Applicator

Abstract

An applicator that causes a liquid applying material accumulated inside, for example, a cosmetic tool, such as an eye liner and an eyebrow pencil, or a gray-hair partially dyeing tool for hair, an eyebrow, or a similar part, to infiltrate into an application portion to use this liquid applying material for application or drawing from a distal end application portion.

Claims

1. An applicator comprising: a main body; an application member; a storage configured to accumulate a liquid applying material to be impregnated into the application member; a liquid applying material absorbing body configured to adjust an amount of impregnation of the liquid applying material into the application member; a drawing member; a nose piece; a first plug; a second plug; and a third plug, wherein: the application member is housed inside the main body; the first plug, the second plug, and the third plug are mounted directly to the main body; the second plug is a stop plug between the first plug and the third plug; the third plug is a tail plug which covers a rear end opening of the main body; the storage is defined between the first plug and the second plug; the liquid applying material absorbing body includes a through-hole; the first plug includes a through-hole; the application member extends through the through-hole of the liquid applying material absorbing body and the through-hole of the first plug; the drawing member is mounted to a distal end side of the application member; and the nose piece holds the distal end side of the application member and is fixedly secured to a tip end of the main body.

2. The applicator according to claim 1, wherein the liquid applying material absorbing body is constituted of a foam material internally having an open cell structure.

3. The applicator according to claim 1, wherein the storage internally includes a ball for stirring.

4. The applicator according to claim 1, wherein the main body is cylindrical.

5. The applicator according to claim 1, further comprising: an outer cap; and an inner cap, wherein the outer cap and the inner cap are mounted to the main body.

6. An applicator comprising: a main body; an application member; a storage configured to accumulate a liquid applying material to be impregnated into the application member; a liquid applying material absorbing body configured to adjust an amount of impregnation of the liquid applying material into the application member; a drawing member; a nose piece; a first plug; a second plug; and a third plug, wherein: the application member is housed inside the main body; the first plug, the second plug, and the third plug are mounted directly to the main body; the second plug is a stop plug between the first plug and the third plug; the third plug is a tail plug which covers a rear end opening of the main body; the storage is defined between the first plug and the second plug; the liquid applying material absorbing body includes a through-hole; the first plug includes a through-hole; the application member extends through the through-hole of the liquid applying material absorbing body and the through-hole of the first plug; the drawing member is mounted to a distal end side of the application member; the nose piece holds the distal end side of the application member and is fixedly secured to a tip end of the main body; and the liquid applying material absorbing body is cuttable.

7. The applicator according to claim 6, wherein the liquid applying material absorbing body is constituted of a foam material internally having an open cell structure.

8. The applicator according to claim 6, wherein the storage internally includes a ball for stirring.

9. The applicator according to claim 6, wherein the main body is cylindrical.

10. The applicator according to claim 6, further comprising: an outer cap; and an inner cap, wherein the outer cap and the inner cap are mounted to the main body.

11. An applicator comprising: a main body; an application member; a storage configured to accumulate a liquid applying material to be impregnated into the application member; a liquid applying material absorbing body configured to adjust an amount of impregnation of the liquid applying material into the application member; a compression member configured to compress the liquid applying material absorbing body inside the main body; a drawing member; a nose piece; a first plug; a second plug; and a third plug, wherein: the application member is housed inside the main body; the first plug, the second plug, and the third plug are mounted directly to the main body; the second plug is a stop plug between the first plug and the third plug; the third plug is a tail plug which covers a rear end opening of the main body; the storage is defined between the first plug and the second plug; the liquid applying material absorbing body includes a through-hole; the first plug includes a through-hole; the application member extends through the through-hole of the liquid applying material absorbing body and the through-hole of the first plug; the drawing member is mounted to a distal end side of the application member; and the nose piece holds the distal end side of the application member and is fixedly secured to a tip end of the main body.

12. The applicator according to claim 11, wherein the liquid applying material absorbing body is constituted of a foam material internally having an open cell structure.

13. The applicator according to claim 11, wherein the storage internally includes a ball for stirring.

14. The applicator according to claim 11, wherein the main body is tube-shaped.

15. The applicator according to claim 11, further comprising: an outer cap; and an inner cap, wherein the outer cap and the inner cap are mounted to the main body.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is an explanatory view (1) describing a configuration of an applicator according to a first embodiment of the present invention;

(2) FIG. 2 is an explanatory view (2) describing the configuration of the applicator according to the first embodiment of the present invention;

(3) FIGS. 3A and 3B are an explanatory views describing a configuration of a plug;

(4) FIG. 4 is an explanatory view describing a configuration of a conventional applicator;

(5) FIG. 5 is an explanatory view describing a configuration of a conventional absorbing body;

(6) FIG. 6 is an explanatory view (1) describing a configuration of an applicator according to a second embodiment of the present invention;

(7) FIG. 7 is an explanatory view (2) describing the configuration of the applicator according to the second embodiment of the present invention; and

(8) FIGS. 8A and 8B are tables describing results of a swing inspection after liquid filling.

DESCRIPTION OF EMBODIMENTS

(9) The following describes the present invention based on embodiments illustrated in the drawings.

(10) FIG. 1 is a configuration explanatory view describing a configuration of an applicator 1 according to a first embodiment of the present invention.

(11) The applicator 1 according to the first embodiment of the present invention includes an approximately cylindrical-shaped body 2.

(12) The applicator 1 also includes a cap 3 and an inner cap 4.

(13) The body 2 internally holds a core-like application member 5.

(14) This application member 5 is usually made of a fiber member such that a liquid applying material 6, which will be described later, can be gradually impregnated by, for example, capillarity.

(15) An absorbing body 7 is used.

(16) As understandable from FIG. 1, this absorbing body 7 is formed into a columnar shape whose outer peripheral surface has no concavo-convex shape. The absorbing body 7 includes an axially-extending through-hole 8 at a center in the axial direction.

(17) The application member 5 is inserted through and mounted to this through-hole 8.

(18) Conventionally, as illustrated in FIG. 4 and FIG. 5, this absorbing body 7 has been manufactured with a resin molded product whose outer periphery has been configured as an uneven surface in an accordion shape. However, as described above, the cost taken for the mold is high. Therefore, manufacturing the absorbing bodies 7 with a plurality of different kinds of forms resulted in the expensive cost of the applicator itself.

(19) Accordingly, the absorbing body 7 of the present invention is formed of a flexible member with impregnation force such as polyurethane. Easily cutting a size and a length of the absorbing body 7 can change the absorbing body 7.

(20) A nose piece 9 is used. The nose piece 9 holds a distal end side of the core-like application member 5 and is fixedly secured to a tip end of the body 2.

(21) A drawing member 10 is fitted onto and mounted to the distal end side of the application member 5. This drawing member 10 performs a drawing or an application with the impregnated liquid applying material 6.

(22) Next, a plug 11 is used. The plug 11 causes a rear end side of the application member 5 to be inserted through the inside of the body 2 and holds the application member 5. The plug 11 causes a rear end portion of the application member 5 to be exposed to a storage 12, which is formed adjacent to the plug 11.

(23) As understood from FIG. 3, as described above, the plug 11 causes the rear end side of the application member 5 to be inserted through the inside of a through-hole 16 to hold the application member 5. A shape of this through-hole 16 is formed into a different shape such as a square or a hexagonal shape.

(24) This configuration is made aiming to adjust a width of a clearance between the through-hole 16 and the application member 5, which is inserted through the through-hole 16, according to the viscosity and the material of the liquid applying material 6 and to adjust an amount of the liquid applying material 6 infiltrated to the absorbing body 7.

(25) Here, the storage 12 accumulates the liquid applying material 6.

(26) A stop plug 13 to form the storage 12 is used.

(27) Thus, this stop plug 13 is mountable to any position of the body 2 in a longitudinal direction; therefore, a region for the storage 12 can be easily changed.

(28) A ball 14 is used. After the storage 12 accumulates the liquid applying material 6, putting this ball 14 into this storage 12 allows accelerating the impregnation of the liquid applying material 6 into the application member 5; thereby ensuring fully use of the liquid applying material 6 to the end.

(29) The applicator 1 without a ball 14 exists.

(30) With the above-described configuration, the following describes an assembly of the applicator 1. First, the body 2 internally includes the drawing member 10 via the nose piece 9 at the distal end. The core-like application member 5 is mounted to the rear end side of the drawing member 10 to which the absorbing body 7, which is cut to a desired length, and the plug 11 are mounted.

(31) Afterwards, the liquid applying material 6 is filled in the storage 12, which is configured to be the desired region space, from a rear end opening 15 of the body 2. The storage 12 is lidded with the stop plug 13 to accumulate the liquid applying material 6 in the storage 12.

(32) Afterwards, the rear end of the body 2 is lidded with a tail plug 17 to terminate the assembly.

(33) Next, the following describes a second embodiment of the present invention.

(34) FIG. 6 and FIG. 7 are configuration explanatory views describing configurations of the applicator 1 according to the second embodiment.

(35) Similar to the applicator 1 of the first embodiment, the applicator 1 of the second embodiment also includes the approximately cylindrical-shaped body 2, the cap 3, and the inner cap 4.

(36) The body 2 internally holds the core-like application member 5.

(37) This application member 5 is usually made of a fiber member such that the liquid applying material 6, which will be described later, can be gradually impregnated by, for example, capillarity.

(38) As understandable from FIG. 6 and FIG. 7, this absorbing body 7 is formed into a columnar shape whose outer peripheral surface has no concavo-convex shape. The absorbing body 7 includes the through-hole 8, which is inserted through in the axial direction, at the center in the axial direction.

(39) The application member 5 is inserted through and mounted to this through-hole 8.

(40) Thus, the absorbing body 7 is, for example, constituted of the flexible member with the impregnation force such as a foam material that internally has open cells. Easily cutting the size and the length of the absorbing body 7 can change the shape.

(41) The nose piece 9 is used. The nose piece 9 holds the distal end side of the core-like application member 5 and is fixedly secured to the tip end of the body 2.

(42) The drawing member 10 is fitted onto and mounted to the distal end side of the application member 5. This drawing member 10 performs the drawing or the application with the impregnated liquid applying material 6.

(43) Next, the plug 11 is used. The plug 11 causes the rear end side of the application member 5 to be inserted through the inside of the body 2 and holds the application member 5. The plug 11 causes the rear end portion of the application member 5 to be exposed to the storage 12, which is formed adjacent to the plug 11.

(44) As described above, the plug 11 causes the rear end side of the application member 5 to be inserted through the inside of the through-hole 16 to hold the application member 5. The shape of this through-hole 16 is formed into the different shape such as the square or the hexagonal shape.

(45) This configuration is made aiming to adjust the width of the clearance between the through-hole 16 and the application member 5, which is inserted through the through-hole 16, according to the viscosity and the material of the liquid applying material 6 and to adjust the amount of the liquid applying material 6 infiltrated to the absorbing body 7.

(46) Here, the storage 12 accumulates the liquid applying material 6.

(47) The stop plug 13 to form the storage 12 is used.

(48) Thus, this stop plug 13 is mountable to any position of the body 2 in the longitudinal direction; therefore, the region for the storage 12 can be easily changed.

(49) The ball 14 is used. After the storage 12 accumulates the liquid applying material 6, putting this ball 14 into this storage 12 allows accelerating the impregnation of the liquid applying material 6 into the application member 5; thereby ensuring fully use of the liquid applying material 6 to the end.

(50) The applicator 1 without the ball 14 exists.

(51) Next, with the second embodiment, the following describes the assembly of the applicator 1. First, the body 2 internally includes the drawing member 10 via the nose piece 9 at the distal end. The core-like application member 5 is mounted to the rear end side of the drawing member 10 to which the absorbing body 7, which is cut to a desired length, and the plug 11 are mounted.

(52) Afterwards, the liquid applying material 6 is filled in the storage 12, which is configured to be the desired region space, from the rear end opening 15 of the body 2. The storage 12 is lidded with the stop plug 13 to accumulate the liquid applying material 6 in the storage 12.

(53) Afterwards, the rear end of the body 2 is lidded with the tail plug 17 to terminate the assembly.

(54) The viscosity of the liquid applying material 6 depends on the kind of the liquid applying material 6; therefore, with the liquid applying material 6 with small viscosity, a liquid leakage has possibly occurred from the drawing member 10 mounted to the distal end of the application member 5.

(55) However, to prevent this liquid leakage, although the applicators have been configured by differentiating the length of the absorbing bodies 7 and differentiating the size of the storages 12, only this configuration failed to finally solve the liquid leakage.

(56) Therefore, this embodiment has configured the following applicator 1 of the present invention. The applicators 1 can be constituted of the one kind of the applicators 1 that do not cause the liquid leakage according to the bulk viscosities of respective kinds even if the applicator 1 where the absorbing body 7 designed to be the identical size (length) and the storage 12 designed to be the identical size are incorporated.

(57) That is, the body 2 internally includes a compression member 20. The compression member 20 compresses the absorbing body 7, which is housed in the body 2 of the applicator 1, to change the size (length) of the absorbing body 7.

(58) The absorbing body 7 is, as described above, formed of the foam material that internally has open cells.

(59) As understood from the drawing, this absorbing body 7 has the through-hole 8 through which the application member 5 axially passes.

(60) As illustrated in FIG. 6 and FIG. 7, mediating the compression member 20 on one side of the absorbing body 7 compresses the absorbing body 7 in the longitudinal direction by the length of the mediated compression member 20.

(61) That is, with the absorbing body 7 with a length of 20 mm, mediating the compression member 20 with a length of 4 mm compresses the absorbing body 7 to the length of 16 mm, thus shortening the absorbing body 7.

(62) Compressing the absorbing body 7, which is formed of the foam material internally having open cells, increases adhesiveness with the application member 5 inserted through the through-hole 8. This suctions up the liquid applying material 6 penetrated to the application member 5 by capillarity.

(63) Accordingly, the extra liquid applying material 6 is not impregnated into the application member 5 and the drawing member 10, thereby ensuring preventing the liquid leakage of the liquid applying material 6.

(64) FIG. 8 illustrates the experimental results.

(65) In FIG. 8, the three applicators 1 with similar configuration were created as a sample 1, a sample 2, and a sample 3. A swing inspection test was conducted on the respective samples with no compression member 20, with the compression member 20 with a length of 4 mm, and the compression member 20 with the length of 5.5 mm after the liquid applying material 6 was filled.

(66) The swing inspection is an inspection that holds the applicator 1 and vertically swings the held applicator 1 several times.

(67) This inspection inspected the number of swings at which the liquid leakage occurred.

(68) The viscosity of the liquid applying material 6 was designed to be 6.0 CP (centipoise).

(69) Then, as shown in FIG. 8, among the samples with no compression member 20, swinging the sample 1 and the sample 2 six times caused the liquid leakage, and swinging the sample 3 five times caused the liquid leakage.

(70) In the case where the samples included the 4-mm compression member 20 inside the body 2 and the absorbing body 7 was compressed, swinging the sample 1 eight times caused the liquid leakage, swinging the sample 2 seven times caused the liquid leakage, and swinging the sample 3 nine times caused the liquid leakage.

(71) Furthermore, in the case where the samples included the compression member 20 with the length of 5.5 mm and the absorbing body 7 was compressed, swinging the sample 1 twelve times caused the liquid leakage, swinging the sample 2 eleven times caused the liquid leakage, and swinging the sample 3 thirteen times caused the liquid leakage.

(72) Next, the viscosity of the liquid applying material 6 was changed to 5.0 CP (centipoise) and the test was conducted again.

(73) In the samples with no compression member 20, swinging the sample 1, the sample 2, and the sample 3 four times caused the liquid leakage.

(74) In the case where the samples included the compression member 20 with the length of 4 mm and the absorbing body 7 was compressed, swinging the sample 1 six times caused the liquid leakage, swinging the sample 2 seven times caused the liquid leakage, and swinging the sample 3 six times caused the liquid leakage.

(75) Furthermore, in the case where the samples included the compression member 20 with the length of 5.5 mm and the absorbing body 7 was compressed, swinging the sample 1 and the sample 2 ninth times caused the liquid leakage, and swinging the sample 3 ten times caused the liquid leakage.

(76) Thus, compressing the absorbing body 7 in the longitudinal direction with the compression member 20 to increase the adhesiveness with the application member 5 does not penetrate the extra liquid applying material 6 to the application member 5 and the absorbing body 7 absorbs the extra liquid applying material 6.

(77) Consequently, it has proved that the applicator 1 of the present invention does not cause the liquid leakage.

REFERENCE SIGNS LIST

(78) 1 applicator 2 body 3 cap 4 inner cap 5 application member 6 liquid applying material 7 absorbing body 8 through-hole 9 nose piece 10 drawing member 11 plug 12 storage 13 stop plug 14 ball 15 rear end opening 16 through-hole 17 tail plug 20 compression member