Compact using applicator as pushbutton

Abstract

Provided is a compact using an applicator as a pushbutton, the compact being used in such a manner that the applicator is pushed to enable a pumping operation so that a gel phase content can be discharged to an upper part of a push plate. To do so, a metal piece (70) and a magnetic piece (80) are installed to be opposed at circumferentially equiangular positions of the applicator (60) and an intermediate body (200) arranged at an upper part of a container body (100) so that the applicator can be automatically aligned to a fixed rotation position by a magnetic force; the applicator is aligned in an exact center of the push plate by the balance of power resulting from the magnetic force and forms a spaced gap (T1) with the upper part of the push plate; and pushing operation is comfortably performed by the magnetic force.

Claims

1. A compact using an applicator as a pushbutton, comprising: a container body (100); an intermediate body (200) connected to an upper part of the container body; and a container cap (300) hinge-connected to the container body to close and open, wherein the container body (100) includes, internally: an inner container (10) configured for storing a gel phase content; an inner container cap (20) connected to an upper part of the inner container; a piston (12) disposed inside the inner container to push the gel phase content while vertically moving downwards whenever discharging the gel phase content; and a pumping operation portion (40) formed in the center of the inner container cap (20) to be connected inside a cylinder (30) having an inlet (31), the intermediate body (200) includes, internally: a push plate (50) positioned at an upper part of the pumping operation portion (40); and an applicator (60) installed in a mounting groove (51) of an upper part of the push plate, so that the gel phase content is discharged and supplied via a discharge hole (52) in the center of the push plate, or is blocked by pushing the applicator (60) so as to enable a pumping operation of the pumping operation portion (40), and in the applicator (60) and the intermediate body (200) positioned at an outer side of the applicator, a metal piece (70) and a magnetic piece (80) are installed to be opposed at circumferentially equiangular positions so that the applicator (60) in the mounting groove (51) of the upper part of the push plate (50) rotates automatically and circumferentially to be aligned to a fixed rotation position by the effect of a magnetic force of the metal piece and the magnetic piece.

2. The compact of claim 1, wherein the metal piece (70) and the magnetic piece (80) are configured to be positioned on the same vertical line.

3. The compact of claim 1, wherein the applicator (60) comprises a puff body (61) in which a puff (65) is detachably connected to a lower part thereof; and a body cap (62) insertably connected to an upper part of the puff body, so that the metal piece (70) is inserted into an assembly groove (63) formed at two circumferentially equiangular positions between the puff body (61) and the body cap (62), and the body cap (62) has an inclined curve portion (64) formed to be inclined so that an upper part of an outer circumference has a larger diameter than that of a lower part, and thus the body cap is configured to cover a gap (T2) generated between the intermediate body (200) and the applicator (60) in a plan view while enabling improvement in grip comfort.

4. The compact of claim 1, wherein a back-filling hole (13) is further formed at a bottom of the inner container (10), and a sealing cap (14) is openably connected to the back-filling hole (13) so that the gel content is filled from the back after assembly of the compact container.

5. A compact using an applicator as a pushbutton, comprising: a container body (100); an intermediate body (200) connected to an upper part of the container body; a container cap (300) hinge-connected to the container body to close and open vertically; wherein the container body (100) includes, internally: an inner container (10) configured for storing a gel phase content; an inner container cap (20) connected to an upper part of the inner container; a piston (12) disposed inside the inner container to push the gel phase content while vertically moving downwards whenever discharging the gel phase content; and a pumping operation portion (40) formed in the center of the inner container cap (20) to be connected inside a cylinder (30) having an inlet (31), the intermediate body (200) includes, internally: a push plate (50) positioned at an upper part of the pumping operation portion (40); and an applicator (60) installed in a mounting groove (51) of an upper part of the push plate, so that the gel phase content is discharged and supplied via a discharge hole (52) in the center of the push plate, or is blocked by pushing the applicator (60) so as to enable a pumping operation of the pumping operation portion (40), and in the applicator (60) and the intermediate body (200) positioned at an outer side of the applicator, a metal piece (70) and a magnetic piece (80) are installed to be opposed at circumferentially equiangular positions, so that the applicator (60) in the mounting groove (51) of the upper part of the push plate (50) rotates automatically and circumferentially to be aligned to a fixed rotation position by the effect of a magnetic force of the metal piece and the magnetic piece, and so that the balance of power is maintained such that the applicator (60) is positioned in an exact center of the mounting groove (51) arranged at the upper part of the push plate (50) by the effect of a magnetic force of the metal piece and the magnetic piece, and the applicator in the mounting groove (51) of the upper part of the push plate (50) is separated upwards from the upper part of the push plate so as to form a spaced gap (T1) for enabling air flow.

6. The compact of claim 5, wherein the metal piece (70) and the magnetic piece (80) are configured to be positioned on the same vertical line.

7. The compact of claim 5, wherein the applicator (60) comprises a puff body (61) in which a puff (65) is detachably connected to a lower part thereof; and a body cap (62) insertably connected to an upper part of the puff body, so that the metal piece (70) is inserted into an assembly groove (63) formed at two circumferentially equiangular positions between the puff body (61) and the body cap (62), and the body cap (62) has an inclined curve portion (64) formed to be inclined so that an upper part of an outer circumference has a larger diameter than that of a lower part, and thus the body cap is configured to cover a gap (T2) generated between the intermediate body (200) and the applicator (60) in a plan view while enabling improvement in grip comfort.

8. The compact of claim 5, wherein a back-filling hole (13) is further formed at a bottom of the inner container (10), and a sealing cap (14) is openably connected to the back-filling hole (13) so that the gel content is filled from the back after assembly of the compact container.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a perspective view showing the assembly of a compact according to the present invention;

(2) FIG. 2 is a perspective view showing a partially open state of the compact according to the present invention;

(3) FIG. 3 is a cross-sectional view taken along line A1-A1 of FIG. 1;

(4) FIG. 4 is a cross-sectional view taken along line B2-B2 of FIG. 1;

(5) FIG. 5 is a partially enlarged view of portion A of FIG. 4;

(6) FIG. 6 is a partially enlarged view of portion B of FIG. 4;

(7) FIG. 7 is a plan view of main parts showing an automatic alignment structure of an applicator according to the present invention;

(8) FIG. 8 is an exploded cross-sectional view of the applicator according to the present invention;

(9) FIG. 9 is an extracted and exploded perspective view of a pumping operation portion according to the present invention;

(10) FIG. 10 is a cross-sectional view showing a pushed state of the applicator according to the present invention; and

(11) FIG. 11 is a cross-sectional view showing a push-released state of the applicator according to the present invention.

MODE FOR THE INVENTION

(12) Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

(13) A compact using an applicator as a pushbutton according to the present invention is largely composed of, as illustrated in FIGS. 1 to 9, a container body 100, an intermediate body 200 connected to an upper part of the container body; and a container cap 300 hinge-connected to the container body so as to close and open.

(14) The container body 100 includes, internally: an inner container 10 in which a gel phase content is stored; an inner container cap 20 connected to an upper part of the inner container; a cylinder 30 installed in the center of the inner container cap 20; and a pumping operation portion 40 connected to the inside of the cylinder. Inside the inner container, a ring-shaped piston 12 configured for pushing the gel phase content downwards upon discharging operation of the gel phase content is installed, and the inner container cap 20 has at least one air hole 22 formed for facilitating smooth vertically downward movement of the piston 12.

(15) The intermediate body 200 includes, internally, a push plate 50 installed to be positioned at an upper part of the pumping operation portion 40 and an applicator 60 installed in a mounting groove 51 of an upper part of the push plate so that the gel phase content can be discharged and supplied via a discharging hole 52 in the center of the push plate by pushing the applicator 60 to enable pumping operation of the pumping operation portion 40.

(16) In particular, in the applicator 60 and the intermediate body 200 arranged at an outer side of the applicator, a metal piece 70 and a magnetic piece 80 are installed to be opposed at two circumferentially equiangular positions so that the applicator 60 in the mounting groove 51 of an upper part of the push plate 50 can be automatically aligned to a fixed rotation position by the effect of a magnet force of the metal piece 70 and the magnetic piece 80.

(17) That is, the applicator 60 is configured to be automatically aligned to a predetermined rotation position in the mounting groove 51 of the upper part of the push plate 50 so that a printing part 60a printed with a company logo or a company name on an upper surface of the applicator can be regularly positioned (see FIG. 7).

(18) Also, in the applicator 60 and the intermediate body 200 located at the outer side of the applicator, the metal piece 70 and the magnetic pieces 80 are installed to be opposed at two circumferentially equiangular positions or at least two circumferentially equiangular positions so that the balance of power can be maintained such that the applicator 60 is positioned in the exact center of the mounting groove 51 arranged at the upper part of the push plate 50 by the effect of a magnetic force of the metal piece and the magnetic piece, and the applicator in the mounting groove 51 of the upper part of the push plate 50 is separated upwards from the upper part of the push plate so as to form a spaced gap T1 for enabling air flow (see FIG. 5).

(19) At this time, the metal piece 70 and the magnetic piece 80 may be configured to be positioned on the same horizontal line, or the metal piece 70 and the magnetic piece 80 may be configured to be dislocated vertically.

(20) Also, the applicator 60 includes: a puff body 61 in which a puff 65 is detachably connected to a lower part of the puff body; and a body cap 62 insertably connected into an upper part of the puff body 61, wherein the metal piece 70 is installed to be inserted into an assembly groove 63 formed at two circumferentially equiangular positions between the puff body 61 and the body cap 62.

(21) Furthermore, the body cap 62 of the applicator 60 has an inclined curve portion 64 formed to be inclined so that an upper part of an outer circumference can have a larger diameter than that of a lower part thereof, so that it is preferable to configure the body cap to cover a gap T2 generated between the intermediate body 200 and the applicator 60 in a plan view while enabling improvement in grip comfort (see FIG. 5).

(22) Also, the pumping operation portion 40 includes: a stem 41 installed inside the cylinder 30; a stem piston 42 installed between an outer circumferential surface of the stem and an inner circumferential surface of the cylinder 30; a sealing cap 43 connected to an upper part of the cylinder; a spring-shaped lifting member 44 installed between an outer side of the cylinder and a lower part of the push plate 50; and a check valve 45 configured for blocking an inlet 31 formed at a lower part of the cylinder.

(23) At this time, a hollow hole 41a connected to the discharging hole 52 of the push plate 50 is formed in an inner center of the stem 41, an inflow hole 41b for inflow of the gel phase content is formed in a lower side of the hollow hole, and a support flange 41c is integrally formed on a lower circumference.

(24) Furthermore, a back-filling hole 13 is formed at a bottom of the inner container 10, a sealing cap 14 is openably connected to the back-filling hole 13 so that the gel phase content can be filled after assembly of the compact.

(25) With regard to non-described reference numerals, reference numeral 110 refers to an open button provided in the container body 100 to be pushable, and reference numeral 310 refers to a mirror provided inside an upper cap.

(26) The operation and action of the compact configured as described above using the applicator as the pushbutton according to present invention will be reviewed.

(27) The compact according the present invention is operated in such a manner as to open the container cap 300 installed at the upper part of the container body 100 by operating the open button 110, and thereafter, to apply the gel phase content to the user s skin using the applicator 60 mounted in the mounting groove 51.

(28) In particular, since of the metal piece 70 and the magnetic piece 80 are installed to be opposed at two circumferentially equiangular positions of the applicator 60 and the intermediate body 200 connected to the upper part of the container body 100, when the applicator 60 is maintained in a state of being mounted in the mounting groove 51 of the upper part of the push plate 50, as illustrated in FIG. 7, the applicator 60 rotates automatically so that the metal piece 70 and the magnetic piece 80 can be positioned to correspond to each other by the effect of a magnetic force of the metal piece 70 and the magnetic force 80, and thus the applicator 60 in the mounting groove 51 of the push plate 50 is automatically aligned to a fixed rotation position.

(29) Thus, since the printing portion 60a printed with a company logo or name on the upper surface of the applicator 60 is aligned at a fixed position, when the container cap 300 of the upper part of the container body is open, the applicator 60 is always aligned at an exact position, so that a neat appearance can be provided to consumers and storage stability can be maintained.

(30) Moreover, the applicator 60 is positioned in an exact center of the mounting groove 51 arranged at the upper part of the push plate 50 because the balance of power is maintained by the effect of the magnetic force of the metal piece 70 and the magnetic piece 80, and the applicator in the mounting groove 51 of the upper part of the push plate 50 is separated upwards from the upper part of the push plate to form a spaced gap T1 with the push plate 50 so that air flow can be always smoothly performed, and as a result, the content on the puff 65 of the applicator 60 can be prevented from bacterial contamination or corruption as is typical in existing products.

(31) Also, since the body cap 62 of the applicator 60 has the inclined curve portion 64 formed to be inclined so that that the upper part of the outer circumference can have a larger diameter than that of a lower part, grip comfort upon holding of the applicator may be improved, and the applicator may be prevented from being unintentionally separated from the user s hand. Furthermore, in a plan view, since the gap T2 generated between the intermediate body 200 and the applicator 60 is covered, neat and stable storage can be maintained.

(32) As described above, the compact according to the present invention is used in such a manner that the applicator 60 mounted in the mounting groove 51 of the upper part of the push plate 50 inside the container body 100 is pushed to enable a pumping operation of the pumping operation portion 40 so that the content can be discharged.

(33) More specifically, as shown in FIG. 10, the applicator 60 is pushed while compressing the lifting member 44 of the pumping operation portion 40.

(34) At this time, since the applicator 60 is pushed in a state of being separated upwards from the upper part of the push plate in the exact center of the mounting groove 51 arranged at the upper part of the push plate 50 rather than being simply pushed while compressing the lifting member 44, the applicator 60 is comfortably pushed by the effect of the magnetic force acting on the applicator, and thus a repulsive force acts on the entire body of the applicator 60 so that the applicator can be regularly pushed and a soft touch feel thereof can be also provided.

(35) As such, when the applicator 60 is pushed, the stem 41 is primarily descended by the push plate 50, a minute discharge space P is provided between the flange 41c and the stem piston 42 provided on an outer circumferential surface of the stem, and at the same time, the gel phase content entered into the cylinder 30 flows into the inlet hole 41b of the stem 41 via the discharge space; and a suitable amount of gel phase content is finally discharged via the discharge hole 52 of the push plate 50 by passing a cavity portion 41a of the stem formed to communicate with the discharge hole and is then diffused on the upper surface of the push plate 50 via the spaced gap T1 between the push plate 50 and the applicator 50 so as to be used in a state of being uniformly applied on the puff 65 of the applicator.

(36) Furthermore, when the applicator 60 is continuously pushed, the stem 41 is descended, and thus the stem piston 42 is also downwardly moved. Due to this, the discharge space provided between the stem piston and the flange 41c of the stem is descended again in a state of being closed, and at this time, due to a descending compression effect of the stem and the stem piston, the inlet 31 of the cylinder 30 is more firmly blocked by the check valve 45 so that the gel phase content entered in the cylinder 30 can be prevented from flowing backward into the inner container 10.

(37) Meanwhile, when a force applied to the applicator 60 is released, the push plate 50 is returned to its original state by a reaction force as illustrated in FIG. 11, and the stem 41 connected thereto is also upwardly moved. At the same time, the stem piston is also upwardly moved. Furthermore, in the inside of the cylinder 30, as the check valve 45 is forcibly lifted by attraction power generated at the time of lifting operation of the stem 41, the inlet 31 of the cylinder 30 is open, and at the same time, a suitable amount of gel phase content contained in the inner container 10 smoothly flows via the inlet. Furthermore, during a flowing process of the gel phase content, the piston 12 disposed in the inner container 10 compresses the gel phase content to be compressed downwards while vertically closely descending along an internal wall of the inner container 10 and an internal wall provided at an outer side of the cylinder of the inner container cap 29.

(38) Accordingly, thanks to the descending compression action of the piston 12, the gel phase content contained in the inner container 10 more smoothly enters into the cylinder via the inlet formed in the cylinder 30 upon, in particular, lifting operation of the push plate 50, and the descending compression action also enables the gel phase content contained in the inner container 10 to be completely used with no content remaining.

(39) The descending compression action of the piston 12 is performed by being linked with the pumping operation portion 40 whenever touching the push plate 50 using the applicator 60 and enables the gel phase content contained in the inner container 10 to be pushed downwards.

(40) Furthermore, after the applicator 60 has been separated from the push plate 50 for use, when the applicator is again maintained in a state of being installed at the upper part of the push plate after use, the applicator 60 is automatically aligned to a fixed rotation position in the mounting groove 51 of the upper part of the push plate 50 as previously described even though the applicator 60 is carelessly dispensed on the push plate. For example, as shown in FIG. 7, thanks to the magnetic force of the metal piece 70 and the magnetic piece 80, the applicator is automatically aligned so that the printed portion 60a can be always disposed at an exact position.

(41) Also, the puff 65 of the applicator 60 in the mounting groove 51 of the push plate 50 is installed to be separated upwards from the push plate to have the spaced gap T1 for enabling air flow.

(42) Furthermore, in the present invention, since the puff 65 of the applicator 60 is detachably connected to a lower assembly portion of the puff body 61 in an insertion method, the puff can be simply exchanged and used.

(43) Furthermore, because the metal piece 70 inside the applicator 60 is configured in such an assembly method that the metal piece is inserted into the assembly groove 63 formed at two circumferentially equiangular positions between the puff body 61 and the body cap 62 inserted into an upper part of the puff body 61, work for assembly, disassembly and the like can be simplified.

(44) Also, in the present invention, since the gel phase content filled in the inner container 10 is formed so as to be filled from the back via the back-filling hole 13, when the compact has been produced and delivered to respective cosmetic manufacturers, the respective cosmetic manufacturers can simply fill the compact with the gel phase content. Furthermore, since the gel phase content can be distributed in a sealing state using the sealing cap 14, in terms of manufacturing production, excellent convenience can be provided. Also, unlike an existing case where respective parts are individually packed and supplied, it is advantageous in that the compact may be packed and supplied in a state of being assembled into a complete product thanks to the presence of a back-filling function so that packaging volume and costs can be remarkably reduced.

(45) Although the present invention has been described with reference to the embodiments and accompanying drawings, the present invention should not be limited thereto but should be interpreted that various modifications and changes are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.