JPH04135261U - cleaner - Google Patents

Abstract

(57) [Abstract] [Objective] To provide a cleaner that can completely wipe away dirt from all kinds of things without damaging them using one cleaner. [Construction] Microfibers made of two types of thermoplastic synthetic fibers that are divided and have an acute cross-sectional shape, are incompatible with each other, and have different melting points are intertwined and integrated, and a portion of microfibers with a low melting point is used. It is made by integrally bonding a soft foam resin molded product to one side of a nonwoven fabric obtained by bonding high melting point microfibers or bonding low melting point microfibers together by thermally fusing them, Even minute dirt can be removed very easily on the surface of the nonwoven fabric, and at the same time there is no risk of damaging the surface of the object to be cleaned. Moreover,
By using it properly with the surface of soft foam resin molding material, it can be used to remove dirt on the fine surface of inorganic materials, organic materials that are easily scratched,
It is suitable for many fields such as removing dirt from surfaces with uneven surfaces and delicate surfaces such as human skin.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

The present invention relates to a cleaner used in the field of multi-purpose cleaning.

0002

[Conventional technology]

Traditionally, flexible foam resin molding materials such as urethane foam have rigidity on one side. Cleaners that are impregnated with hydrophobic synthetic fibers, etc. are well known and widely used. It is used.

0003

[Problem that the idea aims to solve]

However, these cleaners do not remove stubborn dirt that is hard to remove when cleaning. Scrape off with a strong fiber layer, and use soft foam resin molding for easily scratched items. It is used for cleaning with a fiber layer, but when cleaning with a fiber layer, a highly rigid Although it is easily scratched due to the use of fine fibers, it is difficult to remove fine dirt and oily stains. The reality is that furniture and fixtures that are hard to get scratched and that do not cause much trouble even if they get scratched. When cleaning pots, pots, etc., most people use detergent in combination.

0004 Therefore, for items that easily get scratched or items that are difficult to use in combination with detergents, etc., please be sure to Currently, cleaners specific to the application are used.

[0005] The present invention provides a cleaner that is free from such problems and can be used for multiple purposes. This is the issue.

[0006]

[Means to solve the problem]

The gist of the present invention is that the materials have an acute cross-sectional shape, are mutually incompatible, and have a difference in melting point. Split microfibers made of two types of thermoplastic synthetic fibers are intertwined and integrated. Low melting point microfibers are partially heat fused to form high melting point microfibers. One side of the non-woven fabric is bonded with a bar or low melting point microfibers. A cleaner characterized by being formed by integrally bonding high-quality foamed resin moldings. .

[0007]

[Effect]

Non-woven fabric surface with intertwined and integrated split microfibers with an acute cross-sectional shape can have any surface shape and hardness due to its fiber flexibility and specific cross-sectional shape. To reliably wipe away dirt from objects to be cleaned. Use the soft foam resin molding material on the other side. This makes it possible to apply it in multiple fields.

[0008]

【Example】

Hereinafter, embodiments of the present invention will be described in detail based on the drawings. FIG. 1 is a side view schematically showing an example of the cleaner of the present invention, and 1 is a side view showing an example of the cleaner of the present invention. Woven fabric, 2 indicates a soft foam resin molded material.

[0009] The nonwoven fabric 1 is made by dividing splittable composite fibers individually and fibrillating them, and at the same time forming a fiber phase. It is obtained by intertwining and heat-treating the microfibers with a high melting point. The bar and low melting point microfibers are intertwined and integrated, and Each microfiber has an acute cross-sectional shape due to division. and low The melting point microfibers are partially high melting point microfibers or low melting point microfibers. The points are heat-sealed at the intersections with the microfibers.

0010 The nonwoven fabric of this invention has an acute cross-sectional shape, is mutually incompatible, and "Split microfiber" made of two types of thermoplastic synthetic fibers with different melting points. Materials include polypropylene and polyester, nylon and polyester, and nylon. Lipophilic thermoplastic synthetic fibers such as polypropylene and polypropylene are used. Also, split The fineness of the microfibers is preferably 0.5 denier or less. and more preferably 0.3 denier or less. The fineness increases as the fineness increases. This is not preferable because it increases the roughness and hardness of the fibers and reduces the wiper effect.

[0011] The basis weight of the nonwoven fabric is not limited as long as it is set appropriately.

0012 As the soft foam resin molding material 2, urethane, which is generally called "sponge", is used. It is sufficient to use conventionally used materials such as foam, and in terms of performance, soft Any material is sufficient as long as it is like this and allows detergent etc. to sufficiently penetrate inside.

[0013] Examples of manufacturing methods for the microfiber nonwoven fabric used in the wiper of this invention include: For example, if a polyolefin component and a polyester component are one component in the fiber cross section, component is separated by the other component into successive layers along the length of the fiber. The splittable composite fibers are split and fibrillated using a needle-shaped high-pressure liquid flow. At the same time, the fibers are intertwined and integrated, and then heated and/or pressurized to separate them. Low melting point microfibers are made by thermally fusing split low melting point microfibers. The interaction of fiber with high melting point microfiber and low melting point microfiber Obtained by joining at the difference.

[0014] In this case, splitting and fibrillation are not necessarily complete for the entire splittable composite fiber. There is no need to apply it, and the degree of splitting and fibrillation can be set as appropriate depending on the purpose. . The degree of heating and pressurization can be similarly set appropriately.

[0015] The thus obtained nonwoven fabric 1 and the soft foamed resin molded material 2 are bonded in a conventional manner. As shown, one side of the soft foam resin molding material 2 is heated and melted, and while it is in the molten state. What is necessary is just to laminate the nonwoven fabric 1 on and join them. By not using adhesive for joining, it is easy to use. It is advantageous in that the adhesive does not fall off during use and can be used for multiple purposes. In addition, soft The foam resin molding material 2 is bonded and integrated by directly foam molding on one side of the nonwoven fabric 1. You can also

[0016]

[Effect of the idea]

As is clear from the above explanation, the cleaner of the present invention has an acute-angled cross section on one side. Because it is made of non-woven fabric made of microfibers with Dirt can be removed extremely easily, and at the same time, it does not damage the surface of the object to be cleaned. There is no risk of it falling off. Moreover, by using the surface of soft foam resin molding material properly, from microscopic dirt on inorganic surfaces such as glass and metal to plastic surfaces. organic materials that are easily scratched, materials with uneven surfaces, and even human skin. It is suitable for many applications such as removing dirt from delicate surfaces. The effect is large.

[Brief explanation of drawings]

FIG. 1 is a side view schematically showing an example of the cleaner of the present invention.

[Explanation of symbols]

1 Non-woven fabric 2 Soft foam resin molding material

Claims (1)

[Scope of utility model registration request] Claim 1: Split microfibers made of two types of thermoplastic synthetic fibers that have an acute cross-sectional shape, are mutually incompatible, and have different melting points are intertwined and integrated, and the low melting point microfibers are partially A cleaner characterized in that a soft foamed resin molded material is integrally bonded to one side of a nonwoven fabric formed by heat-sealing and bonding high melting point microfibers or low melting point microfibers to each other.