JP2021526905A - Devices with self-sterilizing surfaces - Google Patents

Abstract

Provided herein are self-sufficient self-disinfecting devices that automatically disinfect the surface of the device using internally generated UV (ultraviolet) light. The device can be a door handle, a push plate, an optical switch, a shopping cart, or the like. The device comprises a UV-transparent or translucent article and an optically connected UV light source. The door handle comprises a push handle, a pull handle, a push plate, a rotary door lever, or a rotary knob.

Description

Described herein is a device comprising a UV-transparent or translucent article and at least one optically connected UV light source. The UV light source acts to automatically disinfect the surface of the article by transmitting UV light or radiation through the surface of the article.

(Detailed explanation)
As used herein, an "article" comprises a human contact surface that can be at least partially made from UVC-translucent material or UVC-transparent material. Such surfaces include means for opening doors, means for opening drawers, means for power switching, optical switching, handrails / hold rails, push bars, and keypad or touch screen means, top plates, and toilet seats. Not limited to. Other "articles" may include, but are not limited to, subway / bus hold bars, stair fences, balcony fences, point-of-sales consoles, remote controls, and keyboards.

The way to open the door is
-Push handle (vertical or horizontal) -Pull handle (vertical or horizontal) -Push plate (of all types) -Rotary door lever-Rotary knob-Push buttons, but not limited to ..

The means to open the drawer is
-Surface-mounted pull handle (vertical or horizontal) -Surface-mounted knob-Concave pull handle-Spring-driven push plate, but not limited to.

Power switch means
・ Toggle switch ・ Rocker switch ・ Push button is provided, but not limited to these.

Optical switch means
・ Toggle switch ・ Rocker switch ・ Push button is provided, but not limited to these.

(A brief description of the drawing)
FIG. 1 illustrates an example of a door handle device as described herein. The device includes a UV-transmissible handle that can be attached to the door via a handle mounting bracket and mounting plate. Brackets and plates can be constructed of UV opaque material. The UV light in this device is provided by two UV emitting LEDs (“UVED” or “UV LED”) powered by a battery.

FIG. 2 illustrates a second alternative door handle embodiment that includes battery power supply and use-operated disinfection.

FIG. 3 illustrates a door push plate with pressure actuated disinfection.

FIG. 4 shows an embodiment of a self-disinfecting optical switch.

FIG. 5 shows a self-sterilizing handle.

The articles described herein comprise a material that is at least translucent in at least a portion of the spectrum of UV light emitted by at least one optically connected UV light source. In an alternative embodiment, the material is transparent to UV light. UV transparent or translucent materials suitable for use in the articles described herein are:
-Acrylic-Plexiglass-Glass-Fiber glass-Polyethylene terephthalate (PET) or other thermoplastics-Quarter glass-Fused silica-Cyclic olefin copolymer (COC) or other advanced polymers, but not limited to ..

Those skilled in the art will appreciate that the choice of material affects the extent or magnitude at which the article transmits UV light, as well as the frequency at which the article transmits UV light.

The article may further comprise a UV-opaque material that provides the article with structural rigidity or other desired features. For example, the door handle may include a metal core capable of transmitting UV light on the surface of the article as well as a UV-transparent or translucent outer cover. The UV-opaque material may include metal, ceramic, carbon fiber, plastic, or other material.

In examples where the article or its surface is elongated or irregularly shaped, the waveguide properties of the UV-transparent / translucent material provide sufficient UV light for surface disinfection on all parts of the surface of the article. It can perform the function of being transparent.

The devices described herein also include at least one UV light source that emits light of a wavelength within the ultraviolet spectrum. Suitable wavelengths of UV light for use in the articles described herein are from about 100 to about 400 nm. A narrower UV spectrum may be employed, such as those limited to the UV-C band (about 100 to about 280 nm), about 200 to about 230 nm, or about 250 to about 260 nm, and the like. In one embodiment, the UV light spectrum comprises 254 nm.

Those skilled in the art will also understand that there are trade-offs in the choice of UV wavelength or spectrum, and that some choices may be more suitable for a particular application or article than others. For example, a spectrum of 254 nm or about 254 nm is widely believed to be most effective for actual disinfection, while shorter wavelengths (eg, about 200 nm to about 230 nm) are shorter skins of this wavelength of UV radiation. Due to the depth of, it can still disinfect human skin or contact and be safer to these. Other wavelengths and spectra (eg, from about 100 nm to about 200 nm) can still be disinfected, but it is also possible to produce ozone in contact with oxygen through a process known as photolysis, if possible. Depending on their application environment, this selection of wavelengths or spectra may be less desirable for a particular article.

Any light source that emits UV light of the desired wavelength and intensity can be employed in the devices described herein. Suitable light sources include, but are not limited to, incandescent bulbs, fluorescent bulbs, halogen bulbs, xenon bulbs, mercury vapor lamps, light emitting diodes (LEDs), and lasers, or other coherent light sources.

The UV light source can be externally powered or can be equipped with a power source. Proper power supply
-Batteries (of all types, including rechargeable) -Inductively coupled power supplies (including "Wi-Tricity") -Dynamic generated power-Including solar or photovoltaic power , Not limited to these.

The device may also be equipped with a visible power indicator light. Such a visible power indicator light may be configured to indicate that the device is functioning properly.

The UV light source operates with a duty cycle sufficient to disinfect the surface of the article. The proper duty cycle is
・ 100% with continuous power
• Time pulse for less than 100% power duty cycle • Use or behavior actuated pulse for less than 100% power duty cycle • Controlled for less than 100% power duty cycle (eg, based on day / hour or usage history) Includes, but is not limited to, algorithms.

One embodiment of the device described herein is shown in FIG. FIG. 1 is a schematic view showing a handle 101 made of a UV-transparent material. The handle 101 may be attached to a door, drawer, or any other article that opens when the user grips and pulls the handle. The handle 101 may be attached to a door, drawer, etc. by one or more handle mounting brackets 103, either directly or via a mounting plate 102. The handle 101 can be straight and cylindrical as shown, or can have any other convenient shape, and can be curved or bent if desired. In the embodiment shown in FIG. 1, the handle 101 includes two ends 104. The UV-light source 105 may be installed at each end 104 or at both ends. Each UV-light source 105 is driven by a driver circuit 106 and powered by one or more batteries 107. The battery can be accessed via the battery retainer 108 for removal and / or replacement.

A second embodiment of the device described herein is shown in FIG. FIG. 2 is a schematic view showing a cross section of a handle mechanism typically attached to a door. The device can be mounted directly on a door that is all contained within the enclosure or has a suitable hollow space to enclose the elements of the device or is created. In FIG. 2, one handle 210 of the door is movable, while the other handle 211 of the door is fixed. Depending on the user's request, two movable handles 210 or two fixed handles 211 may be used together. FIG. 2A shows a handle bent at 90 degrees, but the handle as described herein can be any desired shape that allows the user to operate the handle mechanism. At least one movable handle 210 and a fixed handle 211 should be made of at least UV-translucent material. The handles 210 and / or 211 may be connected via a connecting member 220. In one embodiment, the connecting member 220 may be in the form of a spline gear as shown in FIG. 2, which may be operably connected to a conventional door latch mechanism either directly or via the door latch connecting means 230. ..

The handles 210 and / or 211 may include one or more UV-light sources (s) 240. The UV-light source (s) are connected to the power supply 250. The power supply 250 can be a removable battery pack, a fixed stationary battery holder, or any other DC self-sufficient source that is in close proximity to the door handle and can be part of the device. Alternatively, the power supply 250 can be an alternating current source that is part of the wiring of the building, in which case a converter that converts alternating current to direct current may be required.

In the case of the fixed handle 211, the UV-light source 240 may be connected to the power source 250 via wire 241. In the case of the movable handle 210, the UV-light source 240 is connected to the power source 250 via any suitable connecting means that allows the handle 210 to move while maintaining an electrical connection between the UV-light source 240 and the power source 250. Can be operably connected. An example of such a connecting means shown in FIG. 2A includes a wire 242 that connects the UV-light source 240 to the power transfer post 243. The power transfer post 243 comes into contact with the power contact surface 244 operably connected to the power source 250 via the second wire 245.

In embodiments that include spline gears, wires 241 and 245 are inserted through an on-off contact 222 and an opening 221 that provides access to a power splitter having a contact switch 223, as shown inserted in FIG. Can be connected to the power supply 250. This on-off contact 223 can be used to initiate a power duty cycle or disinfection sequence.

If the UV-light source (s) 240 is a light emitting diode (“LED”), the device may also include one or more LED drivers 251. In the embodiment shown in FIG. 2A, a single LED driver is integrated within the power supply 250, which is the removable battery pack in this figure. Alternatively, the LED driver may be located at any convenient location within the device that provides electrical contact between the LED and the power supply.

A third embodiment of the device described herein is shown in FIG. This embodiment is a schematic representation of a plate 31, which can be attached to a door and operates when the plate 31 is pushed to open the door. The plate 31 shown in FIG. 3 has a substantially rectangular shape, but the plate 31 can be formed in any desired shape. The plate 31 is made of UV-transparent material and can be of any suitable thickness.

In the embodiment shown in FIG. 3, the plate 310 is mounted on the housing 320 via a mounting tab 330. In the non-activated state, the plate 310 is mounted in the housing 320 in any suitable manner, whereby when the plate 310 is pushed by the user, the switch means is activated to energize one or more UV light sources 340. The result is that the plate 310 is internally irradiated with UV light. The switching means may include one or more springs 350 and one or more electric switches 360. In the resting state, the spring (s) 350 holds the plate 310 at a functional distance from the housing 320, which causes the switch (s) 360 to be electrically opened. When the plate 310 is pressed by the user, the spring (s) 350 contracts, the plate 310 contacts the switch (s) 360 and electrically closes the switch. FIG. 3 shows an embodiment including four coil springs 350 and two switches 360. It will be effortlessly recognized that the number and configuration of springs 350 and switches 360 can be easily changed on demand. FIG. 3 shows four installation tabs 330, but any number of tabs, or other means, switch (s) when they provide a secure installation of the plate and the plate 310 is pressed. It can be used to mount the plate 310 on the housing 320 as long as the 360 can be activated.

The embodiment shown in FIG. 3 also includes power self-sufficiency by battery 370. In the embodiment shown in FIG. 3, six UV-Emitting LEDs 340 are shown, according to which the power supply also includes an LED driver 380. The LED driver 380 does not need to be positioned as shown, but can be installed in any position that provides conductivity between the power supply and the UV light source. The embodiment shown in FIG. 3 includes a battery as described above, but the UV light source (s) can be powered through an alternating current source that is part of the wiring of the building, in which case alternating current. A converter that converts to direct current may be required.

The embodiment shown in FIG. 3 is attached to the lower surface via an installation screw 321. However, any suitable means for firmly mounting the device on the underlying surface, including adhesive means such as bolts or nails, as well as glue, epoxy, or tape, can be used, and as an alternative, the device is self-sufficient. When including, the device can be detachably mounted on the underlying surface using, for example, removable adhesive, Velcro®, or other similar means.

A further embodiment is shown in FIG. This embodiment is a switch 400, which can be an optical switch. The switch 400 includes a plate 410 for activating and stopping the switch and a housing 420 in which the circuit 430 is enclosed. Plate 410 is made of UV-transparent material. When the switch 400 is activated by the user, one or more UV-light sources 450 are energized. Power to energize the UV-light source (s) 450 is typically drawn from the switched circuit via at least one wire 440. The UV light may continue to be energized when the switch 400 is in the "on" position, and as an alternative, the circuit 430 may also include a timer that shuts off the UV light source (s) after a desired period of time. If desired, the timer can be preset or adjusted by the end user. For improved safety, it is desirable that the switched circuit, at the time of operation, first stop for a predetermined length of time, then operate the disinfection cycle, and then stop or give no energy. Can be done.

The embodiment shown in FIG. 5 is a self-sterilizing handle 510 for a shopping cart. The handle 510 is made from a UV-transparent material (s). As shown in FIG. 5, the handle 510 may integrate one or more UV light sources 550. In one embodiment, the UV light source (s) can be an LED. The cart includes wheels 520. The cart may also include a power supply 530 that may include at least one battery. One or more of the wheels 520 may be attached to the power source 530 via a power generation unit that charges at least one battery when the cart is pushed and the wheels 520 rotate. Alternatively, the cart is an external battery, either through a cord and plug, or through electrical contact that allows the battery to be charged when the cart is placed in a docking station or other receptacle. Means for attaching the cart to the charging means may be provided, or the cart may simply use replaceable battery power. When the UV light source is an LED, one or more of the one or more power sources (s) 530 may also integrate the LED driver 540. More than one LED driver 540 may be required, depending on the number of LEDs used and whether the power supplies (s) are routed in series or in parallel. The power supply 530 also includes means for detecting when the cart is moving, such as an accelerometer or equivalent circuit, and a timer that operates the UV light source (s) 550 over a predetermined length of time. obtain. The timer may operate the UV light source (s) 550 for a period of time when the power supply 52 stops sensing any movement from the wheels 520. Alternatively, when the timing system senses initial behavior from the wheels 520, the timing system is activated. In the embodiment shown in FIG. 5, the handle 510 includes LEDs facing each other at each end of the handle. This particular embodiment also includes one additional LED at each end of the handle that is turned 90 degrees, each pointing in a direction that is turned 90 degrees. This configuration is merely exemplary and, if desired and required, one of ordinary skill in the art will be able to use it at different locations within the handle and around the area of the car to cover any surface affected by contamination. It is possible to position a UV light source.

Claims (23)

A device comprising a UV-transparent or translucent article and an optically connected UV light source. The device of claim 1, further comprising a door opening means, a drawer opening means, a power switching means, an optical switching means, a keypad or touch screen means, a hold rail or handrail means, or a push bar means. The device of claim 2, wherein the means for opening the door comprises a push handle, a pull handle, a push plate, a rotary door lever, or a rotary knob. The device of claim 2, wherein the means for opening the drawer comprises a surface-mounted pull handle, a surface-mounted knob, a concave pull handle, or a spring-loaded push plate. The device of claim 2, wherein the power switch means comprises a toggle switch, a rocker switch, or a push button. The device of claim 2, wherein the optical switch means comprises a toggle switch, a rocker switch, or a push button. The device of claim 1, wherein the article is transparent or translucent to UV light. The article comprises a UV-transparent or translucent material selected from the group consisting of acrylic, plexiglass, glass, fiberglass, and PET or other thermoplastics, quartz glass, fused silica, COC or other highly polymerized materials. , The device of claim 7. The device of claim 1, wherein the UV light source emits a spectrum of light having a wavelength of about 100 to about 400 nm. The device of claim 9, wherein the UV light source emits a spectrum of light having a light wavelength within the UV-C band. The device of claim 10, wherein the UV light source emits a spectrum of light having a light wavelength of about 250 to about 260 nm. The device of claim 11, wherein the UV light source emits UV light comprising light having a wavelength of about 254 nm. The device of claim 10, wherein the UV light source emits a spectrum of light having a light wavelength of about 200 to about 230 nm. The device of claim 1, wherein the UV light source comprises an incandescent bulb, a fluorescent bulb, a halogen bulb, a xenon bulb, a mercury vapor lamp, a light emitting diode (LED), or a laser or other coherent light source. The device of claim 1, wherein the light source is connected to a power source. The device of claim 15, wherein the power source comprises a battery. 15. The device of claim 15, wherein the power source comprises an inductive power source, a kinetic generator, an inductive power source, or a solar or optical power source. The device of claim 1, further comprising a visible power indicator light. The device according to claim 1, wherein the UV power source operates continuously. The device according to claim 1, wherein the UV light source emits a time pulse of UV light. The device of claim 1, wherein the UV light source is behaviorally actuated, used actuated, or actuated by learning or other determinant algorithms. A device that integrates, utilizes, uses, or applies methods of disinfecting the surface of an object, wherein at least a portion of the object, including the surface, is made from a UV light transmissive (translucent or transparent) material. The UV light source (s) is integrated near, inside, below, or inside the object, and UV light is continuous from near, inside, below, or inside to the surface so as to disinfect the surface. Or a device that is granted on a regular basis. The device of claim 1, further comprising a UV light switch configured to actuate UV light, the operation of the door opening means also actuating the UV light.

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