TWM605477U - Dossier document sterilization cleaning device - Google Patents

Abstract

A dossier file sterilization and cleaning device for placing at least one dossier file and performing sterilization and cleaning of the dossier file. The dossier file sterilization and cleaning device includes: a base, including a base body and a plurality of channels arranged in parallel to each other The ultraviolet light source of the base body, the light beam emitted by the ultraviolet light source has a main illumination direction away from the direction of the base; and a plurality of refractive elements relatively fixed to the base, each of the refractive elements corresponds to at least one ultraviolet light source, so that the The light beam emitted by the ultraviolet light source is at least partially deflected, and the deflection is inclined at an angle with respect to the main illumination direction; and each of the refractive elements has a main illumination direction that repels the dossier away from the light beam emitted by the ultraviolet light source The spacer.

Description

Dossier file sterilization clean device

An anti-microbial clean, especially a dossier file anti-microbial clean device.

With the development of medical technology, traditional infectious diseases such as smallpox, chickenpox and tuberculosis have all been controlled and almost extinct, replaced by various common viruses or more tenacious bacterial infectious diseases such as influenza and Ami Baricillary dysentery and new mutant viruses such as Ebola virus or new coronavirus, respectively, cause medium-to-large-scale infections on a regular or irregular basis. Even if a virus such as influenza has a vaccine, it will still be taken away every year due to the mutation of the virus. Many lives have caused public health hazards and social unrest.

In recent years, various mutated viruses that harm humans have continuously appeared, such as H5N1, H1N1, and the SARS coronavirus that appeared in 2003. The coronavirus is the most dangerous COVID-19 virus, which has recently swept the world and the epidemic is worsening. Healthy people may be infected with these viruses due to contact with the skin and mucous membranes of the eyes, nose or throat, or inhalation of body fluids or droplets of the infected person, and the virus can survive for a period of time when it leaves the human body and adheres to the surface of an object. In addition, some infected people are infectious even before they have clear symptoms of immune response. Therefore, in the mode of human-to-human transmission, these viruses are not only extremely contagious but also difficult to prevent. According to existing public health treatment methods, it is difficult to completely prevent the above-mentioned spread of infection.

Although for the purpose of environmental protection and greening and resource conservation, current government agencies and private enterprises have gradually introduced electronic paperless operations, but there are still many people who need to be personally involved. Pen-signed application documents and important written documents and official documents will inevitably take paper work, and will use a portfolio to cover these documents, so that they can be submitted to the chief officer or supervisor for approval. During the epidemic period, when everyone touched the circulated portfolios and documents, they became one of the media for the spread of the epidemic, and because the people who came into contact with these documents were all business executives or government officials in important areas, they were forced to quarantine once the infection occurred. Inability to perform duties due to quarantine or hospitalization will result in the delay of important things. Even if the general public or students go to the library to borrow books or check collection materials, they will face the same risk of infection. Such as the spread of official documents in the Presidential Palace of Afghanistan.

In order to avoid the above-mentioned risk of infection, the common practice is to wear disposable gloves and wipe the items to be disinfected with gauze, toilet paper or non-woven cloth, dipped in alcohol or hypochlorous acid water and other disinfectants. This method is not only labor-intensive and unable to handle a large amount of waiting Disinfecting items and producing a large amount of suspected polluted wastes can only be processed by high-temperature incineration, causing air pollution, and controlling transportation and processing also adds to the trouble.

For this reason, as shown in Figure 5, there are quite primitive file and book disinfection cabinets 9 on the market. The structure is similar to the current common household ultraviolet lamp dryers. It has a door 91 and a cabinet 92, inside the cabinet 92 There is an internal space 94 and an ultraviolet lamp 96 on the top. The internal space 94 is divided into a number of interlayers 98 with different heights by a number of porous laminates 97, which are used to place a number of layers collectively called to be sterilized. 99 books, documents or files These objects 99 are respectively placed on the bottom plate 97 of the appropriate interlayer 98 according to their heights, and then the ultraviolet lamp 96 is activated to emit ultraviolet rays to sterilize the objects 99.

However, a detailed analysis of this kind of disinfection cabinet can reveal that even though ultraviolet rays are proven to be effective in killing harmful microorganisms such as bacteria and viruses, this kind of disinfection cabinet can only irradiate the surface of the object 99, and ultraviolet rays cannot penetrate the inside of the file, multi-page documents or Heavy books, especially the top list A single ultraviolet lamp can only illuminate a single document file on the uppermost layer, and cannot penetrate multiple interlayers, sterilizing each layer of documents one by one. Therefore, the disinfected objects 99 still contain dangerous bacteria and viruses. In other words, this kind of disinfection cabinet has almost no real effect except for spiritual comfort.

At this time when the new crown pneumonia virus is attacking humans, causing a wide range of infections and a large number of deaths, the world urgently needs a clean and effective disinfection device to prevent the spread of the epidemic. Therefore, how to achieve file matching through a complete institutional design A disinfection machine that disinfects both inside and outside of multi-page paper objects such as, archives, books, etc., is the purpose of this new model.

One purpose of the present invention is to provide a dossier file sterilization clean device, which can disinfect the inside and outside of the dossier file, effectively provide the anti-microbial effect, and improve the safety of paperwork.

Another object of the present invention is to provide a dossier file sterilization and cleansing device, which does not need to use consumables, so as to save the cost of disinfection operation and improve operation efficiency.

Another object of the present invention is to provide a dossier file sterilization and cleansing device, which will not produce polluting waste during the disinfection process, and avoid environmental problems and safety risks.

To achieve the above objective, the present invention discloses a dossier file sterilization and cleaning device for placing at least one dossier file and performing the anti-microbial cleaning of the dossier file. The dossier file sterilization and cleaning device includes: a base including a base body And a plurality of ultraviolet light sources arranged in parallel with each other on the base body, the light beam emitted by the ultraviolet light source has a main light direction away from the base; and a plurality of refractive elements relatively fixed to the base, each of the refractive elements is at least Corresponding to one of the above-mentioned ultraviolet light sources, so that the light beam emitted by the above-mentioned ultraviolet light source is at least partially deflected, and the deflection is inclined at an angle with respect to the main illumination direction; and each of the above-mentioned refractive elements has the function of repelling the file file away from the above-mentioned ultraviolet Between the main illumination direction of the light beam emitted by the light source Compartment.

In the new model, a plurality of ultraviolet light sources are arranged on the base of the file sterilization and cleaning device, and a refractive element is arranged relative to each ultraviolet light source, and a partition is formed on the refractive element, so that the processed file can be effectively opened , It also makes the light beam emitted by the ultraviolet light source along the main illumination direction not easily blocked by the file file, and then changes the direction of at least a part of the light beam emitted by the ultraviolet light source through the deflection of the refraction element, and guides it to deviate from the main light source. The oblique direction with an angle of the light direction can provide disinfection function to both the outer skin and the inside of the file or document. Furthermore, through the design of the refraction part, the reflected ultraviolet light beam can be changed to a divergent angle, so that the ultraviolet light is scattered and irradiated to various angles; of course, a blower device can also be added to blow the paper pages of the file file, so that all Paper can be disinfected effectively and completely, and the files or documents are thus thoroughly cleaned without producing any infectious waste.

1, 1": Dossier file sterilization clean device

12, 12’, 12”: accommodation space

14, 14’, 14”: Surround the side wall

2, 2’, 2”: base

21: Base body

22: Surround the outer edge

232’: Basic reflection section

234’: divergent reflection section

24: fixed hole

26": opening

3, 3’, 3”: Refraction parts

30’: divergent refraction

31: sheet metal

32: Fixed part

320: plug

33: spacer

34: body part

35’: Metal protrusion

36, 36’: Spacer

4, 4’, 4”: UV light source

5: Dossier

9: Disinfection cabinet

91: Door Piece

92: cabinet

94: internal space

96: UV lamp

97: Shelves

98: mezzanine

99: Object

D: Main light direction

L: beam

θ: Angle

Figure 1 is a three-dimensional schematic diagram of a first preferred embodiment of a new type of file file sterilization and cleaning device.

2 is a schematic top view of the base, the ultraviolet light source and the single refracting element of the embodiment of FIG. 1, illustrating the deflection and tilt of the light beam.

Fig. 3 is a schematic top view of the base and the refraction part of the second preferred embodiment of the new type file sterilization and cleaning device.

Fig. 4 is a schematic front view of a third preferred embodiment of the new type file sterilization and cleaning device, illustrating the structural design of the horizontal arrangement.

Figure 5 is a schematic diagram of the book disinfection cabinet of the prior art in this case.

Regarding the aforementioned and other technical contents, features and effects of this new model, please refer to the following The detailed description of the preferred embodiments with reference to the drawings will be clearly presented; in addition, in each embodiment, the same elements will be indicated by similar reference numerals.

The first preferred embodiment of the new type of file sterilization and cleaning device, please refer to Figures 1 to 2. The file file sterilization and cleaning device 1 includes a base 2 illustrated as a stainless steel substrate; the upper surface of which is provided with multiple rows of ultraviolet light The light-emitting diodes are used as six ultraviolet light sources 4. In this example, only six rows are shown as an example. Because each ultraviolet light-emitting diode has a beam of, for example, a cannonball type, and because the ultraviolet light source 4 is along a piece of The circuit board (not shown) is mounted on the surface. For ease of description, the central optical axis of the emitted light beam L is defined as the main light direction D. Therefore, the main light direction D in this example is perpendicular to the base 2 The surface is projected toward the upper right of the figure.

In this example, multiple sets of refractive elements 3 are provided on the base 2, and only three are shown in the figure. Each group of refractive elements 3 includes a fixing portion 32, a body portion 34 and a spacer portion 36 respectively. In this example, the fixing portion 32 is a plug 320 as an example; the base 2 is also provided with a fixing hole 24 such as a blind hole at a position corresponding to the fixing portion 32, and the refractive element 3 is inserted through the fixing portion 32. Connected to the fixing hole 24 and assembled and fixed on the base 2. Since the main body 34 of the refracting element 3 in this example is formed by bending a stainless steel sheet, the surface becomes a mirror with good reflection ability after polishing. When the light beam L emitted by the ultraviolet light source 4 is irradiated to the mirror surface, the traveling direction of the light beam L is deflected. By folding, the light beam L, which is originally a cannonball-shaped light field, is slightly divergent, and further different inclination angles are generated with the different curvatures of the stainless steel sheet. The ultraviolet light in this case does not need to be polarized. The D direction is not limited to the direction orthogonal to the base 2, as long as the direction away from the base 2 is satisfied, that is, the angle between the beam L and the base 2 is greater than 0 ° and less than 180 ° belong to the scope of the new model.

Since the angles of the light beams after deflection are quite dispersed, the two outer sides of the dossier drawn on the picture are irradiated by the light beams generated by the left and right sets of refracting elements 3, and the inner side is exposed to the center. The light beam deflected by the central refracting element 3 is irradiated, so that both the inner surface and the outer surface of the file 5 can be fully exposed to ultraviolet light to obtain complete disinfection. In order to prevent ultraviolet light from being irradiated to the document processing personnel, in addition to the base 2, the file sterilization cleaning device 1 surrounds the surrounding outer edges 22 of the upper, lower, left and right sides of the base 2, and also connects the surrounding side walls 14 respectively, so that the door leaf The inner five surrounding side walls 14 and the base 2 together form a closed accommodation space 12. Since there is no need to wipe, no consumables are used in the process of disinfecting file 5, which not only saves resources, but also does not require extra aftermath, which is fully in line with the trend of environmental protection.

Since the body of the refracting element in this example is bent from stainless steel sheet 31, the thickness of itself is very thin. Not only is it worried that its structural strength is insufficient and it will be damaged by the dumping of the file, but also that it will cut the operation of putting the file into it. Therefore, a spacer 33 exemplified as a frame is inserted on the outer side of the stainless steel sheet as the spacer 36. On the one hand, it can support and fix the body part 34, and it can also force the file to open at a certain angle at the same time. The paper sheets in the middle part are completely overlapped without light. Especially as those skilled in the art can easily understand, in a closed accommodating space, a blower device such as a fan can also be placed to blow the paper flutter, so that the ultraviolet light can irradiate more different parts, so that The cleaning effect is improved.

The second preferred embodiment of the present invention is shown in FIG. 3, in which the same parts as those in the previous embodiment will not be described again. Similar components are also given similar names and labels, and only the differences are explained. On the inner side of the base 2'on the rear side of the diagram, an ultraviolet light source 4'composed of twenty ultraviolet light emitting diodes is arranged in parallel, and ten refractive elements 3'are arranged in the accommodation space 12'. In this example The refractive elements 3'are all formed of extruded aluminum, so the thickness can be slightly thicker and rigid, and the edges are more dull and safe. To fix the refractive element 3', the surrounding side walls 14' on the top and bottom can be respectively formed with The clamps are used to embed and clamp the refractive element 3'up and down. Five of the refractive parts 3’ are simple flat plates, The other five pieces form a flat basic reflection section 232' from the direction of the substrate, and the basic reflection section 232' gradually increases in thickness along the direction away from the substrate to form a divergent reflection section 234'. For ease of description, This defines the diffractive element 30' from narrow to wide.

Since the length of the divergent refractive element 30' in this example is relatively long, if the file is thick, one of them can be taken out at will, so that the file spans the width of two or even three refractive elements, which will not hinder the implementation of this case. The extractable structure provides more application flexibility. Since the outer surface of the refraction part is polished, the light beam emitted by the ultraviolet light source diverges to illuminate the inner surface of the file or the outer surface of the adjacent file; in addition, in order to avoid overlapping of the paper pages in the file, the ultraviolet light is shielded. The surface of the piece is torn and bent by a punching machine, and a plurality of metal protrusions 35' are formed on the extruded aluminum sheet to serve as spacers 36'. Since the refracting element in this example only needs to be simply extruded from aluminum, and the spacers are stamped and formed, since all the refracting elements and the diverging refracting elements are formed in one piece, it has the advantage of easy processing, which is beneficial to a large number of The manufacturing reduces the cost, and the metal sheet has high strength and is not easy to deform, which is beneficial to long-term use.

The third preferred embodiment of the present invention is shown in FIG. 4, which is specifically designed for thin document paper, so a horizontally arranged refractive element can be used, and its shape is like the first embodiment rotated by ninety degrees. In the case of the dossier file sterilization and cleaning device 1", the containing space 12" is also provided with three parallel-arranged refractive elements 3", and the ultraviolet light source 4" is set on the upright rear base 2", the base 2" is formed with a plurality of openings 26", if the official document belongs to a single sheet or two or three sheets of bound paper, the surrounding side wall 14" corresponding to the base 2" can also be opened from the side, using a conveyor belt (Figure Not shown) The document is clamped between the lateral opening 26” and the corresponding opening to pass through the refractive elements 3”, which does not hinder the implementation of this case. In addition, if there is no opening in the closed housing, it can also be considered in the base A ventilated interlayer is formed between the seat and the surrounding side walls. The internal circulation of air lifts the archive pages in the file to Expose the inner pages to achieve complete disinfection.

To sum up, the present invention is equipped with a refracting part in the file sterilization and cleaning device, which changes the direction of at least part of the ultraviolet light beam emitted by the ultraviolet light source, and combines multiple refracting parts to expand the angular range of ultraviolet light irradiation to reach a wide angle irradiation. The refracting part does not necessarily need to be orthogonal to the direction of the base, as long as it meets the purpose of diverging the light beam emitted by the ultraviolet light source; and is provided with a partition to push the file and the inner pages of the book away from the refracting part The main body allows space for the UV beam to run, so that the UV beam is deflected by the refractive element at a position away from the base after it travels roughly in the main light-emitting direction and diverges for a certain length of light, so that the inside and outside of the file is completely disinfected The purpose of this, and the rigidity and safety design of the structure can prevent the operator from being cut. In particular, the new type of dossier file sterilization and cleaning device does not need to use any consumables and medicines, so there is no problem of infectious waste-derived treatment and air pollution, and the refractive element can be manufactured by various simple and fast manufacturing methods, and the cost can be effectively Management and control have the effect of quickly extinguishing diseases that spread like wildfires.

Of course, the refractive parts in each of the above preferred embodiments can be changed to each other according to the needs of each embodiment, and the placement of the dossier file can be changed in each embodiment as long as it matches the setting of the fan and the ventilation interlayer without affecting the case. Implement.

However, the above are only the preferred embodiments of the present model, and cannot be used to limit the scope of implementation of the present model. All simple equivalent changes and modifications made in accordance with the scope of the patent application for the present model and the content of the model description shall be applied. It still falls within the scope of this new patent.

1: Dossier file sterilization clean device

12: Housing space

14: Surround the sidewall

2: Pedestal

22: Surround the outer edge

24: fixed hole

3: Refraction parts

32: Fixed part

33: spacer

34: body part

36: Spacer

320: plug

4: UV light source

5: Dossier

Claims (7)

A dossier document anti-microbial cleaning device for placing at least one dossier document and performing anti-microbial cleaning on the aforementioned dossier file, the dossier document anti-microbial cleaning device including: A base, including a base body and a plurality of ultraviolet light sources arranged parallel to each other on the base body, the light beam emitted by the ultraviolet light source has a main light direction away from the base; and A plurality of refractive elements are relatively fixed to the base, and each of the refractive elements corresponds to at least one ultraviolet light source, so that the light beam emitted by the ultraviolet light source is at least partially deflected, and the deflection is inclined at an angle relative to the main light direction ; And each of the refractive elements has a partition that repels the dossier away from the main light direction of the light beam emitted by the ultraviolet light source. As described in the first item of the scope of patent application, the anti-microbial cleaning device for file documents, wherein the above-mentioned refractive element includes at least a plurality of divergent refractive elements having a basic reflection section and a divergent reflection section. As described in the first item of the scope of patent application, the file file sterilization cleaning device, wherein the above-mentioned refractive element is a bent metal sheet. As described in item 3 of the scope of patent application, the above-mentioned partition is protruded from the torn and bent metal in the above-mentioned bent metal sheet. As described in item 3 of the scope of patent application, the file file sterilization and cleaning device, wherein the spacer is a spacer inserted on the bent metal sheet. As described in the first item of the scope of patent application, the dossier file sterilization and cleaning device, wherein the base has a surrounding outer edge, and the dossier file sterilization and cleaning device further includes connecting the surrounding outer edge and surrounding the base together A surrounding side wall of the accommodating space. As described in the first item of the scope of patent application, the file sterilization and cleaning device, wherein the base is formed with a plurality of fixing holes, and the fixing parts are plugs corresponding to the fixing holes.

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