JP6057686B2 - Eraser - Google Patents

Description

  The present invention relates to an eraser that is excellent in erasability of writing lines such as pencils and mechanical pencils and has no erase residue.

  In general, erasers such as pencils and mechanical pencils for erasing written lines are mainly composed of rubber materials such as natural rubber and synthetic rubber, and plastic resins such as vinyl chloride. Known from plastics, etc. Also known from the shape as a regular rectangular parallelepiped, polygonal shapes suitable for corners, etc., and further in the base material as improving the erasability of writing lines What mix | blended various abrasives, an inorganic substance, etc. is known.

In the conventional eraser, as an eraser that is excellent in erasability and easy to discard the erasure residue generated at the time of erasure, as an eraser that improves the cohesiveness of the erasure residue, for example, 100 parts by weight of a styrene-based thermoplastic elastomer Further, an eraser (for example, see Patent Document 1) is known which is formed by blending 5 to 400 parts by weight of polyisoprene having a weight average molecular weight of 5,000 to 300,000 and 100 to 1,000 parts by weight of a filler.
However, since erase scraps remain in the eraser with the above eraser, it is necessary to collect and dispose of even erase scraps that have good cohesiveness. was there.
In recent years, living learning has been recommended, but the eraser on the table cannot be wiped off with a cloth, which is undesirable from the standpoint of hygiene.

  As a solution to this problem, for example, a erasing member made of a non-wear material, specifically a sphere that adheres to the pencil core wear powder and does not wear itself by rubbing with paper, 2. Description of the Related Art An erasing tool (see, for example, Patent Document 2) is known in which a cylindrical erasing member is disposed so as to be rotatable.

  However, in the eraser according to this patent document 2, as described in the examples, the handwriting drawn on the paper surface is erased by rotating the wear powder of the pencil core on the surface of the spherical or cylindrical eraser member. Since it adheres, if the adhesion area is small, the handwriting cannot be adhered after several erasures, and the paper surface is stained. Also, if the area to be attached to the surface of the erasing member is increased, the size of the erasing member that becomes a sphere or a cylinder is increased, so that it is difficult to accurately erase fine parts. is there. Furthermore, the blending composition of the eraser member is such that liquid paraffin is blended with a thermoplastic elastomer, or a plasticizer or stabilizer is blended with a vinyl chloride resin. .

JP 2001-96984 A (Claims, Examples, etc.) Japanese Patent Laying-Open No. 2005-219397 (Claims, Examples, etc.)

  The present invention has been made in view of the above-mentioned problems of the prior art, and is intended to solve this problem. When erasing a writing line such as a pencil or a mechanical pencil, it can be erased reliably without soiling the paper surface. An object of the present invention is to provide an eraser that does not have an eraser residue.

  As a result of intensive studies in view of the above-described conventional problems, the present inventors have found that the above-mentioned eraser can be obtained by containing those having specific structural characteristics as a blended composition. The present invention has been completed.

That is, this invention exists in following (1)-( 6 ).
(1) An eraser comprising a basic porous magnesium carbonate as a blending composition.
(2) The eraser according to the above (1), wherein the basic magnesium carbonate porous body is particles having a specific surface area of 100 to 500 m ² / g and a liquid absorption rate of 100 to 300 ml / 100 g.
(3) The above basic carbonate magnesium porous body, characterized in that agglomerated particles of the flaky fine crystals (1) or (2) erasing tool according.
( 4 ) The content of the basic magnesium carbonate porous body is 5 to 40% by mass with respect to the total amount of the eraser, as described in any one of (1) to ( 3 ) above Eraser.
( 5 ) The eraser according to any one of (1) to ( 4 ), wherein the eraser further contains a carbon material.
( 6 ) The eraser according to any one of (1) to ( 5 ), wherein the eraser further contains fiber particles.

  ADVANTAGE OF THE INVENTION According to this invention, when erase | eliminating writing lines, such as a pencil and a mechanical pencil, the eraser which can erase | eliminate reliably without soiling a paper surface and does not have an eraser is provided.

It is drawing which shows an example of embodiment of the eraser of this invention, (a) is a partial see-through perspective view at the time of using for a pen-type holder, (b) is a partial perspective view which shows the principal part of the one attachment state. It is.

Hereinafter, embodiments of the present invention will be described in detail.
The eraser of the present invention is characterized by containing a liquid-absorbing porous material as a blended composition.

The liquid-absorbing porous material used in the present invention is composed of a porous material having a large specific surface area and a high liquid absorption rate, and preferably has a specific surface area of 100 to 500 m ² / g. What consists of a particle | grain with a rate of 100-300 ml / 100g is mentioned. The above specific surface area is the specific surface area according to the BET method, and the liquid absorption is the lowest amount of linseed oil that is obtained by dropping linseed oil into a 100 g powder pile to become a trough (flowing state) from the sand dumpling state. Say.
Specific examples of the liquid-absorbing porous material that can be used include basic magnesium carbonate porous material, porous cellulose particles, calcium carbonate and calcium phosphate petal-like porous structure composite, calcium phosphate petal-like porous structure, porous Styrene particles, porous acrylic particles, porous nylon particles, porous silica particles, and the like, and it is desirable to use each liquid-absorbing porous material that satisfies the ranges of the specific surface area and liquid absorption rate.

Among these liquid-absorbing porous bodies, the use of a basic magnesium carbonate porous body is preferred from the standpoints of manufacturability, availability and cost. The basic magnesium carbonate porous body is a tubular aggregated particle made of flaky fine crystals, and the tubular particle preferably has an outer diameter of 1 to 20 μm and a length of 5 to 200 μm.
The basic magnesium carbonate in the present invention is represented by the chemical formula mMgCO ₃ .Mg (OH) ₂ .nH ₂ O, and the values of m and n are not particularly limited, and ordinary basic magnesium carbonate And the value of m is 3 to 5 and the value of n is 3 to 8. In addition, the basic magnesium carbonate tubular particles are not agglomerates in which flaky microcrystals are easily dispersed by simple stirring, environmental changes such as temperature and pH, but are flaky basic magnesium carbonate. Fine crystals are assembled and physically fixed.

The production of this basic magnesium carbonate porous body is known. By using a water-soluble magnesium salt and a water-soluble carbonate in an aqueous solution, basic magnesium carbonate that forms tubular particles of flaky fine crystals is produced. be able to.
As this basic magnesium carbonate porous body, for example, commercially available mug tubes (manufactured by Nippon Steel Mining Co., Ltd.), grades obtained by treating the particle surface with alumina, various fatty acids, etc. can be used.

The content of these liquid-absorbing porous materials is 5 to 40% by mass (hereinafter, “mass%” is simply referred to as “%”), preferably 7 to 20%, based on the total amount of the eraser composition. It is desirable that
When the content is less than 5%, the effect of the present invention is hardly obtained. On the other hand, when the content exceeds 40%, problems occur in the production method such as molding and mixing, which is not preferable.

  In addition to the liquid-absorbent porous material used in the present invention, it is preferable to contain a base material component, a plasticizer, and a filler, and if necessary, various compounding agents used for erasers and the like are blended in desired amounts. Thus, when erasing writing lines such as pencils and mechanical pencils, the paper surface is not soiled and can be erased reliably, and an eraser with no erase residue can be produced. .

The base material component which can be used is not specifically limited, For example, at least 1 sort (s), such as various thermoplastic resins and a synthetic rubber, can be used.
Examples of thermoplastic resins include vinyl chloride resins such as vinyl chloride resins and vinyl chloride vinyl acetate copolymers, acrylic resins such as polymethyl methacrylate, ethylene vinyl acetate copolymers, ethylene acrylic acid copolymers, and polyolefins. And chlorinated polyolefin. Examples of the synthetic rubber include butyl rubber, butadiene rubber, nitrile rubber, nitrile butadiene rubber, and styrene butadiene rubber. As a particularly preferred resin, a vinyl chloride resin is exemplified.

Specific examples of vinyl chloride resins that can be suitably used include the Kane vinyl series (manufactured by Kaneka), the vinyla series (manufactured by Mitsubishi Kasei Vinyl), and the Leuron paste series (homopolymers and copolymers: Tosoh) as polyvinyl chloride. These may be used alone or in combination of two or more.
The content of these base material components is preferably 20 to 60% with respect to the total amount of the eraser composition.

  The plasticizer that can be used is not particularly limited as long as it is a plasticizer that can plasticize or gel the contained thermoplastic resin. For example, dioctyl phthalate (DOP, dioctyl phthalate), adipine Examples include dioctyl acid (DOA), dioctyl sebacate (DOS), butyl sebacate (DBS), dimethyl phthalate (DMP), and dihexyl phthalate. These are preferably based on the total amount of the eraser composition, It is desirable to contain 5-40%.

The filler that can be used is not particularly limited as long as it is not a substance that dissolves or reacts with vinyl chloride or a plasticizer. For example, calcium carbonate, magnesium carbonate, magnesium oxide other than the liquid-absorbing porous material is used. , Silica, talc, clay, diatomaceous earth, quartz powder, alumina, alumina silicate, mica, sericanite, montmorillonite, and the like, preferably 5 to 50% based on the total amount of the eraser composition. It is desirable.
In particular, these fillers preferably have an average particle size of 10 to 200 nm in terms of erasability, strength and lubricity. In addition, the average particle diameter in the present invention (including examples and the like to be described later) refers to an average diameter that is bulked from the measurement result in the laser diffraction / scattering method. For example, in calcium carbonate, Microtrac (Nikkiso Co., Ltd.) (3100II) can be used for dry measurement.

In the eraser of the present invention, it is preferable to contain a carbon material from the viewpoint of further improving the erasing power, improving the erasing comfort, and suppressing deformation, and from the viewpoint of erasing power and suppressing deformation, it is possible to include fiber particles. It is desirable.
Examples of the carbon material that can be used include at least one of carbon black, carbon fiber, graphite, carbon nanofiber, and the like. It is desirable to contain. It is preferable to use a carbon material having a maximum size (particle size or diameter) of 20 μm or less.

  Examples of fiber particles that can be used include at least one fiber particle such as polyethylene fiber, cellulose fiber, aramid fiber, vinylon fiber, polyamide fiber, polyester fiber, and glass fiber. Preferably, it is 1 to 20% based on the total amount of the composition. These fiber particles preferably have a diameter of 20 μm or less at maximum.

Further, if necessary, various stabilizers such as a heat stabilizer such as Ca-Zn stearate can be used to prevent deterioration of the base material component (particularly vinyl chloride resin) at high temperature. . Further, viscosity adjusting agents, lubricants, solvents, colorants, ultraviolet absorbers, preservatives, antifungal agents, fragrances and the like can be blended in appropriate amounts.
Further, when rubber or elastomer is used as the base component, for example, softeners, vulcanizing agents, vulcanization accelerators, fillers, anti-aging agents, coloring agents, and the like can be blended in appropriate amounts.

The eraser of the present invention comprises the above-described liquid-absorbent porous material, base material component, plasticizer, filler,
A carbon material, fiber particles, and if necessary, can be prepared by kneading a predetermined amount of each of the above-mentioned various compounding agents by a conventional method, and then molding the material into a preferable shape.
Examples of the shape of the eraser include a rod shape, a rectangular parallelepiped shape, a columnar shape, a prismatic shape, a triangular pyramid shape, a quadrangular pyramid shape, and a fan shape. Can be.
FIG. 1 is a drawing showing an example of an embodiment of the eraser of the present invention, where (a) is a partially transparent perspective view when used in a pen-type holder, and (b) is a perspective view showing one of its attachment states. It is.
In this embodiment, as shown in FIG. 1, three types of erasers having different shapes, for example, each eraser having a circular columnar shape 10a, a triangular pyramid shape 10b, and a square columnar shape 10c are prepared. It can be used as a known double-type pen holder A (extruding mechanism is omitted because it is known) by being fixed to the tip of each holder body 12 mounted in the main body 11 by fitting or the like. In this pen-type holder A, by selecting (extruding) each eraser having three different shapes according to the size of the handwriting that becomes the handwriting line to be erased, etc., the fine parts of the handwriting can be erased. One line can be erased suitably.

The eraser of the present invention can be erased reliably without damaging the paper surface for writing lines such as pencils and mechanical pencils, compared to conventional erasers with erase scraps. Whether or not the wiping residue is eliminated is due to the following action mechanism.
That is, in the erasing tool of the present invention, the liquid-absorbent porous material as a blending composition, for example, by the inclusion of basic carbonate magnesium porous body or the like, the absorbent porous body in rubbing the erasing tool in drawn lines Graphite is adsorbed and erased from the paper surface. The adsorbed graphite is continued by diffusion due to the adsorption capacity of the liquid-absorbing porous material, and the once adsorbed graphite is applied to the paper surface again without causing debris. Therefore, it is possible to erase the image without causing the paper surface to become dirty. Therefore, the eraser of the present invention is excellent in the erasability of the handwritten lines without causing erase scraps. The eraser of the present invention diffuses and accumulates graphite and the like adsorbed every time it is erased. For example, when the color of the eraser is white, each eraser The color of the eraser will increase in blackness.

  Hereinafter, the present invention will be described in more detail with reference to examples and comparative examples, but the present invention is not limited to the following examples.

[Examples 1-7, Comparative Examples 1-3]
Example 1
Magtube (liquid-absorbing porous material, particles in which flaky fine crystals of basic magnesium carbonate are aggregated in a tubular shape, outer diameter 3.5 μm, length 20 μm, inner diameter 1 μm, specific surface area 150 m ² / g, liquid absorption rate 300 ml / 100 g: manufactured by Nippon Steel Mining Co., Ltd.) 10% by mass
Polyvinyl chloride (Anekakane Vinyl PSM-154, manufactured by Kaneka Corporation) 30% by mass
Stearic acid Ca-Zn (stabilizer) 1% by mass
Dioctyl phthalate (plasticizer) 59% by mass
The blended material was mixed with a vacuum mixer to prepare a blended composition (paste). This was cast into a 20 mm thick mold and heated at 150 ° C. for 1 hour while being pressurized at 1 kg / cm ² to obtain an eraser (20 × 45 × 10 mm, the same applies hereinafter).

(Example 2)
An eraser was obtained in the same manner as in Example 1 except that the magtube in Example 1 was 5% by mass and polyvinyl chloride was 35% by mass.

Example 3
An eraser was obtained in the same manner as in Example 1 except that the mug tube in Example 1 was 40% by mass, polyvinyl chloride was 20% by mass, and dioctyl phthalate was 39% by mass.

Example 4
10% by mass of the mug tube of Example 1
Calcium carbonate (NEOLIGHT SS: average particle size 40 nm, manufactured by Takehara Chemical Industries)
10% by mass
Polyvinyl chloride (Kane Vinyl PSM-154, manufactured by Kaneka Corporation) 30% by mass
Stearic acid Ca-Zn (stabilizer) 1% by mass
Dioctyl phthalate (plasticizer) 49% by mass
The above materials were mixed with a vacuum mixer to prepare a blended composition (paste). This was cast into a 20 mm-thick mold and heated at 150 ° C. for 1 hour while being pressurized at 1 kg / cm ² to obtain an eraser.

(Example 5)
15% by mass of the mug tube of Example 1
Carbon fiber (pyrofil: milled fiber, φ7μm, length 1000μm, manufactured by Mitsubishi Rayon Co., Ltd.) 10% by mass
Polyvinyl chloride (Kanevinyl PSM-154, manufactured by Kaneka Corporation) 20% by mass
Stearic acid Ca-Zn (stabilizer) 1% by mass
Dioctyl phthalate (plasticizer) 54% by mass
The above materials were mixed with a vacuum mixer to prepare a blended composition (paste). This was cast into a 20 mm-thick mold and heated at 150 ° C. for 1 hour while being pressurized at 1 kg / cm ² to obtain an eraser.

(Example 6)
15% by mass of the mug tube of Example 1
Glass fiber (manufactured by Nittobo Co., Ltd., glass fiber, φ12 μm, length 3000 μm)
10% by mass
Polyvinyl chloride (Kanevinyl PSM-154, manufactured by Kaneka Corporation) 20% by mass
Stearic acid Ca-Zn (stabilizer) 1% by mass
Dioctyl phthalate (plasticizer) 54% by mass
The above materials were mixed with a vacuum mixer to prepare a blended composition (paste). This was cast into a 20 mm-thick mold and heated at 150 ° C. for 1 hour while being pressurized at 1 kg / cm ² to obtain an eraser.

(Example 7)
15% by mass of the mug tube of Example 1
Polyamide fiber (Toray Industries, nylon, φ10 μm, length 1000 μm) 10% by mass
Polyvinyl chloride (Kanevinyl PSM-154, manufactured by Kaneka Corporation) 20% by mass
Stearic acid Ca-Zn (stabilizer) 1% by mass
Dioctyl phthalate (plasticizer) 54% by mass
The above materials were mixed with a vacuum mixer to prepare a blended composition (paste). This was cast into a 20 mm-thick mold and heated at 150 ° C. for 1 hour while being pressurized at 1 kg / cm ² to obtain an eraser.

(Comparative Example 1)
Calcium carbonate (NS # 2300, NS # 2300 manufactured by Nitto Flour Industry Co., Ltd., average particle size 1 μm) 40% by mass
Polyvinyl chloride (Kane Vinyl PSM-15, manufactured by Kaneka Corporation) 40% by mass
Stearic acid Ca-Zn (stabilizer) 1% by mass
Dioctyl phthalate (plasticizer) 19% by mass
The above materials were mixed with a vacuum mixer to prepare a blended composition (paste). This was cast into a 20 mm-thick mold and heated at 150 ° C. for 1 hour while being pressurized at 1 kg / cm ² to obtain an eraser.

(Comparative Example 2)
Calcium carbonate (NEOLIGHT SS: average particle size 40 nm, manufactured by Takehara Chemical Industries)
40% by mass
Polyvinyl chloride (Kane Vinyl PSM-154, manufactured by Kaneka Corporation) 40% by mass
Stearic acid Ca-Zn (stabilizer) 1% by mass
Dioctyl phthalate (plasticizer) 19% by mass

(Comparative Example 3)
Glass fiber for FRTP (cut length 3mm) 40% by mass
Polyvinyl chloride (Kane Vinyl PSM-154, manufactured by Kaneka Corporation) 40% by mass
Stearic acid Ca-Zn (stabilizer) 1% by mass
Dioctyl phthalate (plasticizer) 19% by mass

About the eraser obtained in the said Examples 1-7 and Comparative Examples 1-3, the erasure | elimination rate, the flow volume change, and the presence or absence of the erased residue were evaluated by each following evaluation method.
These results are shown in Table 1 below.

(Evaluation method of erasure rate)
In accordance with the erasing ability (erasing rate) test of plastic erasing disclosed in JIS S 6050-2008, E (erasing rate: = erasing rate) = (1-M / C) × 100 [M: The erase rate (5 reciprocations) was measured according to the density of the erased part and C: the density of the colored part.

(Evaluation method for weight change, evaluation method for the presence or absence of debris)
The amount of weight change before and after the erasure rate measurement test was measured. When the flow rate is a positive value, it indicates the amount of adsorption, and when the flow rate is a negative value, it is the amount of debris.
Further, the confirmation of the presence or absence of erased debris was confirmed by visual observation of the presence or absence of erased debris during the evaluation of the erasure rate.

  As is clear from the results in Table 1 above, the erasers of Examples 1 to 7 that fall within the scope of the present invention are written on a pencil or the like as compared with the erasers of Comparative Examples 1 to 3 that fall outside the scope of the present invention. It has been found that this is an eraser that has excellent erasability of drawn lines and is also non-erasable.

  It can be suitably used for erasing written lines such as pencils and mechanical pencils.

A Pen type holder 10a, 10b, 10c

Claims (6)

An eraser comprising a basic porous magnesium carbonate as a blending composition. ^2. The eraser according to claim 1, wherein the basic magnesium carbonate porous body is particles having a specific surface area of 100 to 500 m < ² > / g and a liquid absorption rate of 100 to 300 ml / 100 g. Erasing tool according to claim 1 or 2, wherein the basic carbonate magnesium porous body is aggregated particles of the flaky fine crystals. The content of the said basic magnesium carbonate porous body contains 5-40 mass% with respect to a eraser whole quantity, The eraser as described in any one of Claims 1-3 characterized by the above-mentioned. The eraser according to any one of claims 1 to 4 , wherein the eraser further contains a carbon material. The eraser according to any one of claims 1 to 5 , wherein the eraser further contains fiber particles.

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