STICK-SHAPED COSMETIC MATERIAL FEEDING CONTAINER

Information

  • Patent Application
  • 20110206443
  • Publication Number
    20110206443
  • Date Filed
    February 07, 2011
    13 years ago
  • Date Published
    August 25, 2011
    13 years ago
Abstract
To prevent breakage, a female screw member 4 has meshing parts 4b, a container rear part 2 has concave groove parts 2b, a clutch spring member 5 disposed on the rear side of the female screw member 4 has meshing parts 5d meshing with the meshing parts 4b, a spring part 5b urging the meshing parts 5d frontward, and convex parts Se entering into the concave groove parts 2b and being movable in the axial direction and not rotatable with respect to the container rear part 2, a rear part of the clutch spring member 5 beyond the spring part 5b is not movable in the axial direction with respect to the container rear part 2, and the spring part 5b contracts to cancel the meshing around the axis between the meshing parts 4b and 5d when an excessive rotation torque effects on a movable body 3.
Description
BACKGROUND OF THE INVENTION

1. Field of the Invention


The present invention relates to a stick-shaped cosmetic material feeding container capable of protruding/retracting a stick-shaped cosmetic material.


2. Description of the Conventional Art


Conventionally, a stick-shaped cosmetic material feeding container described in Japanese Patent Application Laid-Open No. 2008-178604 has been known. The stick-shaped cosmetic material feeding container houses a movable body and a female screw member in a cylindrical container having a container front part and a container rear part. The female screw member integrally includes, from a front side thereof toward a rear side in an axial direction, a female thread to be screwed with a male thread provided on the outer peripheral surface of the movable body, a spring part, and second meshing parts which are urged toward the rear side by the spring part so as to be enabled to mesh around an axis with first meshing parts of the container rear part at a time of relative rotation of the container front part and the container rear part.


Further, in the stick-shaped cosmetic material feeding container, when the container front part and the container rear part are relatively rotated, the movable body is advanced/retreated by a work of a screw part including a male thread of the movable body and a female thread of a female screw member, so that the stick-shaped cosmetic material supported by a top end of the movable body is protruded from and retracted into an opening of the a container top end. At this time, the first meshing parts of the container rear part mesh around the axis with the second meshing parts of the female screw member, and the female screw member is connected to the container rear part non-rotatably around the axis, so that the movable body is caused to be not rotatable around the axis and be movable in the axial direction with respect to the container front part. The female screw member is caused to be rotatable around the axis with respect to the container front part and non-rotatably connected to the container rear part by the aforementioned meshing. On the other hand, when the movable body reaches an advancing limit or a retreating limit and relative rotation force for further movement is given to the movable body, an excessive rotation torque effects on the movable body. In such a condition, the spring part of the female screw member is contracted and the second meshing parts of the female screw member advance against urging force of the spring part of the female screw member, so that the meshing around the axis of the both meshing parts is canceled. Then, the second meshing parts of the female screw member are retreated by the urging force of the spring part of the female screw member and the meshing of the both meshing parts recovers at an adjacent meshing position around the axis. Therefore, the stick-shaped cosmetic material feeding container has a so-called clutch function which can prevent damaging of parts.


SUMMARY OF THE INVENTION
Problems to be Solved by the Invention

In the stick-shaped cosmetic material feeding container described in Japanese Patent Application Laid-Open No. 2008-178604, when the movable body reaches the advancing limit or the retreating limit and relative rotation force for further movement is given to the movable body, the spring part of the female screw member is contracted and the second meshing parts of the female screw member advances against urging force of the spring part of the female screw member, so that the meshing around the axis of the both meshing parts is canceled. However, when the spring part is contracted, twisting force due to the relative rotation effects on the spring part so as to twist the spring part, and the twisting force is transmitted from the spring part to the female thread at the front side so as to effect on the movable body screwed with the female thread. Thus, the twisting force effects also on the stick-shaped cosmetic material supported by the top end of the movable body. As a result, the stick-shaped cosmetic material may be damaged.


Further, in the female screw member, the second meshing parts thereof mesh around the axis with the first meshing parts of the container rear part. However, parts other than the second meshing parts are rotatable around the axis with respect to the container rear part. Thus, the relative rotation force given to the container front part and the container rear part for advancing/retreating the stick-shaped cosmetic material is transmitted, while twisting the spring part. Therefore, there is a problem that the rotation torque to advance/retreat the stick-shaped cosmetic material cannot be transmitted smoothly (a time lag is caused).


Furthermore, since the twisting force effects on the spring part as mentioned above, there is a problem that the spring part is damaged quickly.


The present invention is to solve the aforementioned problems, and an objective of the present invention is to provide a stick-shaped cosmetic material feeding container, in which a clutch function can be exercised to prevent damaging of parts, a stick-shaped cosmetic material is protected without twisting force being effected on the stick-shaped cosmetic material, even when a movable body reaches an advancing limit or a retreating limit, relative rotation force for further moving the movable body is given to the movable body, and an excessive rotation torque effects on the movable body. Further, it is also aimed that a rotation torque due to the relative rotation for advancing/retreating the stick-shaped cosmetic material can be smoothly transmitted, and the life of a spring part can be made long.


Means for Solving the Problem

According to an aspect of the present invention, a stick-shaped cosmetic material feeding container includes a cylindrical container having a container front part and a container rear part; a movable body which is not rotatable around an axis and is movable in an axial direction with respect to the container front part, supports a stick-shaped cosmetic material at a top end thereof, and has a male thread at an outer peripheral part; and a female screw member which is rotatable around the axis with respect to the container front part, and has a female thread to be screwed with the male thread at an inner peripheral part. When the container front part and the container rear part are relatively rotated, a screw part configured with the male thread and the female thread works to advance/retreat the movable body, so that the stick-shaped cosmetic material protrudes from and retracts into an opening of a container top end. The female screw member includes first meshing parts at a rear end part thereof, and the container rear part includes concave groove parts extending in the axial direction on an inner peripheral surface thereof. A clutch spring member is disposed on the rear side of the female screw member. The clutch spring member includes second meshing parts, a spring part, and convex parts. The second meshing parts are provided at a top end part of the clutch spring member and mesh around the axis with the first meshing parts. The spring part is provided at the rear side beyond the second meshing parts and urges the second meshing parts frontward, so that the second meshing parts can mesh around the axis with the first meshing parts at a time of the relative rotation. The spring part is extendable and contractible in the axial direction. The convex parts are provided on an outer peripheral surface at the front side beyond the spring part, enter into the concave groove parts, and are movable in the axial direction and not rotatable around the axis with respect to the container rear part. A rear side part of the clutch spring member beyond the spring part is not movable in the axial direction with respect to the container rear part. When an excessive rotation torque effects on the movable body, the spring part is contracted so as to cancel the meshing around the axis of the both meshing parts.


According to the stick-shaped cosmetic material feeding container configured as mentioned above, the female thread to be screwed with the male thread of the movable body, which supports the stick-shaped cosmetic material and is not rotatable around the axis and is movable in the axial direction with respect to the container front part, is provided at the female screw member, which is rotatable around the axis with respect to the container front part. The spring part extendable and contractible in the axial direction is provided at the clutch spring member, which is located at the rear side of the female screw member and is not rotatable around the axis with respect to the container rear part. By the urging force of the spring part, the second meshing parts at the top end part of the clutch spring member mesh around the axis with the first meshing parts at the rear end part of the female screw member. Accordingly, the female thread and the spring part are provided separately at each part. Thus, even when the movable body reaches the advancing limit or the retreating limit, the relative rotation force for further moving the movable body is given to the movable body, and an excessive rotation torque effects on the movable body, the clutch function for canceling the meshing of the both meshing parts around the axis is exercised by contracting of the spring part, the stick-shaped cosmetic material is protected without the female screw member being twisted and without twisting force being effected on the stick-shaped cosmetic material. Thus, the stick-shaped cosmetic material feeding container can be prevented from damaging of the parts. Further, when the convex parts provided on the outer peripheral surface at the front side beyond the spring part enters into the concave groove parts of the container rear part, the clutch spring member comes to be not rotatable with respect to the container rear part. Thus, when the movable body advances/retreats by relative rotation of the container front part and the container rear part, the rotation torque is transmitted not via the spring part but via the convex parts provided at the front side from the spring part, so that the rotation torque can be transmitted smoothly without twisting the spring part and without causing a time lag. Furthermore, since the rotation torque is transmitted not via the spring part but via the convex parts at the front side beyond the spring part, the spring part is not twisted, so that the life of the spring part can be made long.


In the present invention, the second meshing parts of the clutch spring member are formed by arranging a plurality of chevron shapes in the peripheral direction, where each of the chevron shapes is symmetrical as viewed from the upper side, and projects frontward. Thus, when the movable body reaches any position of the advancing limit and the retreating limit, the clutch function can be exercised.


Effect of the Invention

As mentioned above, the present invention can provide a stick-shaped cosmetic material feeding container, in which a clutch function can be exercised to prevent damaging of parts, a stick-shaped cosmetic material is protected without twisting force being effected on the stick-shaped cosmetic material, even when a movable body reaches an advancing limit or a retreating limit, the relative rotation force for further moving the movable body is given to the movable body, and an excessive rotation torque is effected on the movable body. Further, a rotation torque due to the relative rotation for advancing/retreating the stick-shaped cosmetic material can be smoothly transmitted, and the life of the spring part can be made long.





BRIEF EXPLANATION OF DRAWINGS


FIG. 1 is a longitudinal sectional view illustrating an initial state of a stick-shaped cosmetic material feeding container according to an exemplary embodiment of the present invention.



FIG. 2 is a longitudinal sectional view when a stick-shaped cosmetic material support body reaches an advancing limit from the state illustrated in FIG. 1 by a user's operation.



FIG. 3 is a perspective view illustrating a stick-shaped cosmetic material cartridge in FIGS. 1 and 2.



FIG. 4 is an exploded perspective view of the stick-shaped cosmetic material cartridge illustrated in FIG. 3.



FIG. 5 is a longitudinal sectional view illustrating a main body cylinder in FIGS. 1 and 2.



FIG. 6 is a rear view illustrating the main body cylinder in FIGS. 1 and 2.



FIG. 7 is a perspective view illustrating a clutch spring member in FIGS. 1 and 2.



FIG. 8 is a side view illustrating the clutch spring member in FIGS. 1 and 2.





DETAILED DESCRIPTION OF PREFERRED EMBODIMENT

A preferred exemplary embodiment of a stick-shaped cosmetic material feeding container according to the present invention will be described below with reference to FIGS. 1 to 8. In addition, in each figure, the same numerous codes are used for the same elements, and duplicate descriptions will be omitted.



FIG. 1 is a longitudinal sectional view illustrating an initial state of a stick-shaped cosmetic material feeding container according to an exemplary embodiment of the present invention. FIG. 2 is a longitudinal sectional view when a stick-shaped cosmetic material support body reaches an advancing limit from the state illustrated in FIG. 1 by a user's operation. FIGS. 3 and 4 illustrate a stick-shaped cosmetic material cartridge. FIGS. 5 and 6 illustrate a main body cylinder. FIGS. 7 and 8 illustrate a clutch spring member. The stick-shaped cosmetic material feeding container of the present exemplary embodiment houses various kinds of stick-shaped cosmetic materials, e.g., an eyeliner, an eyebrow, a lip liner, a concealer and the like, and a user can optionally protrude/retract the cosmetic materials according to necessity.


As illustrated in FIG. 1, a stick-shaped cosmetic material feeding container 100 is structured such that a whole shape is formed in a slender round rod shape (a stick shape) like a writing instrument so as to have a good outer appearance. The stick-shaped cosmetic material feeding container 100 includes, as an external configuration, a stick-shaped cosmetic material cartridge 1 (refer to FIG. 3) configuring a container front part, and a main body cylinder 2 configuring a container rear part. The stick-shaped cosmetic material feeding container 100 houses, in the stick-shaped cosmetic material cartridge land the main body cylinder 2, a stick-shaped cosmetic material M, a stick-shaped cosmetic material support body 3 which is a movable body for supporting the stick-shaped cosmetic material M, a female screw member 4 configuring one part of a clutch mechanism and a screw part (a screwing mechanism), and a clutch spring member 5 configuring another part of the clutch mechanism.


As illustrated in FIGS. 5 and 6, the main body cylinder 2 has a cylindrical shape. On an inner peripheral surface of a rear half part of the main body cylinder 2, four projected ribs 2a extending in an axial direction are formed at four uniformly arranged positions in the peripheral direction. By forming these projected ribs 2a, concave groove parts 2b extending in the axial direction are formed between the projected ribs 2a and 2a. The concave groove parts 2b are for engaging the clutch spring member 5 in a rotational direction. Further, as illustrated in FIG. 5, the main body cylinder 2 includes engagement parts 2c on an inner peripheral surface of a rear end part thereof, for engaging the rear end part of the clutch spring member in the axial direction. Further, the main body cylinder 2 includes projections 2h at a position slightly front side from the projected ribs 2a on the inner peripheral surface of the rear end part thereof for engaging the stick-shaped cosmetic material cartridge 1 in the axial direction.


As illustrated in FIGS. 1, 3 and 4, the stick-shaped cosmetic material cartridge 1 includes a tip cylinder in a stepped cylindrical shape for housing the stick-shaped cosmetic material M, the stick-shaped cosmetic material support body 3 being arranged in the tip cylinder 11, extending in the axial direction, and supporting the stick-shaped cosmetic material M, and the female screw member 4 to be screwed with the stick-shaped cosmetic material support body 3.


The tip cylinder 11 includes a large diameter part 11a which projects from the main body cylinder 2 and can be gripped with fingers, and a small diameter part 11b continuously provided at a rear end of the large diameter part 11a and housed in the main body cylinder 2. As illustrated in FIG. 1, a front half of a cylinder hole of the tip cylinder 11 is a stick-shaped cosmetic material hole 11c for housing the stick-shaped cosmetic material M and causing the stick-shaped cosmetic material to be slidable, and a rear half of the cylinder hole is a hole having a large diameter via a stepped part and housing the female screw member 4.


In the tip cylinder 11, support piece grooves 11d are continuously provided at two or more positions (four uniformly arranged positions in the present exemplary embodiment) on a peripheral surface of the stick-shaped cosmetic material hole 11c from a position around a top end of the stick-shaped cosmetic material hole 11c to a rear end of the stick-shaped cosmetic material hole 11c. These support piece grooves 11d can house support pieces 3d (refer to FIG. 4) of the stick-shaped cosmetic material support body 3, which will be described below, and cause the cosmetic material support body 3 to be slidable. With the stick-shaped cosmetic material hole 11c and the support piece grooves 11d, an advancing/retreating hole 11e in which the stick-shaped cosmetic material M and the support pieces 3d slide is configured.


Further, at the approximate middle in the axial direction of the hole for housing the female screw member 4 of the tip cylinder 11, an engagement part 11g for engaging the female screw member 4 in the axial direction is formed. On an outer peripheral surface of a rear end part of the small diameter part 11b, an annular concave part 11h to engage in the axial direction with the projections 2h of the main body cylinder 2 is formed.


The female screw member 4 has a cylindrical shape, and includes a female thread 4a along the axial direction on the inner peripheral surface of the cylinder hole. The female screw member 4 has an engagement part 4g formed on the outer peripheral surface at the approximate middle in the axial direction thereof. The engagement part 4g engages in the axial direction with the engagement part 11g of the tip cylinder 11.


Further, as illustrated in FIGS. 1, 3 and 4, at a rear end part of the female screw member 4, ribs 4b extending along the axial direction are formed at eight uniformly arranged positions in the peripheral direction on the outer peripheral surface of the female screw member 4. Each of the ribs 4b has a symmetrical chevron shape as viewed in the axial direction, and includes, on a rear end surface thereof, an inclination surface 4c inclined with a downward gradient of 45° from an upper end surface toward a lower end surface. Further, these ribs 4b configure first meshing parts and configure one part of the clutch mechanism.


As illustrated in FIGS. 1 and 4, the female screw member 4 is inserted from the rear side of the cylinder hole of the tip cylinder 11, and an annular flange part 4d thereof abuts against the rear end surface of the tip cylinder 11, so that the engagement part 4g engages in the axial direction with the engagement part 11g of the tip cylinder 11. Accordingly, as illustrated in FIG. 3, the female screw member 4 is attached to the tip cylinder 11 so as to be rotatable around the axis and not movable in the axial direction.


As illustrated in FIGS. 1 and 4, the stick-shaped cosmetic material supporting part 3 includes a support part 3a for supporting the rear end part of the stick-shaped cosmetic material M, and a shaft body part 3b at the rear side beyond the support part 3a. The shaft body part 3b is a shaft body extending in the axial direction, and includes a screw projection 3e on the outer peripheral surface of the rear end part of the shaft body part 3b, where the screw projection 3e functions as a male thread. The support part 3a includes a base part 3c for causing the rear end surface of the stick-shaped cosmetic material M to abut, and a plurality of support pieces 3d for supporting the rear end surface of the stick-shaped cosmetic material M which is caused to abut against the base part 3c. The support pieces 3d are provided at two or more positions (four uniformly arranged positions in the present exemplary embodiment) in the peripheral direction on the outer peripheral surface of the base part 3c, so as to project toward the top end side. The rear end part of the stick-shaped cosmetic material M is fitted among these support pieces 3d, 3d.


As illustrated in FIG. 1, the stick-shaped cosmetic material support body 3 having the support part 3a and the shaft body part 3b is assembled with the tip cylinder 11 and the female screwed member 4 in a following manner. The base part 3c of the stick-shaped cosmetic material support body 3 enters into the stick-shaped cosmetic material hole 11c of the tip cylinder 11, and the support pieces 3d of the stick-shaped cosmetic material support body 3 enter into the support piece grooves 11d of the tip cylinder 11, so that the stick-shaped cosmetic support body 3 is inserted into the advancing/retreating hole 11e. With this configuration, the support piece grooves 11d function as a rotation stopper and engage the stick-shaped cosmetic material support body 3 to be not rotatable around the axis and be movable in the axial direction. The shaft body part 3b is inserted into the female screw member 4, and the screw projection 3e at the rear end part of the shaft body part 3b is screwed with the female thread 4a on the inner peripheral surface of the female screw member 4.


Further, the top end surfaces of the support piece grooves 11d are caused to be an advancing limit for the stick-shaped cosmetic material support body 3, where the top end surfaces of the support pieces 3d of the stick-shaped cosmetic material support body 3 abut against the top end surfaces of the support piece grooves 11. The top end surface of the female screw member 4 is caused to be a retreating limit for the stick-shaped cosmetic material support body 3, where the rear end surface of the base part 3c (the support part 3a) of the stick-shaped cosmetic material support body 3 abuts against the top end surface of the female screw member 4. In addition, the retreating limit of the stick-shaped cosmetic material support member 3 can be made by causing the rear end surface of the shaft part 3b of the stick-shaped cosmetic material support body 3 to abut against the rear end surface (the bottom surface of the inner side) of the inner side of the female screw member 4.


The stick-shaped cosmetic material cartridge 1 having the tip cylinder 11, the stick-shaped cosmetic material M, the stick-shaped cosmetic material support body 3, and the female screw member 4 is inserted from the front side of the cylinder hole of the main body cylinder 2. A stepped surface 11f between the large diameter part 11a and the small diameter part 11b of the tip cylinder 11 abuts against the top end surface of the main body cylinder 2, and the annular concave part 11h of the tip cylinder 11 engages with the projections 2h of the main body cylinder 2 in the axial direction. With this configuration, stick-shaped cosmetic material cartridge 1 is attached so as to be detachable and rotatable around the axis with respect to the main body cylinder 2.


As illustrated in FIGS. 1, 7 and 8, the clutch spring member 5 is an integrated product made of a resin and configured in an approximately cylindrical shape. The clutch spring member 5 includes a clutch cylinder part 5a at a top end part thereof, an attaching part 5c on the rear end side thereof, and a spring part 5b which connects the clutch cylinder part 5a and the attaching part 5c and is extendible/contractible in the axial direction.


The clutch cylinder part 5a has projection parts 5d at four uniformly arranged positions in the peripheral direction on the outer peripheral surface of the top end thereof, and the projection parts 5d projects frontward from the top end. The projection part 5d has a chevron shape, which is symmetrical as viewed from the upper side, and projects frontward. These projection parts 5d are second meshing parts to mesh around the axis with the ribs 4b which are the first meshing parts of the main body cylinder 2.


Further, the clutch cylinder part 5a has convex parts (projection streaks) 5e on the outer peripheral surface thereof, and the convex part 5e is formed by extending the rear end of the projection part 5d to the rearward spring part 5b. These projection parts 5d and convex part 5e being provided continuously with the projection parts 5d and extending rearward are for entering into the concave groove parts 2b of the main body cylinder 2 so as to engage in the rotational direction.


The spring part 5b includes an approximately spiral slit. With this slit, the spring part 5b functions as a compression spring for frontward urging the projection parts 5d which are the second meshing parts of the clutch cylinder part 5a, and these spring part 5b and the projection parts (second meshing parts) 5d configure another part of the clutch mechanism.


The attaching part 5c is a cylindrical part continuously provided at a rear end of the spring part 5b. The attaching part 5c has convex parts (projection streaks) 5f at positions apart rearward from those of the projection parts 5d of the clutch cylinder part 5a on the outer peripheral surface of the attaching part 5c, and the convex parts 5f enter into the concave grooves 2b of the main body cylinder 2 so as to engage in the rotational direction. Further, the attaching part 5c has an engagement part 5g formed at a rear part thereof, and the engagement part 5g engages in the axial direction with the engagement parts 2c of the main body cylinder 2.


As illustrated in FIG. 1, the clutch spring member 5 having the clutch cylinder part 5a, the spring part 5b, and the attaching part 5c is inserted from the rear end side of cylinder hole of the main body cylinder 2 so that the projection parts 5d of the clutch spring member 5 agree with the concave groove parts 2b of the main body cylinder 2. An annular flange part 5h at the rear part of the attaching part 5c enters into and abuts against the annular concave part 2d (refer to FIG. 5) formed on the rear end surface of the main body cylinder 2, and the projection parts 5d and the convex parts 5e and 5f enter into the concave groove parts 2b of the main body cylinder 2 so as to engage in the rotational direction. Further, the engagement part 5g of the attaching part 5c engages with the engagement parts 2c of the main body cylinder 2 in the axial direction. With this configuration, the attaching part 5c is caused to be not rotatable and not movable in the axial direction with respect to the main body cylinder 2. Further, the clutch cylinder part 5a and the spring part 5b are caused to be not rotatable and be movable in the axial direction with respect to the main body cylinder 2.


Further, in the aforementioned state, the projection parts 5d of the clutch spring member 5 are urged frontward by the spring part 5b and each of them enters between the ribs 4b, 4b of the female screw member 4, so that meshing around the axis can be made at a time of relative rotation of the tip cylinder 11 and the main body cylinder 2.


In the stick-shaped cosmetic material feeding container 100 of the present exemplary embodiment configured as mentioned above, when a user relatively rotates the tip cylinder 11 and the main body cylinder 2 in the feeding direction which is one direction, the ribs 4b of the female screw member 4 and the projection parts 5d of the clutch spring member 5 mesh around the axis, so that the female screw member 4 comes to be connected non-rotatably (synchronous-rotatably) around the axis to the main body cylinder 2 via the clutch spring member 5. Then, as illustrated in FIG. 2, the screw part configured with the screw projection 3e of the stick-shaped cosmetic material support body 3 and the female thread 4a of the female screw member 4 works the stick-shaped cosmetic material support body 3 to advance, so that the stick-shaped cosmetic material M appears from the opening of the top end of the tip cylinder 11 to become ready for use. The stick-shaped cosmetic material support body 3 is caused to be not rotatable around the axis and be movable in the axial direction with respect to the tip cylinder 11. The female screw member 4 is caused to be rotatable around the axis with respect to the tip cylinder 11 and connected to the main body cylinder 2 to be not rotatable by the aforementioned meshing.


Further, when the user relatively rotates the tip cylinder 11 and the main body cylinder 2 in a retracting direction which is an opposite direction to the one direction, the stick-shaped cosmetic material support body 3 retracts, and the stick-shaped cosmetic material M retracts into the opening at the top end of the tip cylinder 11.


In the present exemplary embodiment, as illustrated in FIG. 2, the top end surfaces of the support pieces 3d of the stick-shaped cosmetic material support body 3 abut against the top end surfaces of the support piece grooves 11d, and the stick-shaped cosmetic material support body 3 reaches the advancing limit. Further, as illustrated in FIG. 1, the rear end surface of the base part 3c of the stick-shaped cosmetic material support body 3 abuts against the top end surface of the female screw member 4, and the stick-shaped cosmetic material support body 3 reaches the retreating limit (or the rear end surface of the shaft body part 3b of the stick-shaped cosmetic material support body 3 abuts against the rear end surface of the inner side (a bottom surface of the inner side) of the female screw member 4, and the stick-shaped cosmetic material support body 3 reaches the retreating limit). When the relative rotation force for further moving the stick-shaped cosmetic material support body 3 is given at these advancing/retreating limits and an excessive rotation torque is effected on the stick-shaped cosmetic material support body 3, the spring part 5b of the clutch spring part 5 is contracted, the clutch cylinder part 5a is retreated, and the meshing around the axis of the first meshing parts (the ribs 4b of the female screw member 4) and the second meshing parts (the projection parts 5d of the clutch spring member 5) is canceled. Then, the clutch cylinder part 5a of the clutch spring member 5 is advanced by the urging force of the spring part 5b, and the meshing of the both engagement parts 4b and 5d recovers at a meshing position adjacent in the rotational direction. Thus a so-called clutch function is achieved.


At this time, in the stick-shaped cosmetic material feeding container 100 of the present exemplary embodiment, the female thread 4a, which is screwed with the screw projection 3e of the stick-shaped cosmetic material support body 3, and the spring part 5b are provided in separate parts. Thus, the clutch function can be exercised to prevent damaging of parts, the stick-shaped cosmetic material M is protected without the female screw member 4 being twisted and without twisting force being effected on the stick-shaped cosmetic material M. Incidentally, in the conventional stick-shaped cosmetic material feeding container, the female thread and the spring part are provided on one part. When the spring part is twisted, the twisting force is transmitted from the spring part to the female thread at the front side and effected on the movable body screwed with the female thread, so that the twisting force is effected also on the stick-shaped cosmetic material supported by the top end of the movable body. As a result, the stick-shaped cosmetic material may be damaged.


Further, in the present exemplary embodiment, the projection parts 5d and the convex parts 5e which are provided on the outer peripheral surface at the front side beyond the spring part 5b of the clutch spring member 5 enter into the concave groove parts 2b of the main body cylinder 2, so that the clutch spring member 5 is not rotatable with respect to the main body cylinder 2. Thus, in a state that a user relatively rotates the tip cylinder 11 and the main body cylinder 2 in a feeding direction or a retracting direction so as to advance/retreat the stick-shaped cosmetic material M, the rotation torque is transmitted not via the spring part 5b but via the projection parts 5d and the convex parts 5e which are at the front side beyond the spring part 5b, so that the rotation torque can be transmitted smoothly without twisting the spring part 5b and causing the time lag. Furthermore, since the rotation torque is transmitted not via the spring part 5b but via the projection parts 5d and the convex parts 5e, which are at the front side beyond the spring part 5b, and the spring part 5b is not twisted, the life of the spring part 5b can be made long.


In addition, in the present exemplary embodiment, the projection parts 5d are configured to enter into the concave groove parts 2b of the main body cylinder 2. However, the following configuration can be also used. The projection parts 5d are provided at a more inner side position in the axial direction than that of the present exemplary embodiment so as not to enter into the concave groove parts 2b of the main body cylinder 2, and only the convex parts 5e enter into the concave groove parts 2b. Alternatively, the convex parts 5e are not formed, and the projection parts 5d are formed to be convex parts entering into the concave groove part 2b so as to have an engagement function in the rotational direction with respect to the main body cylinder 2 and to have a function of a meshing part.


Further, in the present exemplary embodiment, the second meshing parts of the clutch spring member 5 are formed by arranging a plurality of chevron shapes in the peripheral direction, where each of the chevron shapes is symmetrical as viewed from the upper side, and projects frontward. Thus, even when the stick-shaped cosmetic material support body 3 reaches any position of the advancing limit and the retreating limit, the clutch function can be exercised.


Furthermore, in the configuration of the present exemplary embodiment, the clutch spring member 5 is configured to be not rotatable around the axis with respect to the main body cylinder 2 by providing the concave groove parts 2b at the main body cylinder 2. Thus, the size of the present exemplary embodiment can be made small without increasing the outer diameter of the main body cylinder 2.


In addition, regarding the engagement in the axial direction of the engagement part 4g of the female screw member 4 with respect to the engagement part 11g of the tip cylinder 11, this engagement can be an engagement positively having a gap (looseness) in the axial direction. By adopting the configuration as mentioned above and enabling the female screw member 4 to slightly move in the axial direction, for example, an impact due to a fall or the like of the stick-shaped cosmetic material feeding container 100 or an impact effected on the stick-shaped cosmetic material M at a time of outer force such as a vibration or the like being effected can be absorbed and reduced by extending/contracting of the spring part 5b of the clutch spring member 5 via the stick-shaped cosmetic material support body 3 and the female screw member 4. Thus, the stick-shaped cosmetic material M can be prevented from removing from the support part 3a of the stick-shaped cosmetic material support body 3. Further, when the stick-shaped cosmetic material. M is coated to a part to be coated, the spring part 5b of the clutch spring member 5 is extended/contracted via the stick-shaped cosmetic material support body 3 and the female screw member 4. Thus, a coating pressure comes to be appropriate so as to improve a feeling at a time of use. In addition, since the coating pressure is appropriate, the breakage of the stick-shaped cosmetic material M can be prevented.


The present invention is described in detail according to the exemplary embodiment. However, the present invention is not limited in the above-described exemplary embodiment. For example, in the exemplary embodiment, the stick-shaped cosmetic material cartridge 1 is detachable with respect to the main body cylinder 2. However, the stick-shaped cosmetic material cartridge 1 can be made non-detachable with respect to the main body cylinder 2, and does not necessarily have the shape of a cartridge.


Further, the male thread and the female thread can be replaced with others which work like threads such as a projection group disposed intermittently and a projection group disposed spirally and intermittently. Furthermore, the screw projection can be a continuous thread.

Claims
  • 1. A stick-shaped cosmetic material feeding container comprising: a cylindrical container having a container front part and a container rear part;a movable body being not rotatable around an axis and being movable in an axial direction with respect to the container front part, supporting a stick-shaped cosmetic material at a top end thereof, and having a male thread at an outer peripheral part; anda female screw member being rotatable around the axis with respect to the container front part, and having, at an inner peripheral part, a female thread to be screwed with the male thread,wherein, by a relative rotation of the container front part and the container rear part, a screw part configured with the male thread and the female thread works to advance/retreat the movable body so that the stick-shaped cosmetic material protrudes from and retracts into an opening of a container top end,wherein the female screw member comprises first meshing parts at a rear end part thereof,wherein the container rear part comprises concave groove parts extending in the axial direction on an inner peripheral surface thereof,wherein a clutch spring member is disposed on the rear side of the female screw member,wherein the clutch spring member comprises:second meshing parts being provided at a top end part of the clutch spring member and meshing around the axis with the first meshing parts;a spring part being provided at the rear side beyond the second meshing parts, urging the second meshing parts frontward so that the second meshing parts can mesh around the axis with the first meshing parts at a time of the relative rotation, and being extendable and contractible in the axial direction; andconvex parts being provided on an outer peripheral surface at the front side beyond the spring part, entering into the concave groove parts, and being movable in the axial direction and being not rotatable around the axis with respect to the container rear part;wherein a rear side part of the clutch spring member beyond the spring part is not movable in the axial direction with respect to the container rear part; andwherein, when an excessive rotation torque effects on the movable body, the spring part is contracted so as to cancel the meshing around the axis between both the meshing parts.
  • 2. The stick-shaped cosmetic material feeding container as claimed in claim 1, wherein the second meshing parts of the clutch spring member are formed by arranging a plurality of chevron shapes in the peripheral direction, and each of the chevron shapes is symmetrical as viewed from the upper side, and projects frontward.
Priority Claims (1)
Number Date Country Kind
2010-040343 Feb 2010 JP national