JP2021165328A - Antiviral kneaded body, formation method of antiviral kneaded material and formation method of antiviral kneaded body - Google Patents

Abstract

To make it effective to utilize a material capable of always conveniently available as a main component, to be able to heighten a ratio of a dolomite content, namely, a content of an antiviral agent, to be able to surely hold the material when the ratio of the content of the dolomite content, namely, the antiviral agent is heightened, and to be able to increase a contact area to improve the antiviral performance of the dolomite, when forming the antiviral body for contacting with, for example, a palm.SOLUTION: A silicon/dolomite kneaded material is formed, the kneaded body is characterized in that kneaded material is made of silicon material as a main component and dolomite as an accessory component, and shows the antiviral performance, and when kneaded and the surface is pressed by contacting with a pressing body, the flexibility is maintained, and the contact area to the pressing body of the surface increases compared with before the pressing action.SELECTED DRAWING: Figure 1

Description

The present invention relates to a flexible antiviral silicon dolomite kneading material or kneaded body, a ball-shaped, rod-shaped or plate-shaped silicon dolomite kneaded body that becomes a silicon dolomite kneaded body, a door knob-coated silicon dolomite kneaded body, and a portable body. The present invention relates to a telephone-coated silicon dolomite kneaded body and a method for forming a silicon dolomite kneaded material or a kneaded body.

Currently, antibacterial goods are widely used in a great many fields. The usefulness and necessity of antimicrobial substances with antiviral activity are widely recognized.
Under these circumstances, dolomide is attracting attention as a new material with antiviral activity.
The following are known properties of dolomide.

1) → Dolomide is a mineral consisting of carbonates of calcium and magnesium that exist infinitely in nature. Rhombohedral crystal. Colorless to white translucent. It has extremely high safety.
2) → It is powdery and has extremely strong antibacterial activity. It has a strong virus-killing effect and effectively eliminates the infectivity of the virus even if it is allowed to act for a short time. Emerging-Re-emerging Infectious disease control is considered effective.
3) → Pure products have a high pH and are thought to produce a sterilization mechanism. It is reported in the general literature that there is a concentration dependence between the concentration of dolomite and the change in the number of bacteria.

Dolomite having such properties is known to be used as an additive to plastics, and applications to masks and filters have been proposed in the past.

Patent Document 1 describes that a mask is produced by firing a dolomite, hydrating a part of the dolomite to produce an antiviral agent as a powder, and holding the obtained powder on a fiber (woven cloth or non-woven fabric). be written.

Patent Document 2 describes an antiviral coating composition containing dolomite.

Patent Document 3 states that dolomite is calcined and hydrated and then crushed into fine particles, and the antiviral activity of the finely divided antiviral agent attached to the sheet-like material is maintained for a long time, and the sheet surface is described. It is described that an antiviral agent-supporting sheet is provided in which the virus attached to the sheet is easily taken into the inside of the sheet.

Patent Document 4 describes a thermoplastic resin building material that has antibacterial properties and can be used as a building material for flooring materials, skirting boards, waist walls, wall coverings, etc. be written.

Patent Document 5 describes antibacterial composite ceramics in which dolomite group powder and dolomite powder are mixed in a predetermined ratio.

Patent Document 6 describes antibacterial socks in which 10 to 15% by weight of an inorganic antibacterial material containing aluminum oxide, silicon oxide and magnesium oxide as main components is kneaded in rayon fiber.

International Publication WO 2005/013695 JP-A-2007-106876 Japanese Unexamined Patent Publication No. 2012-72100 Japanese Unexamined Patent Publication No. 2006-89335 JP-A-2007-169109 Japanese Unexamined Patent Publication No. 5-49682

As described in Patent Documents 1 to 5, it is known that an antiviral agent derived from dolomite as a mineral raw material is applied to masks, filters, paint compositions, fibers or supporting sheets, building materials, and composite ceramics. However, it is possible to use a silicon material and dolomite as the kneading material, knead them to produce a silicon dolomite kneading material, and form a silicon dolomite kneaded material from the silicon dolomite kneading material to obtain an antiviral molded product. unknown.

Patent Document 6 describes that an inorganic antibacterial material containing aluminum oxide, silicon oxide and magnesium oxide as main components is kneaded in rayon fiber in an amount of 10 to 15% by weight. An inorganic antibacterial material containing aluminum oxide, silicon oxide and magnesium oxide as main components is supported in rayon fibers. This document does not describe that a silicon material and a dolomite are used as a kneading material, and these are kneaded to produce a silicon dolomite kneaded material, and a silicon dolomite kneaded body in a mixed kneaded state is formed from the silicon dolomite kneaded material. ..

As an effective means of infection control, it is recommended that experts in the field wash their hands with water to remove various viruses. It is inevitable that a person is in a home, workplace or other facility with water to wash with water. If you are not at home, at work or in any other facility, you may want to sterilize the virus that has adhered to your palm even while you are active in the external environment, for example, while walking. If the bacteria can be eradicated, it is effective and safe in preventing virus infection.

The silicon / dolomite mixed kneaded product can be configured as a single molded product, and by exhibiting antiviral properties, it can be easily and always used as an antiviral body for palm contact. For example, it can be used as an antiviral ball, rod or plate. In forming an antiviral body for palm contact, it is required to use a flexible material that can be easily and always carried as a main component for the purpose of removing various viruses adhering to the palm. Furthermore, it is required to be an antiviral substance for palm contact with an increased ratio of the content of dolomite.

In view of this point, for example, in forming an antiviral substance for palm contact, the present invention uses a material that can be easily and always held as a main component, and the dolomite content, that is, the content of the antiviral agent. It is possible to increase the ratio, ensure that the dolomite content is retained in the material when the ratio of the content of the antiviral agent is increased, and increase the contact area in order to improve the antibacterial performance of the dolomite. The challenge is to be able to do things effectively. For example, to make it usable for the purpose of removing various viruses attached to the palm, for example, to form a flexible antiviral ball-shaped body, rod-shaped body or plate-shaped body, and during activity in the external environment. However, it is an object to be able to hold it in hand and effectively remove various viruses attached to the palm so that virus infection can be effectively prevented.

The present invention comprises a silicon material containing a kneading material as a main component and a dolomite as a sub component, and a silicon dolomite kneaded body containing the silicon material as a main component and dolomite as a sub component.
In the present invention, it is not enough to simply add and mix the kneading material, but the flexible and solid silicon material is mixed and kneaded with powdered solid dolomite, and the holding power of the dolomite to the silicon material is increased. An enhanced silicone dolomite kneading material is formed.

The produced silicon dolomite kneaded material is flexible in contact with the pressing body, and when the surface is pressed, the contact area of the surface with the pressing body increases as compared with that before the pressing action.
A silicon dolomite kneaded body is produced from this silicon dolomite kneaded material. The silicon dolomite kneaded product exhibits an independent molded product form in which the silicon dolomite kneaded material has the same performance and has a volume corresponding to the application.

The silicon material and the dolomite are kneaded to exhibit antiviral properties, and the kneaded body having a volume suitable for the intended use is produced by contacting with the pressing body to maintain the flexibility. The kneaded material is cut according to the application to form an appropriate silicon dolomite kneaded body.
In forming the silicon-dromite kneaded body, use a silicon material as a flexible material that can be easily and always held as a main component, and increase the ratio of the dromite content, that is, the content of the antiviral agent composed of dromite. It is necessary to consider that when the ratio of the dolomite content, that is, the content of the antiviral agent is increased, the silicone material is reliably retained.

The produced recon-dromite kneaded product can be used for the purpose of removing various viruses adhering to the pressed body. For example, a flexible antiviral ball, rod or plate can be formed, and various viruses attached to the palm can be effectively removed even during activities in the external environment to effectively prevent virus infection. It becomes possible to do so.

An antiviral agent derived from dolomite as a mineral raw material can be used. Such antiviral agents are commercially available. As the antiviral agent derived from dolomite, dolomite, calcined dolomite or calcined dolomite hydrate is used. The dolomite is formed by containing not only calcium carbonate and magnesium carbonate but also a main chemical component composed of calcium carbonate, magnesium carbonate, magnesium oxide, calcium hydroxide and magnesium hydroxide.

The present invention is a silicon-dromite kneading material containing a silicon material as a main component and a dolomite as a sub-component.
A kneaded material in which the kneaded material is composed of a silicon material as a main component and a dolomite as a sub component, exhibits antiviral properties, and is in a state in which the silicon material and the dolomite are mixed and kneaded, and retains flexibility in contact with a pressing body. Provided is an antibacterial silicon dolomite kneaded material or a silicon dolomite kneaded body, and a method for forming a silicon dolomite kneaded material or a silicon dolomite kneaded material. The silicon dolomite kneaded material can be read as a silicon dolomite kneaded body.

According to the present invention, it is possible to provide a silicone dolomite kneading material or a silicon dolomite kneading material which is flexible and has antiviral properties and is effective in contact with a pressing body, for example, the palm of the hand. ..

A flexible material capable of increasing the contact area is used to improve the antibacterial performance of the dolomite, and it can be used for the purpose of removing various viruses adhering to the pressing body, for example, the palm. For example, it forms a flexible antiviral ball-shaped body, rod-shaped body, or plate-shaped body, can be held by hand even during activities in the external environment, and effectively removes various viruses attached to the palm to cause virus infection. The prevention can be effectively performed.

As a result, it is possible to effectively prevent infection by various viruses even during external activities. For example, it can be applied to the formation of a ball-shaped, rod-shaped or plate-shaped silicon dolomite kneaded body for a flexible antiviral hand containing an antiviral agent derived from dolomite as a mineral raw material.

The figure which shows the structure of the mixer which produces the silicon dolomite kneading material containing the antiviral agent derived from dolomite as a mineral raw material which becomes an Example of this invention. The figure which shows that the silicon dolomite kneaded body is formed from the silicon dolomite kneaded material. The figure which shows the structure of various molds for forming a silicon dolomite kneaded body. The figure which shows the flexible antiviral ball-shaped kneaded body. The figure which shows the flexible antiviral rod-shaped kneaded body. The figure which shows the flexible antiviral plate-like kneaded body. The figure which shows the flexible antiviral doorknob coating kneaded body. The figure which shows the flexible antiviral mobile phone coating kneaded body. The figure which shows the interior floor-shaped silicon dolomite kneaded body which is a molded product, and the floor-shaped silicon dolomite kneaded body in an automobile car. The figure which shows the experimental result which shows that the silicon dolomite kneaded body can be formed and the holding power can be secured.

Hereinafter, examples of the present invention will be described with reference to the drawings.

FIG. 1 is a diagram showing a configuration of a mixer for producing a dolomite-containing silicon material containing an antiviral agent derived from dolomite as a mineral raw material, which is an embodiment of the present invention.
In FIG. 1, the mixer 1 is a horizontally placed cylindrical kneading cylinder 2, and a silicon material (silicon material, silicone raw material) input port portion as a silicon raw material provided on the upstream side, which is the inlet side of the kneading cylinder 2. 3. Silicon dolomite kneading material take-out port 4 provided on the outlet side of the kneading cylinder 2, a rotating shaft 5 installed laterally inside the kneading cylinder 2, and a stirring screw provided around the rotating shaft. 6. A feed blade 7 provided on the upstream side of the stirring screw 6, a feed blade 8 provided on the downstream side of the stirring screw 6, a motor 9 as a drive source for applying a rotational force to the rotating shaft 5, and a mineral raw material. It is formed from an anti-virus agent input port 10 for charging a dolomite-derived anti-virus agent and an anti-virus agent input tube 11.

A flexible silicone material (for example, the low hardness silicone rubber described above) is prepared. This silicon material is charged into the kneading cylinder 2 from the silicon material input port 3. An antiviral agent derived from dolomite as a mineral raw material is prepared, and this antiviral agent is charged into the kneading cylinder 2 from the antiviral agent input port 10 and the antiviral agent input pipe 11. This antiviral agent is produced, for example, by firing dolomite as a mineral raw material, hydrating after firing, and powdering, and is commercially available. Preparations are made by purchasing a commercially available antiviral agent.

Inside the kneading cylinder 2, a feed blade 7 is provided facing the silicon material input port 3, and the transport unit 21 faces the antiviral agent input pipe 11 in the region A where the input silicon material is kneaded. The kneading section 22 for mixing and kneading the silicon material kneading material and the dolomite powder is formed in the area C facing the downstream dolomite-containing silicon material take-out port 4 and the feeding section 23 is formed in the region C provided with the feed vanes 8. ..

The charged flexible silicon material and the antiviral agent which is a powdery dolomite are kneaded in the kneading unit 22 to produce a mixed-kneaded silicon dolomite kneaded material which becomes silicon and dolomite, and silicon dolomite. The kneading material (hereinafter, may be simply referred to as a kneading material) 24.
Silicone rubber (manufactured by Kyowa Kogyo Co., Ltd.) is known as a typical example of a silicon material.
As the silicone rubber, low-hardness silicone rubber, medium-hardness silicone rubber, and high-hardness silicone rubber are known. Low hardness silicone rubber is preferably used in the present invention. It is possible to manufacture molded products with soft elongation and adhesion characteristics using low-hardness silicone rubber.

Silicone rubber (manufactured by Kyowa Kogyo Co., Ltd.)
1 ° to 20 °: Low hardness 5 °: Softness like an earlobe. Translucent, black. Can be colored.
At 10 °: Has hardness similar to that of skin. Translucent, black. Can be colored. Can be blended.
At 20 °: translucent, black. Used for functional products.
30 ° to 70 °: General hardness 80 ° to 90 °: Classified as high hardness.

Features of low hardness silicone rubber:
・ It is very flexible. Return to the original shape.
-Strong surface tackiness and strong self-adhesion.
・ The growth rate is very high.
It has features such as.

The kneading unit 22 is characterized in that solids are mixed and kneaded to produce a silicon-dromite kneaded material in a mixed and kneaded state.
The generated kneading material 24 is continuously discharged to the outside of the mixer from the silicon dolomite kneading material take-out port (hereinafter referred to as the kneaded material take-out port) 4.
A mold 31 is provided in the vicinity of the kneading material take-out port 4.

The mold 31 is a mold for forming a ball-shaped kneaded body, a rod-shaped kneaded body, or a plate-shaped kneaded body from the kneading material 24, and includes a ball-shaped, rod-shaped, or plate-shaped recess 32.
The kneading material 24 is poured into the ball-shaped, rod-shaped or plate-shaped recess 32 of the mold 31, held for a predetermined time, and cooled.

A ball-shaped kneaded body, a rod-shaped kneaded body, or a plate-shaped kneaded body containing silicon material as a main component and containing dolomite, which is formed in a form similar to a ball, a rod, or a plate as a whole, and is made of a silicon material and a dolomite kneaded material. A flexible antiviral hand ball-shaped silicon dolomite kneaded body, a rod-shaped silicon dolomite kneaded body, or a plate-shaped silicon dolomite kneaded body is formed.

In FIG. 1, an example in which the mixer 1 is placed horizontally is shown, but it can be arranged vertically.

FIG. 2 is a diagram showing that a silicon dolomite kneaded body is formed from a silicon dolomite kneaded material.

The mold 31 is a molded product from the silicon dolomite kneaded body 25, for example, a ball-shaped kneaded silicon dolomite body, a rod-shaped silicon dolomite kneaded body or a plate-shaped silicon dolomite kneaded body, a door knob coated silicon dolomite kneaded body, or a mobile phone coated silicon. -A mold for forming a dolomite kneaded body, which includes a plurality of recesses 32 that are regularly aligned on a surface on coordinates formed on the X-axis and the Y-axis. The silicon dolomite kneaded body 25 is poured into the recess 32, held for a predetermined time, and cooled to produce a molded product.

The silicon dolomite kneading material 24 is put into the mold 31 from the kneading material outlet portion 4. The kneading material separating means 26 is provided in the kneading material taking-out port portion 4, and the continuously generated kneading material taking-out port portion 4 is cut into a silicon dolomite kneaded body 25. That is, the silicon dolomite kneaded body 25 is molded from the silicon dolomite kneaded material 24.

The mold 31 is movable in the X-axis and Y-axis directions as indicated by the arrows. The movement is relative in relation to the mixer 1.
Each independent silicon dolomite kneaded body 25 is put into the recess 32 formed in the mold 31 one by one.
The silicon dolomite kneaded body 25 poured into the recess 32 is held for a predetermined time and cooled to be a product as an individual molded product.

FIG. 3 is a diagram showing the structures of various molds for forming a silicon dolomite kneaded body. The structures of various types 31 for the type 31 shown in FIG. 2 are shown. The mold is a combination of a similar upper mold and a lower mold with the mating surface at the center, and FIG. 3 shows the lower mold. Depending on the combination of the upper mold and the lower mold, a space portion corresponding to the intended use is formed between the two molds, and the silicon dolomite kneaded product is poured from the pouring path (not shown) so as to fill the space portion. Various products are produced from the silicon dolomite kneaded body 25 cut out from the silicon dolomite kneading material 24 using various molds 31.

FIG. 3A shows a mold 31 from the silicone dolomite kneaded body 25 that forms a contact ball with a flexible antiviral palm.
A plurality of recesses 32 that are regularly aligned on a coordinated surface formed on the X-axis and the Y-axis are provided. The recess 32 has a hemispherical shape. The silicon dolomite kneaded body 25 is poured into the space formed by the combination of the upper mold and the lower mold and formed by the combination of the depressions, and is held for a predetermined time, cooled, and has a flexible antiviral property which is a molded product. A ball for contact is manufactured with the palm of your hand.

FIG. 3B shows a mold 31 from the silicone dolomite kneaded body 25 that forms a contact rod with a flexible antiviral palm.
A plurality of recesses 32 that are regularly aligned on a coordinated surface formed on the X-axis and the Y-axis are provided. The recess 32 has a shape having a semicircular cross section in which the rod is halved in the longitudinal direction. The silicone dolomite kneaded body 25 is poured into the space formed by the combination of the upper mold and the lower mold and formed by the combination of the depressions, and is held for a predetermined time, cooled, and has a flexible antiviral property which is a molded product. A rod-shaped silicon dolomite kneaded body for contact is produced in the palm of the hand.

FIG. 3 (c) shows another type 31 from the silicone dolomite kneaded body 25 to form a plate-shaped silicon dolomite kneaded body for contact with a flexible antiviral palm.
The mold 31 includes a plurality of recesses 32 that are regularly aligned on a coordinated surface formed on the X-axis and the Y-axis. The recess 32 has a plate-like shape. The silicone dolomite kneaded body 25 is poured into the space formed by the combination of the upper mold and the lower mold and formed by the combination of the depressions, and is held for a predetermined time, cooled, and has a flexible antiviral property which is a molded product. A plate-shaped silicon dolomite kneaded body for contact is produced by the palm of the hand.

FIG. 3D shows a mold 31 from the silicone dolomite kneaded body 25 to form a handknob-coated recon dolomite kneaded body for contact with a flexible antiviral palm.
The mold 31 includes one or a plurality of aligned recesses 32 on the upper surface. Here, an example in which one recess is provided is shown. The recess 32 has a doorknob-like shape. The mold 31 is provided with a core 33 arranged at the center of a doorknob-shaped recess. The core 33 is provided with a plurality of protrusions 34 in the outward direction, and a part of the core 33 is in contact with the inner surface of the recess. The silicon dolomite kneaded body 25 is poured into a space formed by a combination of an upper mold and a lower mold and a recess having a core 33, and is held for a predetermined time, cooled, and has flexibility as a molded product. A doorknob-coated silicone dolomite kneaded body for contact is produced with an antiviral palm.

FIG. 3 (e) shows a mold 31 from the silicon dolomite kneaded body 25 to form a mobile phone coated silicon dolomite kneaded body for contact with a flexible antiviral palm.
The mold 31 includes one or a plurality of aligned recesses 32 on the upper surface. Here, an example in which one recess is provided is shown. The recess 32 has a mobile phone-like shape. The mold 31 is provided with a mobile phone-shaped core 36 that can be arranged in the center of the mobile phone-shaped recess. A part of the core touches the inner surface of the depression. The silicon dolomite kneaded body 25 is poured into a space formed by a combination of an upper mold and a lower mold and a recess having a core 33, and is held for a predetermined time, cooled, and has flexibility as a molded product. A mobile phone coated silicon dolomite kneaded body for contact is produced with an antiviral palm.

4 to 8 are views specifically showing an example of a product which is a molded product which is effective in contact with a flexible antiviral palm.

FIG. 4 is a diagram showing a ball-shaped silicon dolomite kneaded body having a flexible antiviral palm contact effect. In the case of this example, the ball is spherical. As the spherical shape, it can be imitated in a familiar shape such as a hardball baseball ball or a golf ball shape, a mandarin orange shape, or a round toy shape.

FIG. 4A shows a ball-shaped kneaded body in contact with an antiviral palm, and FIG. 4B shows a state in which the formed ball-shaped kneaded body 100 (100A) is held by a human palm. Is shown.

The mold 31 shown in FIG. 3 (a) is used to form a flexible antiviral ball-shaped silicon dolomite kneaded product 100 (100A).

The flexible antiviral ball-shaped silicon dolomite kneaded product 100 (100A) has a ball-like shape as a whole and is composed of a kneaded material of silicon material and dolomite, and the kneaded material is inside the flexibility. And the surface part (surface) of the externally exposed dolomite, and the surface part of the externally exposed dolomite exhibits antiviral properties, and when it is held by the human palm 40 and has the action of external force, the whole Maintains flexibility while changing the form of.

Since the ball-shaped silicon dolomite kneaded body 100 (100A) has flexibility, it is gripped by the palm, and when pressed, the surface of the ball-shaped silicon dolomite kneaded body 100 (100A) for contact with the palm. The contact area with the palm is increased as compared with the contact area before pressing. The antibacterial area increases. Even in this state, the ball-shaped silicon dolomite kneaded product 100 (100A) retains its flexibility while changing its overall shape and fits in the palm of the hand.

The ball-shaped silicon dolomite kneaded product 100 (100A) kills virus bacteria attached to the palm by contact with the palm due to the antibacterial performance with an increased antibacterial area. As a result, the virus attached to the palm has been removed from the palm.
When an external force is applied, the contact area of the surface of the ball-shaped silicon dolomite kneaded body 100 (100A) for contact with the palm increases, so that the virus attached to the palm is removed from the palm. Is done effectively.

Since the ball-shaped silicon dolomite kneaded body 100 (100A) has flexibility, it can be returned to the original ball shape by applying an external force, and can be used repeatedly.
It can be used in an environment that is not convenient due to the use of wash water. For example, when riding on a train and being caught by a strap, or when getting on or off, the sterilization operation can be performed immediately.

As shown in FIG. 4C, an elliptical spherical shape, that is, a ball-shaped silicon dolomite kneaded body 100 (100A) having a rugby-like or oval-like shape can be used instead of the spherical shape.
It is recommended that the size of the ball-shaped silicon dolomite kneaded body 100 (100A) be less than or equal to the size of a baseball ball and greater than or equal to the size of a ping-pong ball because the ball is held by the palm of the hand. The contact of the ball-shaped silicon dolomite kneaded body 100 (100A) with the palm means that the size is within the size that can be grasped by the palm.

The size of the ball-shaped silicon dolomite kneaded body 100 (100A) shown in FIG. 4C is 50 mm in the longitudinal direction and 30 mm in the lateral direction as an example, 78 mm in the other example, and 44 mm in the lateral direction. Was done.
A solid material can be incorporated in the central portion of the ball-shaped silicon dolomite kneaded body 100 (100A).

FIG. 5 is a diagram showing a rod-shaped silicon dolomite kneaded product, which is a molded product that is effective in contact with a flexible antiviral palm.
FIG. 5 (a) shows a rod-shaped silicon dolomite kneaded body for antiviral hand contact, and FIG. 5 (b) shows a rod-shaped silicon dolomite kneaded body 100 (100B) formed by a human palm. Indicates the state of being virus. As the spherical shape, it can be imitated in a familiar shape such as a hardball baseball bat, a golf club shape, a ballpoint pen shape, or a stick-shaped toy shape.

The mold 31 shown in FIG. 3 (b) is used to form a flexible antiviral rod-shaped silicon dolomite kneaded product 100 (100B).
The flexible antiviral rod-shaped silicon dolomite kneaded product 100 (100B) has a shape similar to that of a rod as a whole and is composed of a kneaded material of silicon material and dolomite. It consists of the surface part (surface) of the externally exposed dolomite, and when the surface part of the externally exposed dolomite exhibits antiviral properties and is held by a human hand and has an action of external force, the whole form is formed. Keep flexibility while changing. And it can be easily returned to its original shape.

Since the rod-shaped silicon dolomite body 100 (100B) has flexibility, it is gripped by the palm, and when pressed, the contact area of the surface of the rod-shaped silicon dolomite kneaded body 100 (100B) with the palm increases. .. Even in this state, the rod-shaped silicon dolomite kneaded product 100 (100B) retains its flexibility while changing its overall shape.

Due to its antibacterial performance, the rod-shaped silicon dolomite kneaded product 100 (100B) kills virus bacteria attached to the palm when it comes into contact with the palm. As a result, the virus attached to the palm has been removed from the palm.
When an external force is applied, the contact area of the surface of the rod-shaped silicon dolomite kneaded body 100 (100B) with the palm is increased, so that the virus attached to the palm is effectively removed from the palm.

Since the rod-shaped silicon dolomite kneaded product 100 (100B) has flexibility, it can be restored to the original rod shape by applying an external force, and can be used repeatedly.
It can be used even in an environment where there is no convenience of washing water, and for example, when riding on a train and being caught by a strap, or when getting on or off, the sterilization operation can be performed immediately.

The rod-shaped silicon dolomite kneaded product 100 (100B) includes a cylindrical rod-shaped kneaded product. Further, the rod-shaped silicon dolomite kneaded body 100 (100B) includes a rod-shaped silicon dolomite kneaded body in which a solid mandrel is inserted in the central portion.

FIG. 6 is a diagram showing a plate-shaped kneaded product which is a molded product that is effective in contact with a flexible antiviral palm.

FIG. 6 (a) shows an antiviral plate-shaped silicon dolomite kneaded product, and FIG. 6 (b) shows a formed plate-shaped silicon dolomite kneaded product 100 (100C) held by a human palm. Indicates the state of being.
The mold 31 shown in FIG. 3 (c) is used to form a flexible antiviral plate-shaped silicon dolomite kneaded product 100 (100C).
The flexible antiviral plate-shaped silicon dolomite kneaded product 100 (100C) has a shape similar to a plate as a whole and is composed of a kneaded material of silicon material and dolomite, and the kneaded material is inside the flexibility. And the surface part (surface) of the externally exposed dolomite, and the surface part of the externally exposed dolomite exhibits antiviral properties, and when it is held by a human hand and has the action of external force, the whole Maintains flexibility while changing form.

Since the plate-shaped silicon dolomite kneaded body 100 (100C) has flexibility, it is grasped by the palm, and when pressed, the contact area of the surface of the plate-shaped silicon dolomite kneaded body 100 (100C) with the palm is increased. Increase. Even in this state, the plate-shaped silicon dolomite kneaded product 100 (100C) retains its flexibility while changing its overall shape.

The plate-shaped silicon dolomite kneaded product 100 (100C) kills virus bacteria attached to the palm by contact with the palm due to its antibacterial performance. As a result, the virus attached to the palm has been removed from the palm.

When an external force is applied, the contact area of the surface of the plate-shaped silicon dolomite kneaded body 100 (100C) with the palm increases, so that the virus attached to the palm is effectively removed from the palm.
Since the plate-shaped silicon dolomite kneaded product 100 (100C) has flexibility, it can be restored to the original rod shape by applying an external force, and can be used repeatedly.

It can be used in an environment that is not convenient due to the use of wash water. For example, when riding on a train and being caught by a strap, or when getting on or off, the sterilization operation can be performed immediately.

As described above, the whole is formed in a form similar to a ball, a rod or a plate, and the kneaded material is composed of a silicon material as a main component and a dolomite as a sub component, and exhibits antiviral properties, and is a mixture of the silicon material and the dolomite. The kneaded body is produced by kneading, and while changing the overall shape, it retains the shape of the ball, rod or plate, and retains its flexibility. A flexible antiviral palm is formed with a ball-shaped kneaded body, a rod-shaped kneaded body, or a plate-shaped kneaded body for contact, which is characterized in that the contact area with the palm of the hand is increased as compared with that before the pressing action. ..

FIG. 7 is a diagram showing a doorknob-coated silicone dolomite kneaded product, which is a molded product that is effective in contact with a flexible antiviral palm.
In the case of this example, the doorknob-covered kneaded body has a tubular shape that is thin in the longitudinal direction. By forming the tubular part, antibacterial performance can be expected to sterilize the virus on the surface of the doorknob on the inside and the virus on the palm on the outside.

FIG. 7 (a) is a photograph showing a molded anti-virus doorknob-coated silicon-dromite kneaded body, and FIG. 7 (b) is a photograph showing the formed doorknob-coated silicon-dromite kneaded body 100 (100D). An example of a doorknob to be used is shown. FIG. 7B shows a doorknob with an open tip.
The mold 31 shown in FIG. 3 (d) is used to form a flexible antiviral doorknob coated silicone dolomite kneaded body 100 (100D).
The doorknob covering kneaded body 100 (100D) has a volume for securing a surface used for palm contact, and has a tubular portion 42 capable of accommodating the doorknob 41.

As an example, the size of the doorknob-coated silicon dolomite kneaded body 100 (100D) shown in FIG. 7A is 142 mm in the longitudinal direction, the thickest portion in the lateral direction, and a handle diameter of 21 mm.
The flexible, antiviral doorknob-coated silicon dolomite kneaded body 100 (100D) has a shape similar to that of a doorknob and is composed of a kneaded material of silicon material and dolomite. And the surface part (surface) of the externally exposed dolomite, and the surface part of the externally exposed dolomite exhibits antiviral properties, and when it is held by a human hand and has the action of external force, the whole It changes shape and retains flexibility while increasing the contact area.

Since the doorknob-coated silicone dolomite kneaded body 100 (100D) has flexibility, it is grasped by the palm, and when pressed, the contact area of the surface of the doorknob-coated silicone dolomite kneaded body 100 (100D) with the palm is increased. Increase. Even in this state, the doorknob-coated silicon dolomite kneaded product 100 (100D) retains its flexibility while changing its overall shape.

The doorknob-coated silicone dolomite kneaded product 100 (100D) kills virus bacteria attached to the palm by contact with the palm due to its antibacterial performance. As a result, the virus attached to the palm has been removed from the palm.
When an external force is applied, the contact area of the surface of the doorknob-coated silicon dolomite kneaded body 100 (100D) with the palm is increased, so that the virus attached to the palm is effectively removed from the palm.

Since the doorknob-coated silicon dolomite kneaded product 100 (100D) has flexibility, it can be restored to its original shape by applying an external force, and can be used repeatedly.
It can be used even in an environment where there is no convenience of washing water, and for example, when riding on a train and being caught by a strap, or when getting on or off, the sterilization operation can be performed immediately.

FIG. 7 (c) shows a doorknob-covered kneaded body applied to a molded protruding doorknob.
As shown in FIG. 7 (c), in the case of this example, the doorknob-covered kneaded body is formed of a tubular body 42 having a tubular shape having substantially the same length in the longitudinal direction and the radial direction. In the figure, the tubular body 42 has holes 43 and 44 on the left and right sides in the longitudinal direction. The inside of the tubular body 42 is a space portion 45.

FIG. 7D shows a protruding doorknob 41 that is opened by rotating the surface of the doorknob 41.
By covering the protruding doorknob 41 with the tubular body 42 of the doorknob-coated silicon dolomite kneaded body 100 (100D), the protruding doorknob 41 is arranged in the cylinder. With this, the doorknob covering kneaded body 100 (100D) is arranged so as to cover the protruding doorknob 41.
Since the doorknob is gripped by the palm of the hand, it is recommended that the size of the doorknob-coated silicon dolomite kneaded body 100 (100D) is about 10 to 20% of the size of the doorknob. Contact with the doorknob-coated silicone dolomite kneaded body 100 (100D) means that it is within a size range that can be grasped by the palm of the hand.

As an example, the size of the doorknob-coated silicon dolomite kneaded body 100 (100D) shown in FIG. 7 (c) is a tubular body length of 43 mm in the longitudinal direction, a hole 43 diameter of 34 mm, and a hole 44 diameter of 38 mm. ..

As described above, the whole has a shape similar to a doorknob, and the kneaded material is composed of a silicon material as a main component and a dolomite as a sub component, exhibits antiviral properties, and is produced by a mixed kneading of the silicon material and the dolomite. It becomes a kneaded body, and the kneaded body has a doorknob storage space for storing the doorknob and being fitted into the doorknob. A flexible anti-viral palm-covered doorknob kneading characterized in that when the surface is pressed against the palm, the contact area of the surface with the palm increases compared to before the pressing action. The body is formed.

FIG. 8 is a diagram showing a mobile phone-coated kneaded product, which is a molded product that is effective in contact with a flexible antiviral palm. It is a figure which shows the mobile phone covering kneading body for contact with a flexible antiviral palm.
In the case of this example, the mobile phone covering kneaded body has a bag-like shape that wraps the mobile phone.

FIG. 8 (a) shows an anti-virus mobile phone-coated kneaded product, and FIG. 8 (b) shows an example of a mobile phone to which the formed mobile phone-coated silicon dolomite kneaded product 100 (100E) is mounted. show.
The mold 31 shown in FIG. 3 (e) is used to form a flexible antiviral mobile phone coated silicone dolomite kneaded body 100 (100E).
The mobile phone-coated kneaded body 100 (100E) has a volume used for palm contact, and has a bag-shaped portion 52 that allows the mobile phone to be stored together with the mobile phone cover. By forming the bag-shaped portion, antibacterial performance can be expected to sterilize the virus on the surface of the mobile phone on the inside and the virus on the palm on the outside.

As an example, the size of the mobile phone coated silicon dolomite kneaded body 100 (100E) shown in FIG. 8B was 150 mm in the longitudinal direction and 90 mm in the lateral direction.
The flexible anti-virus mobile phone coated silicon dolomite kneaded product 100 (100E) has a form similar to that of a mobile phone as a whole, and is composed of a kneaded material of silicon material and dolomite, and the kneaded material is flexible. It consists of the inside of the phone and the surface of the outside exposure of the dolomite. It changes the overall shape and retains flexibility while increasing the contact area.

Since the mobile phone coated silicon dolomite kneaded body 100 (100E) has flexibility, it is grasped by the palm, and when pressed, the surface of the mobile phone coated silicon dolomite kneaded body 100 (100E) comes into contact with the palm. The area increases. Even in this state, the mobile phone-coated silicon dolomite kneaded product 100 (100E) retains its flexibility while changing its overall form.
The mobile phone coated silicon dolomite kneaded product 100 (100E) kills virus bacteria attached to the palm by contact with the palm due to its antibacterial performance. As a result, the virus attached to the palm has been removed from the palm.

When an external force is applied, the contact area of the surface of the mobile phone coated silicon dolomite kneaded body 100 (100E) with the palm increases, so that the virus attached to the palm is effectively removed from the palm. ..
Since the mobile phone coated silicon dolomite kneaded product 100 (100E) has flexibility, it can be returned to its original shape by applying an external force and can be used repeatedly.

It can be used in an environment that is not convenient due to the use of wash water. For example, when riding on a train and being caught by a strap, or when getting on or off, the sterilization operation can be performed immediately.
Since the mobile phone is held in the palm of the hand, it is recommended that the size of the mobile phone-coated silicon dolomite kneaded product 100 (100E) is about 10 to 20% of the size of the mobile phone. Contact with the mobile phone coated silicone dolomite kneaded body 100 (100E) means that it is within a size range that can be grasped by the palm of the hand.

As described above, the whole is in a form similar to that of a mobile phone, and the kneaded material is composed of a silicon material as a main component and a dolomite as a sub component, exhibits antiviral properties, and is produced by a mixed kneading of the silicon material and the dolomite. It becomes a silicon dolomite kneaded body, and the kneaded body has a bag-shaped part that allows the mobile phone to be stored together with the mobile phone cover, and keeps the shape similar to the mobile phone as a whole while changing the outer shape. And a flexible anti-virus mobile phone that retains flexibility and that when the surface is pressed against the palm, the contact area of the surface with the palm increases compared to before the action. A coated silicon dolomite kneaded body is formed.

FIG. 9 is a diagram showing an indoor floor-shaped silicon / dolomite kneaded product and an automobile vehicle interior floor-shaped silicon / dolomite kneaded product, which are molded products.

FIG. 9A shows an antiviral indoor floor-shaped kneaded body, and FIG. 9B shows a human foot placed on the formed indoor floor-shaped silicon dolomite kneaded body 100 (100F). It shows an indoor floor-like silicon dolomite kneaded product, which is a molded product that is flexible, antiviral, and effective in contact with human feet.

FIG. 9 (c) shows an anti-virus in-vehicle floor-shaped kneaded product, and FIG. 9 (d) shows shoes placed on the formed in-vehicle floor-shaped silicon dolomite kneaded product 100 (100 G). It shows a state of being present, and shows a floor-shaped silicon dolomite kneaded body in an automobile, which is a molded product that is flexible, antiviral, and effective in contact with shoes.
The mold 31 shown in FIG. 3 is used to form a flexible antiviral indoor floor-shaped silicon / dolomite kneaded product 100 (100F) or a car interior floor-shaped silicon / dolomite kneaded product 100 (100G).

In FIG. 9A, the flexible antiviral indoor floor-shaped silicon dolomite kneaded product 100 (100F) has a shape similar to that of an indoor floor board as a whole, and is made of a kneaded material of silicon material and dolomite. The kneaded material is composed of a flexible interior and a surface portion (surface) of the externally exposed dolomite, and the surface portion of the externally exposed dolomite exhibits antiviral properties, as shown in FIG. 9 (b). When the human foot 52 is placed and pressed, it changes its form and maintains flexibility while increasing the contact area.

Since the indoor floor-shaped silicon dolomite kneaded body 100 (100F) has flexibility, when pressed by a foot, the contact area of the surface of the indoor floor-shaped silicon dolomite kneaded body 100 (100F) with the sole surface. Increases. Even in this state, the indoor floor-shaped silicon dolomite kneaded body 100 (100F) retains its flexibility while changing its form.
The indoor floor-shaped silicon dolomite kneaded body 100 (100F) kills virus bacteria adhering to the sole of the foot by contact with the sole due to its antibacterial performance. As a result, the virus attached to the sole of the foot has been removed from the foot.

When an external force is applied, the contact area of the surface of the indoor floor-shaped silicon dolomite kneaded body 100 (100F) with the sole of the foot increases, so that the virus adhering to the foot is effectively removed.
Since the indoor floor-shaped silicon dolomite kneaded body 100 (100F) has flexibility, it can be restored to the original rod shape by applying an external force, and can be used repeatedly.
It can be used in an environment that is not convenient due to the use of wash water, and the sterilization operation can be performed, for example, when watching TV indoors.

In FIG. 9 (c), the flexible antiviral vehicle interior floor-shaped silicon dolomite kneaded body 100 (100G) is placed on a plate provided with a decorative skirt 53 around it. The floor-shaped silicon dolomite kneaded body 100 (100G) in an automobile car has a shape similar to that of a floor board in an automobile car, and is composed of a kneaded material of silicon material and dolomite. When the surface portion (surface) of the one-sided exposure is composed and the surface portion of the outside-exposed dolomite exhibits antiviral properties, and the shoe 54 is placed and pressed as shown in FIG. 9 (d), the shoe 54 is placed and pressed. It changes shape and retains flexibility while increasing the contact area.
Since the floor-shaped silicon dolomite kneaded body 100 (100G) in the car has flexibility, when pressed by a foot, the contact area of the surface of the floor-shaped kneaded body 100 (100G) in the car with the sole surface is increased. Increase. Even in this state, the floor-shaped silicon dolomite kneaded body 100 (100G) in the automobile vehicle retains its flexibility while changing its form.

The floor-shaped silicon dolomite kneaded body 100 (100G) in an automobile car kills virus bacteria adhering to the sole of the foot by contact with the sole due to its antibacterial performance. As a result, the virus attached to the sole of the foot has been removed from the foot.
When an external force is applied, the contact area of the surface of the floor-shaped silicon dolomite kneaded body 100 (100G) in the automobile vehicle with the sole of the foot increases, so that the virus adhering to the foot is effectively removed.

Since the floor-shaped silicon dolomite kneaded body 100 (100G) in an automobile has flexibility, it can be returned to the original rod shape by applying an external force, and can be used repeatedly.
It can be used in an environment that is not convenient due to the use of wash water, and the sterilization operation can be performed, for example, when riding on the side of a driver in a car.

As described above, it is an indoor floor mat or a car interior floor mat-like silicon-dromite kneaded body containing a silicon material as a main component and a dolomite as a sub-component.
The whole is in a form similar to an interior floor mat or a floor mat in an automobile, and is composed of a silicon material as a main component and a dolomite as a sub component, which exhibits antiviral properties, and is mixed and kneaded with the silicon material and the dolomite. When the kneaded product is produced and the surface is pressed by contact with the human foot or shoe, the flexibility is maintained and the contact area with the human foot or shoe is increased as compared with that before the pressing action. An interior floor mat for contact or a floor mat-like kneaded body in an automobile is formed on a flexible antiviral human foot or shoe.

As described above, it is a method for forming a silicon-dromite kneaded body containing a silicon material as a main component and dromite as a sub-component.
When a silicon material as a main component and a dolomite as a sub-component are prepared as a kneading material to exhibit antiviral properties, the silicon material and the dolomite are kneaded, and the surface is pressed by contact with a pressing body, for example, the palm. A flexible antiviral press, eg, for contact with the palm, which retains flexibility and forms a kneaded body in which the contact area of the surface with the palm is increased as compared to before the pressing action. A method for forming a silicon dolomite kneaded body is formed.

In addition, the silicon dolomite kneaded body is put into a mold to form the whole into a shape similar to a ball, a rod or a plate, and the shape of the ball, the rod or the plate is maintained and flexibility is maintained while changing the overall shape. Flexible antiviral properties characterized by forming a kneaded body that holds and is in contact with the palm and the contact area of the surface with the palm is increased as compared to before the pressing action when the surface is pressed. A method for forming a ball-shaped, rod-shaped or plate-shaped silicon dolomite kneaded body for contact is formed on the palm of the hand.

In addition, the silicon dolomite kneaded body is put into a mold, and the whole is formed into a shape similar to a doorknob, and the flexibility is maintained while changing the shape of the outer shape. A method for forming a flexible antiviral doorknob-coated kneaded body is formed, which comprises forming a kneaded body in which the contact area with the palm of the hand is increased as compared with that before the pressing action.

In addition, the silicon dolomite kneaded body is put into a mold to form the whole into a shape similar to a mobile phone, and while changing the outer shape, the whole retains a shape similar to a mobile phone and retains flexibility, and palm contact. A flexible, antiviral mobile phone-coated silicon dolomite, characterized in that when the surface is pressed, the contact area of the surface with the palm increases as compared to before the pressing action. A method of forming the kneaded body is formed.

In order to fully exert the antiviral effect, it is preferable to increase the surface area of the product in which the dolomite component is exposed more than the surface of the molded product, but the function of contacting the palm for a long period of time is provided. In order to develop it, it is indispensable to form a silicon dolomite kneaded product and secure the holding power.

FIG. 10 is a diagram showing experimental results showing that a silicon dolomite kneaded body can be formed and a holding force can be secured. The experiment was carried out by the Patent Applicant using the facilities and equipment of the Patent Applicant, and commercially available low hardness silicon raw materials and dolomite powder were used. The temperature used in the laboratory was room temperature. A general measuring instrument was used.

<Experimental content>
Experiment showing an example in which the holding power could be secured when the dolomite powder was mixed and kneaded during the kneading of the silicon raw material 1) 200 g of the dolomite powder was mixed and kneaded with 1000 g of the silicon raw material (dolomite content 17%).
A kneaded body was formed, and sufficient holding power could be secured.
2) 400 g of dolomite powder is mixed and kneaded with 1000 g of silicon raw material (dromite content 28.6%).
A kneaded body was formed, and sufficient holding power could be secured.
3) 600 g of dolomite powder is mixed and kneaded with 1000 g of a silicon raw material (dromite content 37.5%).
A silicon dolomite kneaded body was formed, and sufficient holding power could be secured.

From these experimental results, it is possible to form a kneaded product and obtain a product having a sufficient holding power by mixing and mixing the dolomite amount in the range of 0.2 to 0.6 with respect to the unit weight of the silicon raw material. ..
When the kneading was performed when the amount of dolomite exceeded 0.6, the kneading was possible, but the kneading work required a considerable amount of work, the holding force was weakened at the time of molding, and a phenomenon of easy cutting was observed. Forming ball-shaped, rod-shaped or plate-shaped silicon dolomite kneaded bodies by mixing and kneading with a dolomite amount exceeding 0.6 and changing the overall form is to retain those forms and dolomites with flexibility. It became inferior in sex. If the amount of dolomite is less than 0.20, it is difficult to develop antiviral properties.

The content of the antiviral component, that is, dolomite in the silicon dolomite kneading material is preferably 0.3 or more and less than 0.5% when a low hardness silicon raw material is used.
In forming the silicon / dolomite kneading material 24, if necessary, not only calcium carbonate and magnesium carbonate, but also a third component, which is a main chemical component consisting of calcium carbonate, magnesium carbonate, magnesium oxide, calcium hydroxide and magnesium hydroxide, is used as a third component. Can be contained as.

From these facts, it is a silicon-dromite kneading material containing a silicon material as a main component and a dolomite as a sub-component.
The kneaded material is composed of a silicon material as a main component and a dolomite as a sub component, and exhibits antiviral properties. The dolomite is 0.2-0.6, preferably 0.3-0. A kneaded material that is in a state of being mixed and kneaded in the range of 5, retains flexibility, is in contact with the palm, and when the surface is pressed, the contact area of the surface with the palm increases compared to before the pressing action. Provided is an antibacterial silicone dolomite kneading material, which is characterized by being present.

According to this embodiment
It is possible to provide a silicone dolomite kneading material or a silicone dolomite kneading material which is effective in contact with the palm, for example, for a flexible antiviral hand contact exhibiting antiviral properties.

A flexible material that can increase the contact area is used to improve the antibacterial performance of dolomite, for example, it can be used for the purpose of removing various viruses attached to the palm, for example, of flexibility. It forms a certain anti-virus ball-like body, rod-like body or plate-like body, can be held by hand even during activities in the external environment, effectively removes various viruses attached to the palm, and effectively prevents virus infection. It can be done.

As a result, it is possible to effectively prevent infection by various viruses even during external activities. For example, it can be applied to the formation of a ball-shaped, rod-shaped or plate-shaped silicon dolomite kneaded body for a flexible antiviral hand containing an antiviral agent derived from dolomite as a mineral raw material.

1 ... Mixer, 2 ... Horizontally placed cylindrical kneading cylinder, 3 ... Silicon material input port provided on the upstream side, which is the inlet side of the kneading cylinder 2, 4 ... Provided on the outlet side of the kneading cylinder 2. Silicon dolomite kneading material take-out port (referred to as kneaded material take-out port), 5 ... Rotating shaft installed laterally inside the kneading cylinder 2, 6 ... Stirring screw provided around the rotating shaft, 7 ... Stirring Feed blades provided on the upstream side of the screw 6, 8 ... Feed blades provided on the downstream side of the stirring screw 6, 9 ... Motor as a drive source for applying a rotational force to the rotating shaft 5, 10 ... Derived from dolomite as a mineral raw material. Anti-virus agent input port for charging the anti-virus agent, 11 ... Anti-virus agent input pipe, 21 ... Transport part, 22 ... Kneading part, 23 ... Transport part, 24 ... Silicon dolomite kneading material (called kneading material) ), 25 ... Silicon dolomite kneaded body (referred to as kneaded body), 31 ... Mold, 32 ... Indentation, 40 ... Palm, 42 ... Cylindrical part, 52 ... Bag-shaped part, 100 (100A, 100B, 100C, 100D) , 100E, 100F, 100G) ... Flexible anti-virus hand contact ball, rod, plate door knob coated silicon dolomite kneaded body or mobile phone coated silicon dolomite kneaded body.

The present invention is kneaded material or kneading body made of a silicon-burnt dolomite hydrate, ball-like, kneading body made of rod-like or plate-like silicon burnt dolomite hydrate, silicon calcined dolomite hydrate covering the doorknob The present invention relates to a kneaded body made of, a kneaded body made of silicon / calcined dolomite hydrate for coating a mobile phone, and a kneaded material or kneaded body made of silicon / calcined dolomite hydrate.

The present invention is a calcined dolomite hydrate antiviral agent is hydrated calcined from dolomite, kneading material consists burnt dolomite hydrate silicon material and subcomponents of the main component, prior Symbol silicon material and Provided is a kneaded material or a kneaded product made of silicon / calcined dolomite hydrate exhibiting antiviral properties in a state in which the calcined dolomite hydrate is mixed and kneaded.
In the present invention, it is not sufficient to simply add and mix the kneading material, and the calcined dolomite hydrate, which is powdery and solid, is mixed and kneaded with the flexible and solid silicon material, and the dolomite silicon material is mixed and kneaded. A kneaded material made of silicon calcined dolomite hydrate with enhanced holding power is formed.

The kneaded material composed of the produced silicon and calcined dolomite hydrate exhibits antiviral properties and is flexible in contact with the pressing body, and when the surface is pressed, the contact area of the surface with the pressing body is pressed. Increases compared to before action.
Kneading body made of silicon burnt dolomite hydrate from the kneading material made of the silicon-burnt dolomite hydrate is produced. Kneading body made of silicon burnt dolomite hydrate has a kneading member and the same performance consisting of silicon burnt dolomite hydrate exhibits an independent molded product form has a volume corresponding to the application.

The silicon material and the calcined dolomite hydrate are kneaded to produce a kneaded product having antiviral properties , contacting a pressing body to maintain flexibility, and having a volume suitable for the intended use. The kneaded material is cut into pieces according to the intended use to form a kneaded product made of appropriate silicon / calcined dolomite hydrate.
In forming a kneaded product composed of silicon and calcined dolomite hydrate , use a silicon material as a flexible material that can be easily and always held as a main component, and the content of calcined dolomite hydrate , that is, calcined dolomite hydration. Considering that the ratio of the content of the antiviral agent consisting of the substance is increased, and that the content of the calcined dolomite hydrate , that is, the content of the antiviral agent is increased, the silicon material is reliably retained. There is a need to.

The produced kneaded product made of silicon / calcined dolomite hydrate can be used for the purpose of removing various viruses adhering to the pressed body. For example, a flexible antiviral ball, rod or plate can be formed, and various viruses attached to the palm can be effectively removed even during activities in the external environment to effectively prevent virus infection. It becomes possible to do so.

The present invention relates to a mixed kneaded material consisting of an antiviral agent from dolomite of the silicon material and the subcomponent of the main component,
The kneading material is made of burnt dolomite hydrate silicon material and subcomponents of the main component, the silicon material and the conditions near said burnt dolomite hydrate is mixed and kneaded, exhibit anti-viral, pressing body Provided is an antibacterial silicone dolomite kneading material, which is a kneaded product that retains flexibility in contact with a virus.
The present invention provides a kneaded product made of silicon and calcined dolomite hydrate.
The present invention provides a method for forming a kneading material composed of silicon and calcined dolomite hydrate. The kneaded material composed of silicon / calcined dolomite hydrate can be read as a silicon / dolomite kneaded product.

According to the present invention exhibit anti-viral, in flexibility, consisting pressing body, for example, kneading material or silicon-burnt dolomite hydrate in contact with the palm made of silicon and sintering dolomite hydrate is effective kneading Can provide the body.

Since the ball-shaped silicon dolomite kneaded body 100 (100A) has flexibility, it is gripped by the palm, and when pressed, the surface of the ball-shaped silicon dolomite kneaded body 100 (100A) for contact with the palm. The contact area with the palm is increased as compared with the contact area before pressing. Anti-viral activity area is increased. Even in this state, the ball-shaped silicon dolomite kneaded product 100 (100A) retains its flexibility while changing its overall shape and fits in the palm of the hand.

The ball-shaped silicon dolomite kneaded product 100 (100A) kills virus bacteria adhering to the palm by contact with the palm due to its antiviral performance with an increased antibacterial area. As a result, the virus attached to the palm has been removed from the palm.
When a force is applied from outside, the contact area of the surface of the palm of the ball-shaped silicon dolomite kneading member for contact with the hand flat 100 (100A) increases, to remove the virus attached to the palm from the palm it is effectively made.

Since the rod-shaped silicon dolomite kneaded product 100 (100B) has flexibility, it can be restored to the original rod shape by applying an external force, and can be used repeatedly.
It can be used even in an environment where there is no convenience of washing water, and it is possible to perform an operation of immediately removing the virus , for example, when riding on a train and being caught by a strap, while riding or getting off.

Plate-shaped silicon dolomite kneaded body 100 (100C) is in contact with the palm by its antiviral properties, it kills the virus attached to the palm. As a result, the virus attached to the palm has been removed from the palm.

When a force is applied from outside, the contact area of the plate-like silicon dolomite kneaded body 100 (100C) surface of the palm is increased, it is effectively made for removing from palm viruses adhering to the palm NS.
Since the plate-shaped silicon dolomite kneaded product 100 (100C) has flexibility, it can be restored to the original rod shape by applying an external force, and can be used repeatedly.

It can be used even in an environment that is not convenient due to the use of wash water, and it is possible to perform an operation of immediately removing the virus , for example, when riding on a train and being caught by a strap, while riding or getting off.

FIG. 7 is a diagram showing a doorknob-coated silicone dolomite kneaded product, which is a molded product that is effective in contact with a flexible antiviral palm.
In the case of this example, the doorknob-covered kneaded body has a tubular shape that is thin in the longitudinal direction. With the cylindrical portion, it can be expected antiviral ability to remove viruses palm attached in virus removal and outer door knob surface in the inner.

Doorknob coated silicon dolomite kneaded body 100 (100D) is the contact to the palm by its antiviral properties, it kills the virus attached to the palm. As a result, the virus attached to the palm has been removed from the palm.
When an external force is applied, the contact area of the surface of the doorknob-coated silicon dolomite kneaded body 100 (100D) with the palm is increased, so that the virus attached to the palm is effectively removed from the palm.

Since the doorknob-coated silicon dolomite kneaded product 100 (100D) has flexibility, it can be restored to its original shape by applying an external force, and can be used repeatedly.
It can be used even in an environment where there is no convenience of washing water, and it is possible to perform an operation of immediately removing the virus , for example, when riding on a train and being caught by a strap, while riding or getting off.

FIG. 8 (a) shows an anti-virus mobile phone-coated kneaded product, and FIG. 8 (b) shows an example of a mobile phone to which the formed mobile phone-coated silicon dolomite kneaded product 100 (100E) is mounted. show.
The mold 31 shown in FIG. 3 (e) is used to form a flexible antiviral mobile phone coated silicone dolomite kneaded body 100 (100E).
The mobile phone-coated kneaded body 100 (100E) has a volume used for palm contact, and has a bag-shaped portion 52 that allows the mobile phone to be stored together with the mobile phone cover. By forming the bag-shaped portion, antiviral performance can be expected to sterilize the virus on the surface of the mobile phone on the inside and remove the virus attached to the palm on the outside.

When a force is applied from outside, the contact area of the palm of the mobile phone coated silicon dolomite kneaded body 100 (100E) surface increases, it is made effective to remove viruses adhering to the palm from the palm NS.
Since the mobile phone coated silicon dolomite kneaded product 100 (100E) has flexibility, it can be returned to its original shape by applying an external force and can be used repeatedly.

It can be used even in an environment that is not convenient due to the use of wash water, and it is possible to perform an operation of immediately removing the virus , for example, when riding on a train and being caught by a strap, while riding or getting off.
Since the mobile phone is held in the palm of the hand, it is recommended that the size of the mobile phone-coated silicon dolomite kneaded product 100 (100E) is about 10 to 20% of the size of the mobile phone. Contact with the mobile phone coated silicone dolomite kneaded body 100 (100E) means that it is within a size range that can be grasped by the palm of the hand.

When an external force is applied, the contact area of the surface of the indoor floor-shaped silicon dolomite kneaded body 100 (100F) with the sole of the foot increases, so that the virus adhering to the foot is effectively removed.
Since the indoor floor-shaped silicon dolomite kneaded body 100 (100F) has flexibility, it can be restored to the original rod shape by applying an external force, and can be used repeatedly.
It can be used in an environment that is not convenient for the use of wash water, and can be operated to remove a virus, for example, when watching TV indoors.

Since the floor-shaped silicon dolomite kneaded body 100 (100G) in an automobile has flexibility, it can be returned to the original rod shape by applying an external force, and can be used repeatedly.
It can be used in an environment that is not convenient for the use of wash water, and it is possible to perform an operation for removing a virus, for example, when riding on the side of a driver in a car.

The present invention is an antiviral kneaded product formed from a kneaded material composed of a silicon material as a main component and an antiviral agent derived from dolomite as a sub component.
It is a calcined dolomite hydrate obtained by calcining and hydrating the antiviral agent derived from the dolomite, and the silicon material is silicone rubber, which contains silicone rubber as a main component and calcined dolomite hydrate as a sub component. Silicone rubber and the calcined dolomite hydrate are kneaded and exhibit antiviral properties. When the surface is pressed in contact with the pressing body, the flexibility is maintained and the pressed body on the surface is pressed. Provided is a kneaded body in which the contact area of is increased as compared with that before the pressing action. The present invention also provides a method for forming the kneaded product.

According to the present invention, it is a flexible antiviral property exhibiting antiviral property, and it is in contact with a pressing body, for example, the palm, and retains flexibility, and the contact area of the surface with the pressing body acts as a pressing force. it is possible to provide a Oh Cie amplicon dolomite kneaded body effect which increases than before.

Claims (8)

A silicon-dromite kneading material containing silicon as the main component and dolomite as a sub-ingredient.
When the kneaded material is composed of a silicon material as a main component and a dolomite as a sub component, exhibits antiviral properties, and the silicon material and the dolomite are in a mixed and kneaded state, and the surface is pressed in contact with a pressing body, A silicon-dromite kneaded material, which is a silicon-dromite kneaded material that retains flexibility and increases the contact area of the surface with the pressing body as compared with that before the pressing action. A silicon-dromite kneaded body containing a silicon material as a main component and a dolomite as a sub-ingredient.
When the kneaded material is composed of a silicon material as a main component and a dolomite as a sub component, exhibits antiviral properties, and the silicon material and the dolomite are in a mixed and kneaded state, and the surface is pressed in contact with a pressing body, A silicon-dromite kneaded body, which is a silicon-dromite kneaded body that retains flexibility and increases the contact area of the surface with the pressing body as compared with that before the pressing action. A ball-shaped, rod-shaped or plate-shaped silicon-dromite kneaded body containing a silicon material as a main component and a dolomite as a sub-component.
The whole was formed in a form similar to a ball, a rod or a plate, and the kneaded material was composed of a silicon material as a main component and a dolomite as a sub component, exhibited antiviral properties, and was produced by a mixed kneading of the silicon material and the dolomite. A ball-shaped body, which becomes a kneaded body and retains its flexibility when it comes into contact with a human hand and the surface is pressed, and the contact area with the human palm is increased as compared with that before the pressing action. Rod-shaped or plate-shaped silicon dolomite kneaded body. A doorknob-coated silicon-dromite kneaded body containing a silicon material as a main component and a dolomite as a sub-component.
The whole has a shape similar to a doorknob, and the kneaded material is composed of a silicon material as a main component and a dolomite as a sub component, exhibits antiviral properties, and becomes a kneaded body produced by a mixed kneading of the silicon material and the dolomite. The kneaded body has a doorknob storage space for being fitted into the doorknob, and when the doorknob is stored in contact with a human hand and the surface is pressed, the flexibility is maintained and the contact area with the human palm is maintained. A doorknob-coated silicon dolomite kneaded body characterized by an increase in the amount of pressure compared to before the pressing action. A mobile phone-coated silicon-dromite kneaded body containing a silicon material as a main component and a dolomite as a sub-component.
The whole is in a form similar to that of a mobile phone, and the kneaded material is composed of a silicon material as a main component and a dolomite as a sub component, and exhibits antiviral properties. The kneaded body has a bag-shaped portion that allows the mobile phone to be stored together with the mobile phone cover to store the mobile phone, and when the surface is pressed by contact with a human hand, the flexibility is maintained. However, the mobile phone-coated silicon dolomite kneaded body is characterized in that the contact area with the human palm is increased as compared with that before the pressing action. An indoor floor mat-like or car interior floor mat-like silicon-dromite kneaded body containing a silicon material as a main component and a dolomite as a sub-ingredient.
The whole is in a form similar to an interior floor mat or a floor mat in an automobile, and is composed of a silicon material as a main component and a dolomite as a sub component, which exhibits antiviral properties, and is mixed and kneaded with the silicon material and the dolomite. When the kneaded product is produced and the surface is pressed by contact with the human foot or shoe, the flexibility is maintained and the contact area with the human foot or shoe is increased as compared with that before the pressing action. An indoor floor mat-like or car interior floor mat-like silicon dolomite kneaded body. It is a method for forming a silicon-dromite kneading material containing a silicon material as a main component and a dolomite as a sub-component.
A silicon material as a main component and a dolomite as a sub-component are prepared as a kneading material to exhibit antiviral properties. A method for forming a silicon-dromite kneaded material, which comprises forming a silicon-dromite kneaded material that is held and the contact area of the surface with the pressing body is increased as compared with that before the pressing action. It is a method for forming a silicon-dromite kneaded body containing a silicon material as a main component and a dolomite as a sub-component.
A silicon dolomite kneaded material according to claim 7, wherein a silicon dolomite kneaded material is produced, and a silicon dolomite kneaded body is formed from the silicon dolomite kneaded material. Forming method.

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