KR200425924Y1 - Nano-silver sputtered coating sheet - Google Patents

Abstract

The present invention relates to an adhesive sheet having a nano-silver coating, wherein the upper surface of the thin film flexible sheet is formed by forming a coating surface of the nano-silver sputtering coating, and the adhesive surface is formed on the lower surface of the thin film flexible sheet. It is an object of the present invention to provide an adhesive sheet made of a nano silver coating to increase hygiene and cleanliness by attaching the adhesive sheet to a handle of a cart, a cradle of a telephone receiver, and sterilization and sterilization using silver ions.

The present invention is composed of a thin sheet flexible sheet made of silicon sheet or PET, PP, PE, PVC transparent synthetic resin, etc., forming a coating surface consisting of nano silver sputtering coating on the upper surface of the thin film flexible sheet, By forming an adhesive surface, the adhesive sheet is attached to the upper surface of the mouse pad, the handle of the shopping cart, the computer keyboard skin, the phone handset holder, and sterilization and sterilization using silver ions.

When the present invention is applied, silver ions on the coated surface that adheres closely to the body by performing nanosilver sputtering coating on the upper surface of the sheet attached to the upper surface of a computer keyboard skin, a mouse pad, a shopping cart handle, a telephone receiver holder, or the like. The sterilization effect using particles allows the initial sterilization to be maintained.

Description

Adhesive Sheet with Nano Silver Coating {NANO-SILVER SPUTTERED COATING SHEET}

1a, 1b, 1c is a view showing a living bacteria generation place according to a conventional embodiment,

2 is a perspective view showing an adhesive sheet made of a nano-silver coating according to an embodiment of the present invention,

3 is a perspective view showing a state in which the adhesive sheet consisting of a nano-silver coating according to an embodiment of the present invention is attached to the handle of the shopping cart,

Figure 4 is a perspective view showing a state in which the adhesive sheet consisting of a nano-silver coating according to an embodiment of the present invention is attached to the phone handset holder;

5 is a view showing another application state of the adhesive sheet made of a nano-silver coating according to an embodiment of the present invention,

6 is a view for performing a nano silver sputtering coating the adhesive sheet made of a nano-silver coating according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

2: mouse, 4: mousepad,

6: shopping cart, 8: shopping cart housing,

10: a handle, 24: a pedestal stand,

26: hydration stand,

30: adhesive sheet consisting of nano silver coating,

32: thin film flexible sheet, 34: fine projection,

36: coated surface, 38: adhesive surface,

40: keyboard, 42: the upper side than the key,

44: Keyboard skin.

The present invention relates to an adhesive sheet having a nano-silver coating, and more specifically, to form a coating surface of nano-silver sputtering coating on the upper surface of the thin film flexible sheet, and to form an adhesive surface on the lower surface of the thin film flexible sheet. The present invention relates to an adhesive sheet having a nano-silver coating to increase hygiene and cleanliness by attaching the adhesive sheet to an upper surface, a handle of a shopping cart, a cradle of a telephone handset, and performing sterilization and sterilization using silver ions.

As is well known, sterilization or sterilization is very important for an object that the user's body is in contact with while being fully exposed to bacteria in the living article. For example, FIG. 1A illustrates a mouse pad 4 having a rough surface so that the internal ball of the mouse 2 moves well while being laid under the mouse 2. It has been in contact for a long time, so it is an environment where many bacteria grow and live. Therefore, according to a recent research report, the research results that the contamination of the mouse pad 4 is larger than that of the toilet seat are reported. Computer keyboard skins also exhibit high levels of contamination, like mouse pads.

However, since there are almost no users who use the mouse pad 4 to sterilize or disinfect it, there is a problem in that bacteria of the mouse pad 4 are introduced into the body to cause disease.

In addition, Figure 1a shows a shopping cart (6) used by a number of customers for transporting goods in a hypermarket or department store, such a shopping cart (6) is a shopping cart housing (8) and wheels for receiving goods Consists of, the upper end of the shopping cart housing 8 is provided with a handle 10 for pushing or transporting the customer while holding the shopping card (6).

The shopping cart 6 is a good environment for a large number of bacteria to multiply and inhabit like a mouse pad because many customers hold the handle 10 by hand several times, hundreds of times a day.

However, the handle 10 of the shopping cart 6 is difficult to sterilize in relation to time because the customer uses it all the time at the store opening time, but the bulk of the shopping cart 6 is inserted into the sterilization apparatus. Sterilization was nearly impossible. Thus, many customers are at risk of bacteria.

1C shows the telephone 12. The telephone 12 generally includes a main body 14 and a handset unit 16 connected to a cable from the main body 14 to perform a handset function. The talk part 18 and the sign language part 20 which are performed are comprised,

The cradle 22 for mounting the handset 16 is configured on one side of the main body 14, the cradle 22 is a cradle 24 for fixing while holding the receiver 18 and the receiver 20, respectively. (26) is formed, and the hook switch 28 is comprised in the receiving part holder 26.

In the case of the phone 12 is also in close contact with the user's body frequently is a good environment for the growth of a large number of bacteria, but it is very difficult to wash each of the phone's handset, handset, and cradle, especially the phone is an electronic product, There was a problem that the possibility of causing a failure if the made wash water is introduced into the inside.

The present invention was made in view of the above-described prior art, and the upper surface of the mouse pad is formed by forming a coating surface on which the nano-silver sputtering coating is formed on the upper surface of the thin film flexible sheet, and forming an adhesive surface on the lower surface of the thin film flexible sheet. It is an object of the present invention to provide an adhesive sheet made of a nano silver coating to increase hygiene and cleanliness by attaching the adhesive sheet to a handle of a shopping cart, a cradle of a telephone handset, and performing sterilization and sterilization using silver ions.

In order to achieve the above object, according to a preferred embodiment of the present invention is a thin sheet flexible sheet consisting of a silicon sheet or PET, PP, a transparent synthetic resin, etc., the coating made of a nano silver sputtering coating on the upper surface of the thin flexible sheet Forming a surface, and attaching the adhesive sheet to the upper surface of the mouse pad, the handle of the shopping cart, the computer keyboard skin, the phone handset holder, by forming an adhesive surface on the lower surface of the thin film flexible sheet, and sterilizing using silver ions. Provided is an adhesive sheet made of nano-silver coating, characterized in that sterilization is made.

Preferably, the upper surface of the coating surface is provided with an adhesive sheet made of a nano-silver coating, characterized in that a plurality of fine projections are formed to be used for the purpose of the mouse pad and handle.

Preferably, the thin film flexible sheet introduces argon gas under a vacuum degree of about 10 to 10 Torr until the vacuum chamber pressure reaches 100 Torr, and applies a negative voltage of -500 to -5000 V to the silver nanoparticles as a target material to perform glow discharge. The cations of the argon gas generated by the glow discharge collide with the surface of the silver nanoparticles, the target material charged to the cathode, and the silver nanoparticles are released in the form of a vapor atom by the collision of the silver nanoparticles with the argon gas. On the surface of the thin film flexible sheet is provided an adhesive sheet made of a nano-silver coating, characterized in that the silver nano coating is made in the plasma region of the vapor phase.

Hereinafter, the present invention will be described in detail with reference to the drawings.

Figure 2 is a perspective view showing an adhesive sheet made of a nano-silver coating according to an embodiment of the present invention, Figure 3 is a bonding sheet made of a nano-silver coating according to an embodiment of the present invention is attached to the handle of the shopping cart 4 is a perspective view illustrating a state in which an adhesive sheet made of a nano-silver coating according to an embodiment of the present invention is attached to a telephone handset holder.

Referring to this, the adhesive sheet 30 made of the nano-silver coating according to an embodiment of the present invention forms a coating surface consisting of nano silver sputtering coating on the upper surface of the thin film flexible sheet, the adhesive surface on the lower surface of the thin film flexible sheet By attaching the adhesive sheet to the upper surface of the mouse pad, the handle of the shopping cart, the phone handset holder and the like to sterilize and sterilize using silver ions to increase the hygiene cleanliness.

More specifically, the adhesive sheet 30 made of a nano-silver coating according to an embodiment of the present invention is composed of a silicon sheet or a thin film flexible sheet 32 made of PET, PP, transparent synthetic resin, etc., the thin film flexible sheet On the upper surface of the (32) to form a coating surface 36 made of nanosilver sputtering coating.

Preferably, a plurality of fine protrusions 34 may be formed on the upper surface of the coating surface 36 to be used for the purpose of the mouse pad 4 and the handle 10.

In addition, by forming an adhesive surface 38 on the lower surface of the thin film flexible sheet 32, the adhesive sheet (the upper surface of the mouse pad 4, the handle 10 of the shopping cart, the phone handset holder 24, 26, etc.) 30) to be sterilized and sterilized using silver ions.

In the case of the mouse pad 4, the adhesive sheet 30 formed of the nano silver coating according to the embodiment of the present invention may be directly attached to the upper surface, and at this time, the nano sheet is formed of the adhesive sheet 30. Since a plurality of fine protrusions 34 are formed on the upper surface of the), the rotating ball inside the mouse is smoothly rotated by the fine protrusions 34 so that the cursor can move freely.

In the case of the keyboard skin (not shown) that is covered on the upper surface of the computer keyboard, it is preferable to nano-silver coating the skin, but if it is unavoidable, even if the adhesive sheet 30 made of the nano-silver coating directly attached to the adhesive sheet The thickness of the is very thin and does not interfere with the keyboard operation.

In the case of the handle 10 of the shopping card, the adhesive sheet 30 formed with the nano-silver coating can be completely attached to the outer periphery of the handle 10 while the nano-silver is attached to the outer surface of the handle 10. Since the nanosilver coating surface 36 of the adhesive sheet 30 made of the coating is exposed, sterilization and sterilization is performed by silver ions of the coating surface 36.

In addition, since the nano-silver coating the adhesive sheet 30 is a thin sheet, it is possible to cut a part and attach it to a size suitable for the handset holders 24 and 26 of the phone as shown in FIG. When the adhesive sheet 30 made of the nano-silver coating is attached to the upper surfaces of the handset holders 24 and 26, the transmitter 18 and the receiver 20 which are in direct contact with the body are mounted when the phone is not in use. Sterilization and sterilization are performed by the silver ions of the coating surface 36.

5 is a view showing another application state of the adhesive sheet is a nano-silver coating according to an embodiment of the present invention.

Referring to this, the application of the adhesive sheet consisting of a nano-silver coating according to an embodiment of the present invention may be a keyboard skin. In the case of the keyboard skin is covered on the upper surface 42 of the keyboard 40, the material is made of urethane or soft PVC material to prevent dust or foreign matter from entering the gap of each keypad to prevent failure, keyboard ( 40) It is a transparent member which covers the upper surface 42. As shown in FIG.

In the case of such a keyboard skin, because the user's fingers are in frequent contact, it is easy to be exposed to seed germs, and the keyboard skin is rarely washed frequently.

Therefore, in the same manner as the coating method of the adhesive sheet is a nano-silver coating according to an embodiment of the present invention, the silver nano-coating through a silver nano ion cluster sputtering process that will be described later the keyboard skin 44 By performing the sterilization and sterilization is performed by the silver nano ions.

6 is a view for performing a nano silver sputtering coating the adhesive sheet made of a nano-silver coating according to an embodiment of the present invention.

Referring to this, the silver nano-ion cluster sputtering process performed on the adhesive sheet 30 formed with the nanosilver coating according to the embodiment of the present invention causes the atoms of the target material to be completely elastic when the particles of high energy collide with the solid surface. It is a process of protruding out of the surface while exchanging momentum by collision, and when colliding with kinetic energy larger than the binding energy between atoms of ions, the atoms of lattice of the material are pushed to another position by the impact of these ions. It is to use the process that the surface escape of.

In other words, when a direct current power source is applied to a target material while argon gas (Ar) is flowed into a vacuum chamber, plasma is generated between the coating material and the target material to be deposited. In such a plasma, a high output DC ammeter is accelerated to a cathode and impinges on the surface of the target material. The collision energy causes the atoms of the target material to bounce off.

The sputtering process includes an RF sputtering method, a magnetron sputtering method, an ion sputtering method, and the like according to the type thereof, and various methods for increasing the ionization of the surface have been adopted for each purpose.

According to one embodiment of the present invention, a method for vacuum depositing silver nanoparticles on an adhesive sheet 30 made of a nanosilver coating according to an embodiment of the present invention includes the above RF sputtering method, magnetron sputtering method, and ion sputtering method. Although any method may be used, it is preferable to apply ion sputtering or RF sputtering.

Hereinafter, the ion sputtering method will be described in a silver nano vacuum deposition process on the adhesive sheet 30 made of a nano-silver coating according to an embodiment of the present invention.

In the case of ion sputtering, it maintains the same vacuum degree as 10 ^-5 ~ 10 ^-7 Torr at the initial stage of vacuum deposition, but introduces argon gas which can generate plasma until the vacuum chamber pressure is 100 ² Torr, The negative voltage is applied by applying negative voltage (-500 ~ -5000V). At this time, the plasma state region into which argon gas is introduced is called CDS.

In addition, an inert gas cation having a high energy (1000 eV) generated by a conventional glow discharge collides with a surface of silver nano particles, which are target materials charged with a cathode, to release silver nano particles, which are target materials, in an atomic form. It is a method of forming a coating layer by allowing a vapor phase having an energy of ˜40 eV to move to the side of the workpiece to condense.

In addition, it is preferred that the target material is pure 100% PET, but the silver nano coating thickness is 50 to 500nm. This coating thickness is a range determined in consideration of the electric field voltage and sterilization effect required during glow discharge, if the silver nano coating thickness is 50 to 500nm, an appropriate electric field voltage can be used, and the sterilization effect is sufficient to sterilize the volume of drinking water. to be.

Referring to the sputtering method used in the method of the present invention in more detail as follows.

Cluster ion sputtering accelerates atoms ionized in a plasma state by energetic particles to collide with silver nanoparticles, whereby the separated silver nano atoms are deposited on the surface of a straw, which is an object to be coated.

In other words, argon gas, which is an inert gas, forms a plasma by glow discharge on a substrate surface facing an object to be processed (a thin aluminum sheet), and ion bombardment of argon ions collides with the surface of a target material, which is a cathode, thereby causing silver nanoparticles to vaporize. Will be released.

More specifically, in case of ion stuttering, argon gas is maintained at the same vacuum level as 10-5 to 10-7 Torr at the initial stage of vacuum deposition, but argon gas is maintained until the vacuum chamber pressure is 100 kPa Torr. Inflow, high negative voltage (-500 ~ -500V) to the target material to make a cathode. At this time, the region of the plasma state in which the argon gas is introduced is called the CDS 112.

At this time, the inert gas cation 114 having a high energy (1000 eV) generated by the normal glow discharge collides with the surface of the silver nanoparticles 110, which is the target material charged to the cathode, to release the target material, silver nano, in atomic form 116. In addition, a vapor phase having an energy of about 10 to 40 eV higher than that of vacuum deposition is transferred to the workpiece (nanosilver coating member) and condensed to form the surface layer 118.

This method is not a chemical or thermal reaction process, but is a method of creating a vapor phase by physical process (using momentum), which can be used as a target material regardless of the material. In this case, sputtering is performed using the RF potential, which is an AC process.

Cluster sputtering using the cluster ion source applied in the present invention can realize pure thin film deposition by controlling the cluster of stable nanostructure by sputtering the size freely.

In addition, the present method utilizes the treated object as the anode before coating, so that the glow discharge is possible to remove oxides and impurities on the surface by sputtering, and the surface layer is activated to have excellent adhesion to the coating layer.

On the other hand, the adhesive sheet made of a nano-silver coating according to an embodiment of the present invention is not limited only to the above embodiment is possible various modifications within the scope not departing from the technical gist.

As described above, the adhesive sheet made of a nano-silver coating according to the present invention is a nano-silver sputtering coating treatment on the upper surface of the sheet to be attached to the upper surface of the computer keyboard skin, mouse pad, shopping cart handle, handset holder of the phone, etc. By doing so, the first sterilization state can be maintained through the sterilization action using silver ion particles of the coated surface closely adhered to the body.

Claims (3)

A thin film flexible sheet composed of a silicone sheet or PET, PP, PE, PVC transparent synthetic resin, etc. is formed, and a coating surface on which a nano silver sputtering coating is formed is formed on the upper surface of the thin film flexible sheet, and is adhered to the lower surface of the thin film flexible sheet. By forming the surface of the mouse pad, the handle of the shopping cart, the computer keyboard skin, the top surface of the phone handset holder, the adhesive sheet is attached to the nano silver coating, characterized in that sterilization and sterilization using silver ions. Made of adhesive sheet. The adhesive sheet of claim 1, wherein a plurality of fine protrusions are formed on an upper surface of the coating surface to be used as a mouse pad and a handle. The method of claim 1, wherein the thin film flexible sheet is introduced into the argon gas under a vacuum degree of about 10 to 10 Torr until the vacuum chamber pressure is 100 Torr, the glow by applying a negative voltage of -500 ~ -5000V to the silver nanoparticles target material The discharge proceeds, and the cations of the argon gas generated by the glow discharge collide with the surface of the silver nanoparticles, the target material charged to the cathode, and the silver nanoparticles form a vapor atom in the collision of the silver nanoparticles with the argon gas. Emission sheet, the adhesive sheet made of a nano-silver coating, characterized in that the silver nano-coating is made in the plasma region of the vapor phase on the surface of the thin film flexible sheet.

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