CN114269199A - Cosmetic, pad for liquid cosmetic, and liquid cosmetic impregnated body - Google Patents

Abstract

The present invention is provided with: a pad (2) impregnated with a liquid cosmetic; and an inner container (4) that houses the pad (2) and has an opening (13) for exposing the upper surface of the pad (2), wherein the inner container (4) includes an inner container body (10) and an inner lid (11), and the pad (2) includes: a pad main body made of a fibrous body having cushioning properties; and a mesh cover which is made of a mesh sheet and wraps the pad main body so as to cover at least the entire upper surface of the pad main body, wherein the mesh cover is locked to the upper surface of the pad main body by wrapping the end portions of the fibers on the upper surface of the pad main body around the mesh cover.

Description

Cosmetic, pad for liquid cosmetic, and liquid cosmetic impregnated body

Technical Field

The present invention relates to a cosmetic product containing a liquid cosmetic such as a liquid foundation, a pad impregnated with a liquid cosmetic, and a liquid cosmetic impregnated body in which a pad is impregnated with a liquid cosmetic.

Background

Fig. 11 shows an example of a conventional cosmetic. A liquid foundation is impregnated into the pad 200. The pad 200 is made of soft sponge. The pad 200 is housed in a container 201. The container 201 has an opening 202. The upper surface of the pad 200 is exposed from the opening 202. By pressing a powder puff, not shown, against the upper surface of the pad 200, the foundation is taken out of the pad 200. However, when the puff is pressed against the pad 200, the foundation easily transfers to the puff in a large amount.

In contrast, patent document 1 listed below proposes a configuration in which a strainer is fixed to a frame of a container so as to be disposed close to an upper surface of a mat. The idea of adjusting the amount of foundation taken out of the pad by this structure is described.

Fig. 12 (a) schematically shows a structure in which the screen 101 is fixed to the frame 100. As shown in fig. 12 (b), when the sieve 101 is pressed downward by using a powder puff (not shown), the sieve 101 deforms downward and the pad 102 deforms. The foundation is transferred from the pad 102 to the puff through the sieve 101. However, the foundation easily escapes to the peripheral portion of the pad 102, and the foundation easily remains on the peripheral portion of the pad 102. In addition, since the screen 101 is fixed to the frame 100, there is a limit to the extension of the screen 101. Therefore, as shown in fig. 12 (c), it is difficult to press the peripheral portion of the pad 102, and it is difficult to take out the foundation remaining on the peripheral portion of the pad 102 using a puff.

Documents of the prior art

Patent document

Patent document 1: japanese laid-open patent publication No. 513987 (Japanese Kohyo) 2015-

Disclosure of Invention

Problems to be solved by the invention

The invention provides a cosmetic, a pad for a liquid cosmetic, and a liquid cosmetic impregnated body, wherein the extraction amount of the liquid cosmetic can be easily adjusted, and the residue of the liquid cosmetic can be reduced.

Means for solving the problems

The cosmetic of the present invention includes a pad and an outer package. The pad is impregnated with a liquid cosmetic. The pad is accommodated in the outer package. The outer package has an opening for exposing the upper surface of the pad. The pad is provided with a pad main body and a mesh cover. The pad main body is made of a fibrous body having cushioning properties. The mesh cover is composed of a mesh sheet. The net cover wraps the pad body. The mesh cover covers at least the entire upper surface of the pad body. The ends of the fibers in the upper surface of the pad body are wrapped around the mesh cover. The net cover is clamped on the upper surface of the pad main body.

According to this structure, the pad main body is made of a fibrous body having cushioning properties. The fibrous body having a cushioning property is less likely to have a liquid cosmetic remaining therein than a sponge. The liquid cosmetic is transferred to the puff or the like through the net-like cover. Therefore, the liquid cosmetic can be prevented from being excessively taken out from the pad main body. Further, since the pad main body is wrapped by the mesh cover, the mesh cover follows the deformation of the pad main body. The pad main body and the mesh cover are deformed integrally, so that the residue of the liquid cosmetic can be reduced. In addition, the ends of the fibers on the upper surface of the pad main body are wrapped around the mesh cover, and the mesh cover is locked to the upper surface of the pad main body. Therefore, the mesh cover is less likely to float from the upper surface of the pad main body, and the mesh cover follows the change in the upper surface of the pad main body. That is, the mesh cover does not separate from the upper surface of the pad main body, and the upper surface of the pad main body and the mesh cover are integrated and deformed or restored. Therefore, the liquid cosmetic can be uniformly attached to the puff, and the residue of the liquid cosmetic is also reduced. Further, since the mesh cover is in close contact with the upper surface of the pad main body, the beauty of the upper surface of the pad is excellent.

Preferably, the mesh cover covers the entire upper surface, the entire side surface, and at least the peripheral edge portion of the lower surface of the pad main body. With this structure, the acquisition amount adjusting function of the mesh cover effectively functions. In addition, the residue of the liquid cosmetic is further reduced.

The pad for liquid cosmetic of the present invention is a pad impregnated with a liquid cosmetic. The pad is provided with a pad main body and a mesh cover. The pad main body is made of a fibrous body having cushioning properties. The mesh cover is composed of a mesh sheet. The net cover wraps the pad body. The mesh cover covers at least the entire upper surface of the pad body. The ends of the fibers in the upper surface of the pad body are wrapped around the mesh cover. The net cover is clamped on the upper surface of the pad main body.

The liquid cosmetic material-impregnated body of the present invention is obtained by impregnating the pad with a liquid cosmetic material.

Effects of the invention

As described above, the amount of the liquid cosmetic taken out can be easily adjusted, and the residue of the liquid cosmetic can be reduced.

Drawings

Fig. 1 is a perspective view showing a cosmetic in an embodiment of the present invention.

Fig. 2 (a) is a perspective view showing the cosmetic pad, and fig. 2 (b) is a perspective view showing the pad body of the pad.

Fig. 3 (a) and (b) are schematic diagrams showing a process for manufacturing the pad main body of the pad.

Fig. 4 (a) and (b) are schematic diagrams illustrating a process for manufacturing the pad main body of the pad.

Fig. 5 (a) and (b) are schematic diagrams illustrating a process for manufacturing the pad main body of the pad.

Fig. 6 (a) to (c) are cross-sectional views showing typical examples of the pad.

Fig. 7 (a) and (b) are cross-sectional views showing an example of a process for producing the pad.

Fig. 8 is a schematic view showing the vicinity of the upper surface of the pad.

Fig. 9 is a schematic view showing the vicinity of the upper surface of the pad.

Fig. 10 is a schematic sectional view showing a use state of the cosmetic.

Fig. 11 is a perspective view showing a conventional cosmetic.

Fig. 12 is a schematic cross-sectional view showing a state of use of a conventional cosmetic.

Detailed Description

Hereinafter, a cosmetic product, a mat used for the cosmetic product, and an impregnated body according to an embodiment of the present invention will be described with reference to fig. 1 to 10. The cosmetic comprises: a pad impregnated with a liquid cosmetic; and an exterior body that houses the pad and has an opening for exposing the upper surface of the pad. The outer package is provided with: a package body having an opening; and a lid body which can be opened and closed and closes the opening of the outer body main body. The following description will be given by taking specific examples.

As shown in fig. 1, the cosmetic 1 includes a pad 2 and a container as an exterior body. The mat 2 is housed in a container. The container in this embodiment is circular in shape. The container is provided with an outer container 3 and an inner container 4. The container is of a double construction.

The inner container 4 is detachably attached to the outer container 3. The inner container 4 includes an inner container body 10, an inner lid 11, and a separation preventing ring 12. The inner container body 10 houses the mat 2. The inner container body 10 has an opening 13 that opens upward. The opening 13 is circular. The upper surface of the pad 2 is exposed from the opening 13. The inner lid 11 is hingedly connected to the inner container body 10. The inner lid 11 openably and closably closes the opening 13 of the inner container body 10. The inner lid 11 closes the opening 13 of the inner container body 10 to hermetically seal the storage portion of the inner container body 10. A not-shown puff-receiving recess for receiving a not-shown puff is formed in the upper surface of the inner lid 11. The puff is an application tool for adsorbing and taking out the liquid cosmetic from the pad 2 and adhering the liquid cosmetic to the skin such as the face. The powder puff is in a disc shape. The shape of the powder puff accommodating concave part corresponds to that of the powder puff. The puff-receiving recess has a circular shape in a plan view. The anti-slip ring 12 is fitted to the opening edge portion of the inner container body 10. The slip-off preventing ring 12 prevents the pad 2 from slipping off from the opening 13 of the inner container body 10. The slip-off preventing ring 12 is in the form of a brim protruding toward the center side of the opening 13 and is in the form of a ring.

The outer container 3 includes an outer container body 20 and an outer lid 21. The outer container body 20 accommodates the inner container 4. The outer container body 20 has an opening 22 that opens upward. The outer lid 21 openably and closably closes the opening 22 of the outer container body 20. The outer lid 21 is hingedly connected to the outer container body 20. A mirror 23 is provided on the inner surface of the outer cover 21.

< liquid cosmetic >

The liquid cosmetic is, for example, a liquid foundation or blush, a cosmetic liquid, an emulsion, or the like.

< pad 2 >

The pad 2 holds a liquid cosmetic. The pad 2 is impregnated with the liquid cosmetic material. The pad 2 is soft. The pad 2 can be easily deformed. The shape of the pad 2 corresponds to the shape of the receiving portion of the inner container body 10. As shown in fig. 2 (a), in the present embodiment, the pad 2 has a circular shape in a plan view. However, the pad 2 may have a rectangular shape in a plan view. In the present embodiment, the pad 2 is a cylindrical shape having a smaller dimension (thickness) in the direction of the center line than the diameter. The diameter of the pad 2 is, for example, about 3 to 15 cm. The thickness of the pad 2 is, for example, about 0.5 to 5 cm. The pad 2 includes: a pad body 30 for holding a liquid cosmetic; and a mesh cover 31 for adjusting the amount of the liquid cosmetic taken out.

< cushion main body 30 >

The pad body 30 is a main portion of the pad 2. The pad main body 30 is impregnated with the liquid cosmetic. As shown in fig. 2 (b), in the present embodiment, the pad main body 30 has a circular shape in a plan view. The pad body 30 is cylindrical with a thickness smaller than the diameter. However, the pad main body 30 may have a rectangular shape in a plan view. The pad body 30 has an upper surface 30a, a side surface 30b, and a lower surface 30 c. The upper surface 30a and the lower surface 30c of the pad main body 30 are flat and circular. The side 30b of the pad main body 30 is a circumferential surface. The diameter of the pad main body 30 is, for example, about 3 to 15 cm. The thickness of the pad main body 30 is, for example, about 0.5 to 5 cm.

The pad main body 30 is made of a fibrous body. The fiber body has cushioning properties. The fibrous body has a structure in which fibers are three-dimensionally crossed like a climbing frame (jungle gym). The fibrous body is a three-dimensional structure. The intersection where the fibers cross each other is a contact where the fibers contact each other. At the contact portion, the fibers are welded to each other. The density of the fiber body is, for example, 6 to 50kg/m³About, preferably 6 to 30kg/m³Left and right. The AskerF hardness of the fiber body is preferably about 30-60. The AskerF hardness was measured at 25 ℃ using an Asker rubber hardness tester type F manufactured by Molec corporationThe value of time. The pad main body 30 may be a single layer or a plurality of layers. When the pad main body 30 is a multilayer, the density of the layer constituting the upper surface 30a is preferably higher than the density of the other layers.

The fibers constituting the fiber body may be various, but preferably contain composite fibers. The composite fiber contains two resins having different melting temperatures. When one of the two resins having a lower melting temperature melts, the fibers are fused together at the contact portion. The resin having a higher melting temperature is referred to as a high-temperature molten resin, and the resin having a lower melting temperature is referred to as a low-temperature molten resin.

Examples of the composite fiber include a core-sheath type composite fiber, a side-by-side type composite fiber, and an island-in-sea type composite fiber. From the viewpoint of efficiently integrating the contact portions of the fibers, a core-sheath composite fiber is preferable. When the fibers are crimped by heating, side-by-side type composite fibers are preferable.

The core-sheath composite fiber includes a core component as a central component and a sheath component covering the core component. The core component uses a high-temperature melting resin. The sheath component is a low-temperature melting resin. At the contact portion between the fibers, the composite fibers are firmly integrated with each other by the low-temperature molten resin. The volume ratio of the core component to the sheath component (core component: sheath component) is preferably 30: 70-70: 30.

examples of the low-temperature melting resin include polyesters and thermoplastic elastomers. Specific examples of the polyester include polyethylene terephthalate, polypropylene terephthalate, polybutylene terephthalate, polyhexamethylene terephthalate, polybutylene terephthalate, and the like. Examples of the thermoplastic elastomer include polyester elastomers such as polyethylene terephthalate elastomers, and polyether-ester block copolymers having a polyester as a hard segment and a poly (alkylene oxide) glycol as a soft segment.

Examples of the high-temperature melting resin include thermoplastic polyesters. Examples of the thermoplastic polyester include polyethylene terephthalate, polypropylene terephthalate, polybutylene terephthalate, polyhexamethylene terephthalate, polybutylene terephthalate, and the like.

The fineness of the composite fiber is preferably 0.5 to 15 deniers, and more preferably 1 to 10 deniers. When the fineness is within this range, the liquid cosmetic stored in the pad main body 30 can be efficiently taken out to the outside. Further, the pad main body 30 having excellent mechanical strength can be obtained. The fineness of the fiber is the mass (g) of the fiber (filament) per 9000m of the fiber length.

The preferred fiber length of the composite fiber is about 20-150 mm. When the fiber length is within this range, the liquid cosmetic stored in the pad main body 30 can be efficiently taken out to the outside, and the pad main body 30 having excellent mechanical strength can be obtained. If necessary, the composite fiber may be subjected to processes such as antibacterial processing and antibacterial processing.

The fibrous body contains composite fibers as constituent fibers. The fiber body may be composed of only the composite fiber, but may be composed of the composite fiber and other fibers other than the composite fiber. Examples of the other fibers include natural fibers such as cotton, hemp and silk, regenerated fibers such as rayon and the like, and synthetic fibers, and particularly, synthetic fibers are preferable. Preferably, the composite fibers and the synthetic fibers are fused at the contact portion with each other.

Examples of the synthetic fibers include polyester fibers such as polyethylene terephthalate fibers, polybutylene terephthalate fibers, and polytrimethylene terephthalate fibers, polyvinyl chloride fibers, polyvinylidene chloride fibers, polypropylene fibers, polyvinyl alcohol fibers, polyamide fibers typified by nylon 6, polyimide fibers, polyamideimide fibers, and cellulose acetate fibers, but the present invention is not limited to these examples. These fibers may be used alone or in combination of two or more. Among these synthetic fibers, polyester fibers and polyamide fibers are preferable, and polyester fibers are more preferable. The synthetic fiber may be subjected to, for example, antibacterial processing, or the like as necessary.

From the viewpoint of preventing the elastic force of the conjugate fiber from being weakened or reduced, the melting temperature of the synthetic fiber is preferably higher than the melting temperature of the low-temperature melting resin of the conjugate fiber by 20 ℃ or more, and more preferably higher by 30 ℃ or more. The melting temperature of the synthetic fibers is preferably 150 to 270 ℃, and more preferably 160 to 270 ℃ from the viewpoint of preventing the elastic force of the conjugate fibers from being weakened and thus efficiently thermally fusing the conjugate fibers and the synthetic fibers at the contact portions between the conjugate fibers and the synthetic fibers. The fineness of the synthetic fiber is preferably 0.5 to 15 deniers, and more preferably 1 to 10 deniers, as in the case of the conjugate fiber. The synthetic fiber preferably has a fiber length of about 20 to 150mm, as in the case of the conjugate fiber.

The composite fiber and the synthetic fiber as the other fiber are preferably used in combination. More preferably, a composite fiber and a polyester fiber or a polyamide fiber as a synthetic fiber are used in combination. Further, it is preferable to use a composite fiber and a polyester fiber in combination. The mass ratio of the composite fibers to the synthetic fibers (composite fibers: synthetic fibers) is preferably 10: 90-100: 0, more preferably 30: 70-80: 20.

< method for manufacturing pad body 30 >

Next, one preparation method of the pad main body 30 will be exemplified. However, the following methods are exemplary, and other methods may be used. The composite fibers and the synthetic fibers are used in combination as the constituent fibers of the fibrous body. However, only the composite fiber may be used, and other fibers than the composite fiber and the synthetic fiber may be used in combination.

Fig. 3 to 5 schematically illustrate an example of the manufacturing method. First, the composite fiber and the synthetic fiber are defibered separately. The composite fibers and the synthetic fibers were weighed so as to be in a predetermined ratio. The composite fiber and the synthetic fiber are mixed in such a manner as to be of uniform composition. When the composite fibers are mixed with the synthetic fibers, the composite fibers and the synthetic fibers are aligned along the length direction of the fibers. The composite fibers and the synthetic fibers form a fiber sheet 40 having a predetermined thickness.

Then, as shown in fig. 3 (a), a plurality of fiber sheets 40 are stacked. Note that the thickness of the fiber sheet 40 is exaggeratedly shown. When a plurality of fiber sheets 40 are stacked, the fiber direction of the fiber sheets 40 is aligned in one direction. The direction of the fibers is simply referred to as the fiber direction and is indicated by the arrow X. The direction orthogonal to the fiber direction in the plane of the fiber sheet 40 is referred to as the fiber orthogonal direction and is indicated by an arrow Y. The arrow Z indicates the stacking direction of the fiber sheet 40

Next, the plurality of stacked fiber sheets 40 are sandwiched in the stacking direction by using, for example, two flat plate-shaped pressing bodies, not shown, that face each other in the stacking direction. The fiber sheet 40 is pressed to a predetermined thickness by using two pressing bodies, and the fiber sheet 40 is heated in the pressed state. The low-temperature molten resin of the conjugate fiber is melted by the heating. As the low-temperature molten resin is melted, the contact portions of the fibers are welded and integrated by the low-temperature molten resin, and as shown in fig. 3 (b), a laminate 41 composed of a three-dimensional fibrous body is formed. Due to the melting of the low-temperature melting resin of the composite fibers, the composite fibers are fused to each other, and the composite fibers are fused to the synthetic fibers. In fig. 3 (b), a contact portion 41a in which fibers are fused together is indicated by a dot. The fiber sheet 40 is heated at a temperature equal to or higher than the melting temperature of the low-temperature molten resin of the conjugate fibers and lower than the melting temperature of the high-temperature molten resin of the conjugate fibers and the melting temperature of the synthetic fibers. The plurality of fiber sheets 40 are integrated by such a pressing and heating step. Instead of the method of pressing with two pressing bodies, for example, the fiber sheet 40 may be put into a forming die and compressed and heated. In fig. 3 (b) and 4, the overlapping portion of the fiber pieces 40 is shown by a two-dot chain line instead of a solid line.

Next, as shown in fig. 4, the laminate 41 is cut into a predetermined thickness along the lamination direction and the fiber orthogonal direction, thereby forming a plate-like fibrous body 42. The cut surfaces of the plate-like fibrous body 42 are the upper surface and the lower surface of the plate-like fibrous body 42. That is, the cut surface becomes the plate surface of the plate-like fibrous body 42. The thickness direction of the plate-like fibrous body 42 is the fiber direction in the laminated body 41. The plate-like fibrous body 42 has a large repulsive force against a force in the thickness direction, and is excellent in cushioning properties and less likely to have a weak elastic force. As shown in fig. 5, the pad main body 30 is formed by cutting the plate-like fibrous body 42 into a predetermined shape.

< Net cover 31 >

The mesh cover 31 is made of a mesh sheet such as a woven fabric, or a net. The mesh sheet may or may not have elasticity. If the mesh sheet has elasticity, the mesh cover 31 is more suitable for following the deformation of the pad main body 30. The mesh sheet may also be provided with a pattern. The mesh sheet may be imparted with, for example, antibacterial properties. The material of the mesh sheet is preferably a resin such as polyester, but may be a natural material. In the case of the net, the crossing portions where the wires cross each other may be in a state of merely contacting each other, may be in a state of being welded, or may be in a state of being wound around each other. The resin mesh may be formed into a mesh shape by molding. The thickness of the wires constituting the mesh sheet is, for example, 0.01 to 0.5 mm. In the case of a woven fabric, the thickness of the thread is, for example, 0.01 to 0.1mm, preferably 0.02 to 0.07 mm. In the case of a textile, the thickness of the thread is, for example, 0.01 to 0.1mm, preferably 0.02 to 0.07 mm. In the case of the net, the thickness of the wire is, for example, 0.01 to 0.3mm, preferably 0.02 to 0.25 mm.

The mesh size of the mesh sheet is, for example, 0.01 to 2 mm. In the case of a woven fabric, the mesh size is, for example, 0.01 to 1.5mm, preferably 0.02 to 0.8mm, and more preferably 0.03 to 0.5 mm.

In the case of a woven fabric, the mesh size is, for example, 0.01 to 1.5mm, preferably 0.02 to 0.8mm, and more preferably 0.03 to 0.5 mm. In the case of the net, the size of the mesh is, for example, 0.01 to 1.5mm, preferably 0.02 to 0.8mm, and more preferably 0.03 to 0.5 mm.

The mesh cover 31 encases the pad body 30. The mesh cover 31 encloses the entire pad body 30 or a part of the pad body 30. At least the entire upper surface 30a of the pad main body 30 is covered with a mesh cover 31. It is preferable that the entire upper surface 30a and the entire side surface 30b of the pad main body 30 are covered with the mesh cover 31. More preferably, the entire upper surface 30a, the entire side surface 30b, and at least the peripheral edge portion of the lower surface 30c of the pad main body 30 are covered with the mesh cover 31. Preferably, the entire pad body 30 is covered by a mesh cover 31. That is, the entire upper surface 30a, the entire side surface 30b, and the entire lower surface 30c of the pad main body 30 are preferably covered with the mesh cover 31. The mesh cover 31 is preferably not bonded or welded to the upper surface 30a and the side surface 30b of the pad main body 30.

Fig. 6 shows a typical example of a structure in which the pad main body 30 is wrapped with the mesh cover 31. Fig. 6 (a) shows a structure in which the cushion main body 30 is partially wrapped by the mesh cover 31. In detail, the mesh cover 31 covers the entire upper surface 30a and the entire side surface 30b of the pad main body 30, and covers only the peripheral edge portion of the lower surface 30c of the pad main body 30. The center of the lower surface 30c of the pad main body 30 is exposed without being covered with the mesh cover 31. The mesh cover 31 is formed in a bag shape from one mesh sheet. The pad main body 30 is inserted into the bag-like net cover 31, and the opening of the bag-like net cover 31 is positioned on the lower surface 30c of the pad main body 30. The net cover 31 has a width of, for example, 3mm or more, and covers the peripheral edge of the lower surface 30c of the pad main body 30 in a ring shape. Preferably, the threads 32 are inserted through the meshes of the inner edge portion (opening edge portion) of the mesh cover 31 covering the peripheral edge portion of the lower surface 30c of the pad main body 30, thereby closing the opening edge portion of the mesh cover 31 and reducing the diameter of the opening portion. With this structure, peeling or positional deviation of the mesh cover 31 is prevented. The mesh cover 31 is not bonded or welded to the pad main body 30.

Fig. 6 (b) also shows a structure in which the mesh cover 31 covers the entire upper surface 30a and the entire side surface 30b of the pad main body 30 and covers only the peripheral edge portion of the lower surface 30c of the pad main body 30, as in fig. 6 (a). The portion of the mesh cover 31 covering the peripheral edge portion of the lower surface 30c of the pad main body 30 is bonded or welded to the lower surface 30c of the pad main body 30. In fig. 6 (b), in the mesh cover 31, a portion which is not bonded or welded to the pad main body 30 is indicated by a broken line, and a portion 31a which is bonded or welded to the pad main body 30 is indicated by a solid line. In this structure, the upper surface 30a and the side surface 30b of the pad main body 30 are not bonded or welded to the mesh cover 31. With this structure, peeling or positional deviation of the mesh cover 31 is also prevented.

Fig. 6 (c) shows a structure in which the entire pad main body 30 is enclosed by the mesh cover 31. The mesh cover 31 is formed of two upper and lower mesh sheets. The peripheral edges of the two mesh sheets are joined and integrated with each other. The engaging portion is denoted by reference numeral 31 b. Examples of a method for joining and integrating the peripheral edge portions of the two mesh sheets include welding by ultrasonic waves, high frequency waves, hot pressing, and the like, and adhesion, sewing, and the like. The joining portion 31b of the peripheral edge portions of the two mesh sheets is located outside the side surface 30b of the pad main body 30 and surrounds the outside of the side surface 30 b.

Fig. 7 shows an outline of an example of a manufacturing method in a case where the pad main body 30 is wrapped with two upper and lower mesh sheets. First, as shown in fig. 7 (a), two mesh sheets 50 are arranged to be separated vertically. The two mesh sheets 50 may be long, or may be cut into a predetermined size. The pad main body 30 is disposed between two mesh sheets 50. Then, as shown in fig. 7 (b), the two mesh sheets 50 are brought close to each other, and the pad main body 30 is sandwiched vertically by the two mesh sheets 50. The pad main body 30 is pressed up and down by the two mesh sheets 50 to be compressed and deformed. The two mesh sheets 50 are fused to each other around the pad main body 30. After fusing, the pad body 30 is restored to its original state. When the pad main body 30 is restored to the original state, the upper surface 30a of the pad main body 30 presses the upper mesh sheet 50 upward, and the lower surface 30c of the pad main body 30 presses the lower mesh sheet 50 downward. The upper surface 30a and the lower surface 30c of the pad main body 30 are closely attached to the mesh cover 31 due to the elastic restoring force of the pad main body 30. Instead of welding, the peripheral edges of the upper and lower two mesh sheets may be integrated with each other by bonding. That is, the joint portion 31b may be a welded portion or an adhesive portion. Similarly, the pad main body 30 may be wrapped with the two upper and lower mesh sheets 50 by sewing them with a sewing machine or the like.

Fig. 8 and 9 schematically show a perspective cross-sectional view of the vicinity of the upper surface of the mat 2. Fig. 8 shows a case where the net cover 31 is a textile. Fig. 9 shows a case where the mesh cover 31 is a woven fabric. A plurality of ends of the fibers 43 constituting the fibrous body are present on the upper surface 30a of the pad main body 30. The ends of the fibers 43 are wrapped around the mesh cover 31. The ends of the fibers 43 are randomly bent. The ends of the bent fibers 43 are wound around the threads of the mesh cover 31 like velcro tapes through the meshes of the mesh cover 31. In this way, the ends of the fibers 43 are wound around the mesh cover 31, and the mesh cover 31 is locked to the upper surface 30a of the pad main body 30. The net cover 31 is in close contact with the upper surface 30a of the pad main body 30 by the locking force of the end portions of the fibers 43 on the upper surface 30a of the pad main body 30.

As described above, the cushion main body 30 is enclosed by the mesh cover 31, and at least the entire upper surface 30a of the cushion main body 30 is covered by the mesh cover 31. The liquid cosmetic contained in the pad main body 30 is transferred to the puff through the mesh-like cover 31. Therefore, excessive removal of the liquid cosmetic from the pad main body 30 can be suppressed. In particular, the effect is large at the initial stage of use. The mesh cover 31 is not fixed to the inner container 4, and therefore the degree of freedom of the mesh cover 31 is high. The mesh cover 31 can easily follow the deformation of the pad main body 30. The mesh cover 31 is deformed integrally with the cushion main body 30. Therefore, the residue of the liquid cosmetic contained in the pad main body 30 can be reduced. Further, the discharge amount and the take-out amount of the liquid cosmetic can be adjusted over a long period of time.

Compared with sponge, the fiber body with buffering property is not easy to leave liquid cosmetic. The mesh cover 31 is not bonded or welded to the upper surface 30a of the pad main body 30. Therefore, the mesh of the mesh cover 31 is not clogged, and the liquid cosmetic can easily pass through the mesh of the mesh cover 31 from the pad main body 30. In addition, the fibers in the upper surface 30a of the pad main body 30 also maintain the original state. Therefore, the liquid cosmetic is smoothly transferred from the upper surface 30a of the pad main body 30 to the puff through the mesh cover 31.

The ends of the fibers 43 on the upper surface 30a of the pad main body 30 are wound around the mesh cover 31, and the mesh cover 31 is locked to the upper surface 30a of the pad main body 30. Therefore, the mesh cover 31 is less likely to float from the upper surface 30a of the cushion main body 30, and the mesh cover 31 can easily follow the deformation of the upper surface 30a of the cushion main body 30. The mesh cover 31 is less likely to separate from the upper surface 30a of the cushion main body 30, and the mesh cover 31 is deformed integrally with the upper surface 30a of the cushion main body 30 and returns to its original state. Therefore, the liquid cosmetic is uniformly attached to the puff, and the residue of the liquid cosmetic is reduced. Further, since the mesh cover 31 is in close contact with the upper surface 30a of the pad main body 30, the aesthetic appearance of the upper surface of the pad 2 is excellent. The aesthetic appearance of the upper surface of the pad 2 is maintained by the mesh cover 31 even in a state where the liquid cosmetic is reduced.

Fig. 10 (a) schematically shows a state in which the mat 2 is housed in the inner container body 10. As shown in fig. 10 (b), when the pad 2 is pressed downward by using a powder puff (not shown), the pad 2 is deformed. The mesh cover 31 is not fixed to the inner container body 10, and therefore the mesh cover 31 has a large degree of freedom. Therefore, the mesh cover 31 can be integrated with the cushion main body 30 and easily deformed. As shown in fig. 10 (c), the peripheral edge of the puff holder pad 2 can be easily used. The liquid cosmetic remaining on the peripheral edge portion of the pad 2 can be easily taken out.

Examples

The following further describes the present invention by referring to examples and comparative examples.

[ example 1]

< cushion main body 30 >

The constituent fibers of the fibrous body are fibers obtained by mixing composite fibers and synthetic fibers. The composite fiber is of a core-sheath type. The core component (high-temperature melting resin) was polyethylene terephthalate. The sheath component (low-temperature melting resin) is thermoplastic polyethylene terephthalate. The fineness of the composite fiber was 6 deniers. The synthetic fibers are polyethylene terephthalate fibers. The fineness of the synthetic fiber was 3 deniers. The mass ratio of the composite fibers to the synthetic fibers is 70: 30. as shown in fig. 3 to 5, the composite fibers and the synthetic fibers are blended in parallel to form a fiber sheet 40. A plurality of fiber sheets 40 are stacked and heated while being pressed in the stacking direction, and the sheath component of the conjugate fiber is melted to produce a stacked body 41. The laminate 41 is cut to a predetermined thickness to form a plate-like fibrous body 42. The plate-like fibrous body 42 was cut to form the pad main body 30 having a diameter of about 5cm and a thickness of about 1 cm. The density of the pad main body 30 was 18.0kg/m³。

< Net cover 31 >

The mesh sheet uses a warp knit (tricot) fabric made of 20 denier nylon yarn. The warp density of the warp-knitted fabric was 35 threads/inch and the weft density was 43 threads/inch. The warp-knitted fabric was cut into a size of phi 74mm, and the peripheral edge portion of the fabric was sewn using elastic threads to produce a bag-like net cover 31 having an opening portion which can be expanded and contracted freely.

< pad 2 >

The pad 2 is manufactured by expanding the opening of the mesh cover 31 so that the mesh cover 31 covers the pad main body 30, and covering only the entire upper surface 30a and the entire side surface 30b of the pad main body 30 without covering the lower surface 30c of the pad main body 30.

< cosmetic 1 >

Sample a of cosmetic 1 was prepared by impregnating pad 2 with 15g of a liquid cosmetic material having a viscosity of 2000mP · s and storing pad 2 in inner container 4 as shown in fig. 1.

[ example 2]

The pad body 30 is the same as in embodiment 1. The same warp-knit fabric as in example 1 was used for the mesh sheet. The size of the warp-knitted fabric is phi 80 mm. The periphery of the lower surface 30c of the pad body 30 was covered with a 3mm wide ring-shaped bag-like mesh cover 31 to produce a pad 2. Sample B of cosmetic 1 was prepared using this pad 2. The liquid cosmetic and the container were the same as in example 1.

[ example 3]

The pad body 30 is the same as in embodiment 1. The same warp-knit fabric as in example 1 was used for the mesh sheet. The size of the warp-knitted fabric is phi 82 mm. The periphery of the lower surface 30c of the pad body 30 was covered with a 5mm wide ring-shaped bag-like mesh cover 31 to produce a pad 2. Sample C of cosmetic 1 was produced using this pad 2. The liquid cosmetic and the container were the same as in example 1.

[ example 4]

The pad body 30 is the same as in embodiment 1. The same warp-knit fabric as in example 1 was used for the mesh sheet. The size of the warp-knitted fabric is phi 125 mm. The pad 2 is manufactured by covering the entire lower surface 30c of the pad main body 30 with a bag-like mesh cover 31. Sample D of cosmetic 1 was produced using this pad 2. The liquid cosmetic and the container were the same as in example 1.

[ example 5]

The pad body 30 is the same as in embodiment 1. The same warp-knit fabric as in example 1 was used for the mesh sheet. Two mesh sheets are arranged above and below the pad body 30, and the upper and lower mesh sheets are welded and fused to each other by ultrasonic waves. The pad 2 in which the entire pad main body 30 is covered with the mesh cover 31 is produced. Sample E of cosmetic 1 was produced using this pad 2. The liquid cosmetic and the container were the same as in example 1.

[ examples 6 to 8]

The pad body 30 is the same as in embodiment 1. The mesh sheet uses a warp-knitted fabric made of 40 denier nylon yarn. The warp density of the warp-knitted fabric was 33 threads/inch and the weft density was 36 threads/inch. Samples F to H of cosmetics 1 in examples 6 to 8 were prepared by the same preparation method as samples B to D of cosmetics 1 in examples 2 to 4, respectively.

[ examples 9 to 12]

The pad body 30 only differs in density from that in embodiment 1. The density of the pad body 30 in examples 9 to 12 was 24.0kg/m³. Samples I to L of cosmetics 1 in examples 9 to 12 were prepared by the same preparation method as samples B to E of cosmetics 1 in examples 2 to 5, respectively.

[ examples 13 to 15]

The pad main body 30 is the same as those of examples 9 to 12. The same warp-knitted fabrics as in examples 6 to 8 were used for the mesh sheet. Samples M to O of cosmetics 1 in examples 13 to 15 were prepared by the same preparation method as for samples F to H of cosmetics 1 in examples 6 to 8, respectively.

Comparative example 1

The pad 2 is used by putting the same pad body 30 as that of example 1 directly into the inner container 4 without using the net cover 31 to wrap the pad body. Sample P of cosmetic 1 was obtained by ultrasonic welding the same mesh sheet as in examples 6 to 8 to the upper surface of separation preventing ring 12.

Comparative example 2

A polyurethane foam (manufactured by spunlace, trade name: 301WH) was used for the pad 2. The size of the pad 2 is the same as in example 1. As in comparative example 1, the net cover 31 was not used for covering, but was directly put into the inner container 4 for use. In the same manner as in comparative example 1, the same mesh sheet as in examples 6 to 8 was ultrasonically welded to the upper surface of the separation preventing ring 12, thereby obtaining sample Q of cosmetic 1.

[ test and evaluation ]

The samples were subjected to a test for taking out the liquid cosmetic and a test for the residual ratio of the liquid cosmetic, respectively, and evaluated. The liquid cosmetic extraction test is a test for examining the amount of the liquid cosmetic obtained, the uniformity thereof, and the like. In the taking-out test, the upper surface of the pad 2 was tapped with a puff through the opening 13 of the inner container 4, and the liquid cosmetic of the pad 2 was attached to the application surface of the puff. Then, the coated side of the puff is pressed against a separately prepared paper, thereby transferring the liquid cosmetic from the coated side of the puff to the paper. The amount and uniformity of the liquid cosmetic adhered to the paper were examined. The amount of adhesion can be measured by comparing the weight of the paper before adhesion with the weight of the paper after adhesion.

[ evaluation of adjustment of the amount of acquisition ]

The adjustment of the acquired amount was evaluated in three stages of "o", "Δ", and "x" according to the following criteria.

Good: the obtained cosmetic has uniform yield. Specifically, the amount of cosmetic collected on paper is 2.0g to 4.0g (proper amount) when the above-described puff operation is repeated 1 to 30 times, 31 to 60 times, 61 to 90 times, or 91 to 120 times.

And (delta): the cosmetic material is obtained in a substantially uniform amount. Specifically, when the above-described puff operation is repeated 1 to 30 times, 31 to 60 times, 61 to 90 times, or 91 to 120 times, the amount of the cosmetic collected on the paper is 1.0g or more and less than 2.0g (slightly less), or more than 4.0g and 6.0g or less (slightly more).

X: the amount of cosmetic obtained was not uniform. Specifically, when the above-described puff operation is repeated 1 to 30 times, 31 to 60 times, 61 to 90 times, or 91 to 120 times, the amount of the cosmetic collected on the paper is less than 1.0g (small), or more than 6.0g (large).

[ evaluation of survival Rate ]

The amount of the cosmetic remaining on the pad 2 was evaluated as the remaining rate. The remaining percentage was evaluated in four stages a to D as follows. The case where the residual ratio was 5% or more and less than 10% was defined as evaluation a. The case where the residual ratio was 10% or more and less than 15% was defined as evaluation B. The case where the residual ratio was 15% or more and less than 20% was defined as evaluation C. The case where the residual ratio was 20% or more was defined as evaluation D. The evaluation results of the examples and comparative examples are shown in table 1.

[ Table 1]

		Adjustment of the amount of withdrawal	Survival rate
				Example 1	Sample A	△	B
Example 2	Sample B	○	A
				Example 3	Sample C	○	A
Example 4	Sample D	○	A
				Examples5	Sample E	○	A
Example 6	Sample F	○	A
				Example 7	Sample G	○	A
Example 8	Sample H	○	A
				Example 9	Sample I	○	A
Example 10	Sample J	○	A
				Example 11	Sample K	○	A
Example 12	Sample L	○	A
				Example 13	Sample M	○	A
Example 14	Sample N	○	A
				Example 15	Sample O	○	A
Comparative example 1	Sample P	△	C
				Comparative example 2	Sample Q	×	D

As shown in Table 1, in examples 1 to 15, the adjustment of the amount of the cosmetic material to be obtained was good. Among them, the adjustment of the amount of the cosmetic materials of examples 2 to 15 was particularly good. In addition, the residual ratio in examples 1 to 15 was low, and the results were good. Among them, examples 2 to 15 had particularly low survival rates. The reason why the adjustment and the residual ratio of the amounts obtained in example 1 and examples 2 to 15 were different from each other was considered to be that only the lower surface 30c of the pad main body 30 of the pad 2 of example 1 was not covered with the mesh cover 31. On the other hand, in comparative example 1, the amount of the cosmetic material obtained was substantially uniform, but the remaining rate was high. In comparative example 2, the amount of the cosmetic material obtained was not uniform, and the remaining rate was very high.

The container has a double structure including the outer container 3 and the inner container 4, but may be a container without the outer container 3. The outer package is not limited to a container, and may be a packaging bag.

Description of the reference numerals

1: cosmetic, 2: pad, 3: outer container, 4: inner container (outer container), 10: inner container body (outer container body), 11: inner lid (lid body), 12: anticreep ring, 13: opening, 20: outer container body, 21: outer cover, 22: opening, 23: mirror, 30: pad main body, 30 a: upper surface, 30 b: side surface, 30 c: lower surface, 31: mesh cover, 31 a: adhesive or welded part, 31 b: joint, 32: line, 40: fiber sheet, 41: laminate, 41 a: contact portion, 42: plate-like fibrous body, 43: fiber, 50: mesh sheet, 100: frame, 101: a filter screen, 102: pad, 200: pad, 201: container, 202: an opening portion.

Claims (4)

1. A cosmetic, wherein,

the cosmetic comprises: a pad impregnated with a liquid cosmetic; and an exterior body which houses the pad and has an opening for exposing an upper surface of the pad,

the pad is provided with: a pad main body made of a fibrous body having cushioning properties; and a mesh cover which is composed of a mesh sheet and which covers the pad main body so as to cover at least the entire upper surface of the pad main body,

the ends of the fibers on the upper surface of the pad body are wrapped around the mesh cover, and the mesh cover is thereby locked to the upper surface of the pad body.

2. The cosmetic according to claim 1,

the mesh cover covers the entire upper surface, the entire side surfaces, and at least the peripheral edge portion of the lower surface of the pad main body.

3. A pad for liquid cosmetic material, which contains liquid cosmetic material, wherein,

the pad for liquid cosmetic is provided with: a pad main body made of a fibrous body having cushioning properties; and a mesh cover which is composed of a mesh sheet and which covers the pad main body so as to cover at least the entire upper surface of the pad main body,

the ends of the fibers on the upper surface of the pad body are wrapped around the mesh cover, and the mesh cover is thereby locked to the upper surface of the pad body.

4. A liquid cosmetic material-impregnated body, wherein,

the liquid cosmetic material-impregnated body is obtained by impregnating the pad according to claim 3 with a liquid cosmetic material.

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