripped while disinfecting the hand, the automatic disinfection method returns to the sensing step of stopping the irradiation of the UV LED and detecting the gripped hand.

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