FI12997Y1 - Touchscreen and an arrangement for protecting a touchscreen - Google Patents

Abstract

A touch screen (100) comprising a touch screen surface (101) and a housing, characterized in that the touch screen further comprises a strip-like film (102), a film conveyor (103), a film guide arrangement (104) and a cleaning unit (105), and a film guide arrangement is configured to hold the film against or close to the touch screen surface, and the film conveyor is configured to move the film over the touch screen surface between the touch screen operations, and the cleaning unit is inside the housing, and the cleaning unit is configured to clean the film. In addition, protection requirements 2-5.

Description

The invention relates to a touch screen comprising a touch screen surface and a housing. The invention further relates to an arrangement for protecting a touch screen, which touch screen has a touch screen surface.

BACKGROUND OF THE INVENTION Touch screens are devices that transmit information about touch forward. Applications for these include, for example, many counseling and reception devices in public spaces that are operated via a touch screen. The touch screens are used, for example, for information screens for guidance, for sharing number numbers and for vending machines for selections and control. Because touch screens often have to be used with bare fingers, it is possible that microbes can spread between users. Microbes are viruses, bacteria and spores. Touch screens have had to be phased out in hospitals and health centers, for example, as they can be carriers of infections during pandemics. This is understandable, since microbes can live on the surface of the touch screen for up to several days, because the temperature of the screen is favorable for them. It is known that microbial transmission is prevented by membranes that kill microbes. The films are based on material components (e.g. copper) or surface treatment (such as various nanocoatings), but their effect is not good enough. - At their shortest, the exposure time is tens of seconds. For example, in hospital queuing systems, this is not enough. The user also does not know because the exposure time has been long enough. The exposure time varies considerably from manufacturer to manufacturer. When ingredients and coatings are used, they only affect viruses that are. directly in contact with the cleaning surface. In order to maintain the effect of the coatings, they must be cleaned from time to time.

O N It is known in the art to clean touch screens with UVC light. These S are based on a cleaning carriage or cabinet that moves over the screen and is closed for N cleaning. UVC light is harmful to health. Mobile sleds therefore have to use low powers. This power is not sufficient for situations where users change rapidly. In cabinet-type cleaning arrangements, it is possible o to use higher powers. However, this means that the touch screen 2 is not available during cleaning. UVC protection is also done by moving N only the UVC beam over the screen. In order to avoid leakage of radiation, it is necessary to use such small powers that are not sufficient to clean the display from microbes.

Thus, known techniques for cleaning and disinfecting touch screens are either cumbersome and slow to use, or their efficiency is insufficient.

SUMMARY The object of the invention is to provide a solution which can significantly reduce the disadvantages and drawbacks associated with the prior art. In particular, it is an object of the invention to provide an arrangement for efficient cleaning of a touch screen. The objects according to the invention are achieved, which are characterized by what is set forth in the independent claim. Some preferred embodiments of the invention are set out in the dependent claims. When the text refers to above or below or similar directions, a situation is described in which the touch screen according to the invention is in its normal operating position, for example in a public space. In one embodiment of the invention, there is a touch screen comprising a touch screen surface and a housing. In a preferred embodiment of the invention, the touch screen - further comprises a strip = film, film conveyor, film guide arrangement and cleaning unit, and the film guide arrangement is configured to hold the film against or near the touch screen surface, and the film conveyor is configured to move the touch screen over the touch screen. Between the operating events, and the cleaning unit is inside the housing, and the cleaning unit is configured to clean the membrane. This means that a new or cleaned film surface is obtained for each use of the touch screen, and used: the film moves to or towards cleaning. O In one embodiment of the arrangement according to the invention, the film is fastened together at its O 25 ends so as to form a loop which rotates on the touch screen surface 7 and passes through the cleaning unit. This feature simplifies the construction of the touch screen.

I E In another embodiment of the arrangement according to the invention, the cleaning unit comprises UV radiation sources, chemical disinfectants, antibacterial coatings or combinations thereof. This feature allows the use of different types of cleaning methods in different applications.

D

In a third embodiment of the arrangement according to the invention, the touch screen comprises a sensor arrangement for detecting a user, and the film conveyor is configured to move the film when the user leaves or when a new user is detected. In one embodiment of the invention, there is provided an arrangement for protecting a touch screen, the touch screen having a touch screen surface. In a preferred embodiment of the invention, the arrangement comprises a body, a strip-like film, a film conveyor, and a cleaning unit, and the body is configured to be placed on the touch screen so that the film is against or near the touch screen surface. , and the cleaning unit is inside the body and the cleaning unit is configured to clean the film. This makes it possible to use the invention with already installed touch screens. An advantage of the invention is that it can substantially facilitate the disinfection of the touch screen. The invention also has the advantage that it achieves a sufficiently long cleaning time, but is still fast for the user. By means of the invention, a cleaned surface can be provided to the touch screen at all times. The structure of the invention allows the use of different purification mechanisms or combinations thereof. A further advantage of the invention is that the user of the touch screen detects or can be told that the surface of the touch screen is clean and safe.

DESCRIPTION OF THE DRAWINGS The invention will now be described in detail. The description refers to; to the accompanying drawing, in which N. . . IN Fig. 1 - shows an example of an embodiment according to the invention. S 25 N s

DETAILED DESCRIPTION OF THE INVENTION The embodiments in the following description are exemplary only, and one skilled in the art may implement the basic idea of the invention in any manner other than that described in the specification. Although reference may be made in the description to one embodiment or embodiments in several places, this does not mean that the reference is to only one of the described embodiments or that the described feature is useful in only one of the described embodiments. The individual features of the two or more embodiments may be combined to provide new embodiments of the invention. Figure 1 shows an example of a touch screen 100 according to the invention. The touch screen has a touch screen surface 101 and a housing, as well as parts necessary for the operation of the touch screen, such as a power supply and a processing unit. By touch screen here is meant a device having a touch screen surface on which the device can be controlled or which provides a user interface to the device. The housing surrounds the parts of the touch screen so that the touch screen surface is free for contacts. The housing may also provide touch screen support structures for positioning the touch screen at a suitable height and position for users. An example of such an application is the reception equipment of hospitals and health centers, in which the touch screen surface rests on a box-like structure. For the purpose of explaining the invention, the housing has been omitted from the figure, but its location is self-evident. The touch screen 100 further comprises a strip-like film 102, a film conveyor 103, a film guide arrangement 104, a cleaning unit 105 and a control unit 106. The film is a thin transparent material through which the touch screen surface 101 can be used. The film material is selected according to the operating principle of the touch screen so that it interferes with the use of the touch screen as little as possible. The film is arranged to be moved on and over the touch screen surface 101. The basic idea of the invention is to move the film so much after the use of the touch screen that there is a new part of the film on the surface of the touch screen which has not been touched after the previous use. When a sufficient amount of film has been transferred, the transfer py- | retained for a new use event. This substantially reduces the transfer of microbes from one user to another when touching the touch screen surface.

N O The film conveyor 103 comprises at least rollers and means for rotating the rollers. The film K 102 is arranged to run on the rollers so that as the rollers rotate the film moves. The parts of the film conveyor are inside the housing of the touch screen 100. The film conveyor z is controlled by a control unit 106. In this example, the control unit is its own unit, but in some embodiments it can be implemented, either completely or partially, by means of a processing unit controlling the operation of the touch unit. In the example according to the figure, the film conveyor conveys the film over the touch screen surface 101 in the vertical direction, but of course the film can also be conveyed transversely over the touch screen surface, i.e. the film travels in the horizontal direction.

The film guide arrangement 104 comprises structures that hold the film 102 against or close to the touch screen surface 101. In addition, they guide the film during film movement. In some embodiments, at least a portion of the film guide arrangement is implemented by designing the housing of the touch screen 100.

5 - In the embodiment shown in the figure, the strip-like film is attached at its ends, forming a loop and rotating the touch screen surface 101. In some embodiments, the film may be rolled, changing the direction of film movement or rewinding, and then moving it again between operations.

- In one embodiment, the touch detection function of the touch screen surface is turned off when the film is moved, in order to avoid inadvertent contacts caused by the moving film. Touch detection is turned on again when the film is stopped.

The cleaning unit 105 is located inside the housing of the device. In the embodiment of Figure 1, the cleaning unit is behind the touch screen surface 101. The cleaning unit is positioned so that the film 102 passes through or past the cleaning unit so that the cleaning unit is capable of cleaning at least the surface of the film that has been touchable by the user of the touch screen 100. The cleaning unit comprises one or more means for killing microbes. These devices include, for example, UV radiation sources, chemical disinfectants, antibacterial coatings, or various combinations thereof. Due to the structure of the touch screen according to the invention, it is possible to use sufficiently strong UV radiation sources without causing harm to users. Likewise, the structure allows the safe removal of ozone generated by UV irradiation. Cleaning time: 25 - can be influenced by the length of the film and the efficiency of the cleaning unit. With the device according to the invention for cleaning, all cleaning methods can be used for cleaning the transferable film. By selecting a cleaning method or a combination thereof, disinfectants can be targeted to viruses, bacteria or spores. Of course, the device can be adapted to clean the membrane of all the above-mentioned N 30 microbes.

a F In some embodiments, the touch screen 100 comprises a sensor arrangement for detecting user 2, and the film conveyor 103 is configured to move the film 102 when the user exits or when a new user is detected.

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: The invention also has an embodiment with an arrangement for protecting a touch screen. This touch screen has a touch screen surface and a case. The arrangement has a body that can be placed on top of the touch screen housing. The arrangement is thus detached from the touch screen and can be moved between the touch screens. Arrangement frame, strip-like membrane, membrane conveyor and cleaning unit. The arrangement operates similarly to the touch screen 100 in the embodiment of Figure 1, but the film, film conveyor, and cleaning unit are in the body of the arrangement. In some embodiments, the film is on a roll that passes over the touch screen surface and, when the film is finished, changes direction or is wound up. Reversing or rewinding is carried out so that the new user always has a clean film surface on the touch screen surface. In some embodiments, the film is a loop and rotates the entire touch screen. Some preferred embodiments of the invention have been described above. The invention is not limited to the solutions just described, but the inventive idea can be applied - in numerous ways within the limits set by the protection claims.

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Claims (5)

Security requirements A touch screen (100) comprising a touch screen surface (101) and a housing, characterized in that the touch screen further comprises a strip-like film (102), a film conveyor (103), a film guide arrangement (104) and a cleaning unit (105), and a touch screen. - —The belt guide arrangement is configured to hold the film against or close to the touch screen surface, and the film conveyor is configured to move the film over the touch screen surface between touch screen operations, and the cleaning unit is inside the housing and the cleaning unit is configured to clean the film. A touch screen (100) according to claim 1, characterized in that the film (102) is fastened together at its ends so as to form a loop which rotates around the touch screen surface (101) and passes through the cleaning unit (105). Touch screen (100) according to one of Claims 1 or 2, characterized in that the cleaning unit (105) has UV radiation sources, chemical disinfectants, antibacterial coatings or combinations thereof. A touch screen (100) according to any one of claims 1 to 3, characterized in that the touch screen comprises a sensor arrangement for detecting a user, and the film conveyor (103) is configured to move the film (102) when the user leaves or a new user is detected. An arrangement for protecting a touch screen (100) having a touch screen surface (101), characterized in that the arrangement comprises a body, a strip-like film (102), a film conveyor (103), and a cleaning unit (105), and a body. is configured to be placed on the touch screen so that the film is against or close to the touch screen surface, and the film conveyor is configured to move the film over the touch screen between the touch screen operation events, and the cleaning unit is inside the body and the cleaning unit is to clean the membrane. 2 2 S 5