JP2013208139A - Dispensing container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To effectively suppress play of an inner cylinder and an outer cylinder in a container axis direction.SOLUTION: A dispensing container 10 includes: a container body 13 having an inner cylinder 11 and an outer cylinder 12 externally mounted over the inner cylinder 11 to be relatively rotatably in the circumferential direction; and a holding part 14 arranged in the inner cylinder 11 so as to be advanceable and retractable in a container axis O direction and holding a content A housed inside the container body 13. The holding part 14 holds the content A projectingly to one side in the container axis O direction, is made to advance/retreat in a direction of the container axis O with a relative rotation in the circumferential direction of the inner cylinder 11 and the outer cylinder 12. The holding part 14 includes an urging part 27 advancing to one side to make the content A project from an opening on one side in the container body 13, urge the outer cylinder 12 to one side relative to the inner cylinder 11, and bringing an abutment part 26 provided in the outer cylinder 12 into pressure-contact with a receiving part 18 provided in the inner cylinder 11.

Description

  The present invention relates to a feeding container.

  Conventionally, for example, a feeding container as shown in Patent Document 1 below is known. The feeding container is provided with a container body having an inner cylinder part and an outer cylinder part that is externally rotatably mounted on the inner cylinder part in a circumferential direction, and is disposed in the inner cylinder part so as to be able to advance and retreat in the container axial direction. And a holding part for holding the contents accommodated in the container main body. The holding portion holds the contents in a state of projecting to one side in the container axial direction and is advanced and retracted in the container axial direction with relative rotation in the circumferential direction between the inner cylindrical portion and the outer cylindrical portion, By advancing to one side, the contents are projected from the opening on the one side of the container body.

Registered Utility Model No. 2528703

  However, in the conventional feeding container, there is room for improvement in suppressing the inner cylinder part and the outer cylinder part from rattling in the container axial direction.

  This invention is made | formed in view of the situation mentioned above, The objective is providing the delivery container which can suppress effectively that an inner cylinder part and an outer cylinder part rattle a container axial direction. It is.

In order to solve the above problems, the present invention proposes the following means.
The feeding container according to the present invention includes a container body having an inner cylinder part, and an outer cylinder part that is externally rotatably mounted on the inner cylinder part in a circumferential direction, and is advanced and retracted in the container axial direction within the inner cylinder part. A holding portion that holds the contents contained in the container body, and holds the contents in a state of protruding the contents to one side in the container axial direction. As the inner cylinder part and the outer cylinder part are rotated relative to each other in the circumferential direction, the container is moved forward and backward in the axial direction of the container. A feeding container protruding from an opening, wherein the outer tube portion is urged toward the one side with respect to the inner tube portion, and an abutting portion provided in the outer tube portion is provided in the inner tube portion. An urging member that presses the received receiving portion is provided.

According to this invention, since the urging member is provided, the movement of the outer cylinder portion relative to the inner cylinder portion in the container axial direction can be restricted from both sides in the container axial direction by the urging member and the receiving portion. Thus, it is possible to effectively prevent the inner cylinder part and the outer cylinder part from rattling in the container axial direction.
In addition, since the rattling is suppressed by urging the outer cylinder portion with respect to the inner cylinder portion by the urging member in this way, it is assumed that the dimensions of the inner cylinder portion and the outer cylinder portion vary within the manufacturing tolerance. However, rattling can be reliably suppressed.

  Further, the urging member may be formed in an annular shape extending in the circumferential direction while alternately bending in the container axial direction.

  In this case, since the urging member is formed in an annular shape extending in the circumferential direction while being alternately bent in the container axial direction, the structure of the feeding container can be simplified.

  Further, the outer cylinder portion is shifted to the one side and is externally attached to the inner cylinder portion, and a portion of the inner cylinder portion that is located on the other side in the container axial direction with respect to the outer cylinder portion has a radial direction. An overhanging portion that protrudes outside may be formed, and the urging member may be disposed between the overhanging portion and the outer cylinder portion.

  In this case, since the urging member is disposed between the projecting portion of the inner cylinder portion and the outer cylinder portion, for example, the urging member includes a member different from the inner cylinder portion, and the outer cylinder portion. Compared with the case where it is arranged between, the urging member positively urges the outer cylinder part to the one side with respect to the inner cylinder part, and the abutting part of the outer cylinder part is received by the inner cylinder part. It is possible to strongly press the part, and it is possible to more effectively suppress the inner cylinder part and the outer cylinder part from rattling in the container axial direction.

  When the urging member is formed in an annular shape extending in the circumferential direction while alternately curving in the container axial direction, the portion of the urging member that protrudes toward the one side is the outer cylinder. It is possible to abut the portion projecting toward the other side and projecting toward the other side to the projecting portion of the inner cylinder portion, and the urging member can be applied to either the inner cylinder portion or the outer cylinder portion. It can be made to contact intermittently at intervals in the circumferential direction. Thereby, for example, compared with the case where the urging member is continuously in contact with both the inner cylinder part and the outer cylinder part over the entire circumference in the circumferential direction, between the urging member and the inner cylinder part, Further, it is possible to reduce the frictional force generated between the urging member and the outer cylinder part, and to ensure the operability by smoothly rotating the inner cylinder part and the outer cylinder part relatively in the circumferential direction. Can do.

  In addition, the biasing member may be provided with a plurality of pressure contact members that are in pressure contact with the inner cylinder portion from the inside or the outside in the radial direction, or may be provided over the entire circumference in the circumferential direction.

In this case, since the pressing member is provided on the urging member, the inner cylinder portion and the outer cylinder portion are not intended in the circumferential direction while preventing the outer cylinder portion and the inner cylinder portion from rattling in the radial direction. It is possible to prevent the inner cylinder part and the outer cylinder part from rattling in the container axis direction more effectively.
In addition, when the press-contact member is formed integrally with the urging member, it is possible to suppress an increase in the number of parts, and it is also possible to suppress the complexity of the structure.

  According to the feeding container of the present invention, it is possible to effectively suppress the inner cylinder part and the outer cylinder part from rattling in the container axial direction.

It is a partial longitudinal cross-sectional view of the feeding container which concerns on one Embodiment of this invention. It is a longitudinal cross-sectional view of the principal part in the delivery container shown in FIG. It is a partial side view of the biasing member which comprises the feeding container shown in FIG. It is a bottom view of the exterior body which comprises the feeding container shown in FIG. It is an AA cross-sectional arrow view shown in FIG. It is a longitudinal cross-sectional view of the principal part in the delivery container which concerns on one modification of this invention.

Hereinafter, a feeding container according to an embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1, the feeding container 10 includes an inner cylinder portion 11, a container main body 13 having an outer cylinder portion 12 that is externally rotatably mounted on the inner cylinder portion 11 in a circumferential direction, and an inner cylinder. A holding part 14 is provided in the part 11 so as to be movable back and forth in the container axis O direction and holds the content A accommodated in the container main body 13. The holding part 14 holds the contents A in a state of protruding in the front side (one side) in the container axis O direction, and the container 14 with the relative rotation in the circumferential direction between the inner cylinder part 11 and the outer cylinder part 12. By moving forward and backward in the direction of the axis O and moving forward, the contents A protrude from the opening on the front side of the container body 13.

Here, the central axis of the inner cylinder part 11 and the outer cylinder part 12 is located on a common axis. Hereinafter, this common axis is referred to as a container axis O, the direction in which the contents A protrude from the holding portion 14 along the container axis O is referred to as a front side, and the opposite side (the other side) is referred to as a rear side. A direction perpendicular to the container axis O is referred to as a radial direction, and a direction around the container axis O is referred to as a circumferential direction.
Examples of the content A include a stick-shaped body formed by sticking cosmetics (lipstick, lip balm, stick eye shadow, etc.), medicine, glue, or the like.

The inner cylinder portion 11 includes a rear base portion (a portion of the inner cylinder portion that is located on the other side in the container axial direction with respect to the outer cylinder portion) 15 and a front attached portion 16 that are connected in the container axis O direction. Become.
The base portion 15 is formed in a two-stage cylindrical shape in which a rear small diameter portion 15a and a front large diameter portion (projecting portion) 15b are connected in the container axis O direction. A plurality of inner longitudinal ribs 15c extending in the container axis O direction are arranged on the outer peripheral surface of the small diameter portion 15a at intervals in the circumferential direction. The front end edge of the inner vertical rib 15c is connected to the rear end surface of the large diameter portion 15b.
An engaged portion 17 is provided on the inner peripheral surface of the base portion 15 so as to protrude inward in the radial direction. The engaged portion 17 is disposed in the small diameter portion 15a of the base portion 15, and is formed in an annular shape extending in the circumferential direction. The inner diameter of the engaged portion 17 is gradually reduced from the rear side toward the front side of the engaged portion 17.

The adherent portion 16 protrudes forward from the inner peripheral edge of the front end surface of the base portion 15 and is longer than the base portion 15 in the container axis O direction. The inner peripheral surface of the adherent portion 16 and the inner peripheral surface of the large diameter portion 15b in the base portion 15 are flush with each other. The outer peripheral surface of the adherent portion 16 is located radially inward of the outer peripheral surface of the large diameter portion 15b, and the large diameter portion 15b of the base portion 15 is directed outward in the radial direction from the adherent portion 16. Overhangs.
A receiving portion 18 that protrudes outward in the radial direction is provided at the front end of the adherend portion 16. The receiving portion 18 is formed in an annular shape extending in the circumferential direction. The outer diameter of the receiving portion 18 is gradually increased from the front side to the rear side of the receiving portion 18, and the outer peripheral surface of the receiving portion 18 is inclined with respect to the container axis O in the longitudinal sectional view. .

  The outer cylinder portion 12 is externally displaced with respect to the inner cylinder portion 11. In the illustrated example, the outer cylinder portion 12 is externally attached to the attached portion 16 in the inner cylinder portion 11. The outer cylinder portion 12 includes a main body cylinder 19 positioned on the inner side in the radial direction and a decorative cylinder 20 positioned on the outer side in the radial direction. The outer cylinder portion 12 includes the main body cylinder 19 and the decorative cylinder 20 which are formed separately from each other, and the main body cylinder 19 is fitted into the decorative cylinder 20.

The main body cylinder 19 is shorter in the container axis O direction than the decorative cylinder 20, and is located on the inner side of the decorative cylinder 20 in the container axis O direction. As shown in FIG. 2, the rear end edge of the main body cylinder 19 is located in front of the rear end edge of the decorative cylinder 20, and the inner periphery of the rear end edge of the main body cylinder 19 and the rear end portion of the decorative cylinder 20. The surface defines an annular recess 21 that opens rearward and radially inward.
As shown in FIG. 1, the front end portion of the decorative cylinder 20 is curved toward the inside in the radial direction over the entire circumference, and covers the front end portion of the attached portion 16 of the inner cylinder portion 11 from the front. .

As shown in FIG. 2, between the main body cylinder 19 and the decorative cylinder 20, a restricting means 22 that restricts relative movement of the main body cylinder 19 and the decorative cylinder 20 in the container axis O direction is provided. Yes. The restricting means 22 includes a circumferential groove 22 a provided on the outer peripheral surface of the main body cylinder 19, and a protrusion 22 b provided on the inner peripheral surface of the decorative cylinder 20 and fitted in the circumferential groove 22 a. In the illustrated example, the protrusion 22b is formed by bending the decorative tube 20 toward the inside in the radial direction.
The main body cylinder 19 and the decorative cylinder 20 of the outer cylinder portion 12 may be formed of different materials. For example, the main cylinder 19 is formed of a synthetic resin material, and the decorative cylinder 20 is formed of a metal material. May be.

As shown in FIG. 1, the holding portion 14 is fitted in the inner cylinder portion 11 so as to be slidable in the container axis O direction. The holding part 14 is formed in a cylindrical shape that opens toward both sides in the container axis O direction. In the holding part 14, the content A is fitted in a state of being arranged coaxially with the container axis O.
The holding portion 14 is integrally inserted through an inner hole 23 formed in the inner cylinder portion 11 that penetrates in the radial direction and an outer hole 24 formed in the outer cylinder portion 12 that opens toward the inner side in the radial direction. A mounting protrusion 25 is provided. A pair of mounting protrusions 25 are disposed so as to sandwich the container shaft O therebetween, and have the same shape and the same size.

  One of the inner hole 23 and the outer hole 24 extends so as to form a spiral in the circumferential direction, and the other extends in the container axis O direction. In the present embodiment, the inner hole 23 extends in the container axis O direction, and the outer hole 24 extends so as to form a spiral in the circumferential direction. A pair of inner holes 23 are disposed in the attached portion 16 of the inner cylinder portion 11 so as to sandwich the container shaft O therebetween, and have the same shape and size. A pair of outer holes 24 are disposed in the main body cylinder 19 of the outer cylinder portion 12 so as to sandwich the container shaft O therebetween, and have the same shape and size. The outer hole 24 is formed in a groove shape on the inner peripheral surface of the main body cylinder 19 and is not open toward the outside in the radial direction.

  Here, in the present embodiment, the feeding container 10 is configured such that the outer cylinder portion 12 is urged to the front side with respect to the inner cylinder portion 11, and the abutting portion 26 provided on the outer cylinder portion 12 is provided with the inner cylinder portion 11. A bottomed cylindrical shape that is externally attached to the base portion 15 of the inner cylindrical portion 11 in a state in which relative rotation in the circumferential direction is restricted. And a top-cylindrical overcap 33 that is detachably attached to the exterior body 28 and covers the front opening of the container body 13.

  The urging member 27 is between the large diameter portion 15b of the inner cylinder portion 11 and the outer cylinder portion 12, and in the illustrated example, between the front end surface of the large diameter portion 15b and the rear end edge of the outer cylinder portion 12. It is arranged. As shown in FIG. 3, the urging member 27 is formed in an annular shape extending in the circumferential direction while alternately bending in the container axis O direction. As shown in FIG. 2, the urging member 27 is packaged on the adherent portion 16 of the inner cylinder portion 11 in a state of being elastically deformed in the container axis O direction. Of the urging member 27, the first convex portion 27 a that protrudes toward the front side is in contact with the outer cylindrical portion 12, and the second convex portion 27 b that protrudes toward the rear side is the large diameter of the inner cylindrical portion 11. It is in contact with the portion 15b.

The urging member 27 is provided with a plurality of pressure contact members 29 that are in pressure contact with the inner cylindrical portion 11 from the inside in the radial direction. The pressing member 29 is formed integrally with the urging member 27. As shown in FIG. 3, a plurality of pressing members 29 are provided on the biasing member 27 at intervals in the circumferential direction, and project from the first convex portion 27 a of the biasing member 27 toward the front. . As shown in FIG. 2, the pressure contact member 29 is disposed in the annular recess 21 and is in pressure contact with the inner peripheral surface of the decorative cylinder 20 in the inner cylinder portion 11. In the illustrated example, a pressing protrusion 29 a that presses against the inner peripheral surface of the decorative cylinder 20 is provided at the front end portion of the pressing member 29 so as to protrude outward in the radial direction.
As shown in FIG. 1, the abutting portion 26 is configured by a front end portion of the main body cylinder 19 of the outer cylinder portion 12. The abutting portion 26 is in pressure contact with the rear end edge of the receiving portion 18 of the inner cylinder portion 11 from behind.

  The exterior body 28 is integrally exteriored to the base portion 15 and the outer cylinder portion 12 of the inner cylinder portion 11, and covers the urging member 27 from the outside in the radial direction over the entire circumference. A plurality of outer vertical ribs 28 a extending in the container axis O direction are arranged on the inner peripheral surface of the outer package 28 at intervals in the circumferential direction. Outer vertical rib 28a is located between those adjacent in the circumferential direction among a plurality of inner vertical ribs 15c in inner cylinder part 11. The outer vertical ribs 28a and the inner vertical ribs 15c are meshed with each other and restrict relative rotation of the outer casing 28 in the circumferential direction with respect to the inner cylinder portion 11. The rear edge of the outer vertical rib 28 a is connected to the bottom wall portion of the exterior body 28.

In the bottom wall portion of the exterior body 28, a hole portion 30 that opens to the rear opening portion of the inner cylinder portion 11 is provided so as to penetrate in the container axis O direction. The hole 30 is disposed coaxially with the container axis O, and has a circular shape in a bottom view when the delivery container 10 is viewed from the rear side. The hole 30 is larger in diameter than the rear opening in the inner cylinder part 11 and smaller in diameter than the outer diameter of the small diameter part 15 a of the inner cylinder part 11.
An elastic engagement portion 31 that engages with the engaged portion 17 of the inner cylinder portion 11 is connected to the peripheral portion of the hole portion 30 in the bottom wall portion of the exterior body 28. As shown in FIGS. 1, 4, and 5, the elastic engagement portion 31 is formed integrally with the exterior body 28. The elastic engaging portion 31 is connected to a pair of connecting portions 31a separately connected to circumferentially spaced portions at the peripheral edge of the hole portion 30, and both the connecting portions 31a are connected to the engaged portion 17. A main body portion 31b in contact therewith. As shown in FIG. 4, a pair of elastic engagement portions 31 are arranged with the container shaft O interposed therebetween.

The pair of elastic engagement portions 31 have the same shape and the same size, and are disposed symmetrically with the container axis O interposed therebetween in the bottom view. The pair of connecting portions 31a are linearly projected from portions spaced apart in the circumferential direction on the inner circumferential surface of the hole 30 in a direction approaching each other in the bottom view. The main body 31b is provided between the protruding ends of the pair of connecting portions 31a, and extends in an arc shape along the circumferential direction in the bottom view. Of the main body portion 31b, the central portion in the circumferential direction has a larger size along the radial direction than the outer portion located outside the central portion in the circumferential direction.
As shown in FIGS. 1 and 5, the connecting portion 31 a has the same position in the container axis O direction over the entire length. The outer portion of the main body portion 31b gradually extends toward the front side from the outer side toward the inner side in the circumferential direction. The central portion of the main body 31b has the same position in the container axis O direction over the entire length.

  And in this embodiment, the elastic engagement part 31 is engaged with the said to-be-engaged part 17 of the inner cylinder part 11 from the front side in the state elastically deformed to the container axis | shaft O direction, and an inner cylinder part by elastic restoring force 11 is urged to the rear side to be brought into pressure contact with the exterior body 28. The elastic engagement part 31 urges the inner cylinder part 11 to the rear side by the center part of the main body part 31b coming into contact with the engaged part 17 from the front side while the main body part 31b is elastically deformed. The rear end surface of the inner cylinder portion 11 is pressed against the bottom wall portion of the exterior body 28 from the front side.

  As shown in FIG. 1, a chamfered portion 31 c facing the front side and the outside in the radial direction is formed at the central portion of the main body portion 31 b of the elastic engagement portion 31. The chamfered portion 31 c and the inner peripheral surface of the engaged portion 17 of the inner cylinder portion 11 engage the elastic engaging portion 31 with the engaged portion 17, so that the main body portion 31 b of the elastic engaging portion 31 is engaged. Even when the engagement portion 17 is moved from the rear side to the front side, it slides with each other so that the body portion 31b can be guided over the engagement portion 17 in the container axis O direction. Good.

  The hole 30 is covered from the rear side with a covering member 32 fixed to the bottom wall portion of the exterior body 28. An annular leg portion 28b projecting rearward is disposed on the outer peripheral edge of the bottom wall portion of the exterior body 28, and the covering member 32 is fixed to the inside of the leg portion 28b in the bottom wall portion. . The covering member 32 is formed in a sheet shape whose size along the container axis O direction is smaller than that of the leg portion 28b, and closes the hole 30 from the rear.

When the delivery container 10 is used, after the overcap 33 is detached from the exterior body 28, the exterior body 28 and the outer cylinder portion 12 of the container body 13 are separately held, and the exterior body 28 and the outer cylinder portion are separated. 12 is relatively rotated in the circumferential direction, and the inner cylinder portion 11 and the outer cylinder portion 12 are relatively rotated in the circumferential direction. At this time, the outer cylinder portion 12 is rotated relatively to one side in the circumferential direction with respect to the inner cylinder portion 11, and the mounting protrusion 25 is moved to the front side along both the inner hole 23 and the outer hole 24. The holding part 14 is advanced, and the contents A are projected forward from the opening on the front side of the container body 13.
After the contents A are used, the exterior body 28 and the outer cylindrical portion 12 are rotated relatively opposite to each other in the circumferential direction, and the mounting projection 25 is moved to the rear side along both the inner hole 23 and the outer hole 24. Move to. Then, the holding part 14 is retracted, and the content A is immersed backward from the opening on the front side of the container body 13. In this way, the holding part 14 moves the inside of the inner cylinder part 11 back and forth in the direction of the container axis O, so that the content A appears and disappears with respect to the opening on the front side of the container body 13.

As described above, according to the feeding container 10 according to the present embodiment, since the urging member 27 is provided, the movement of the outer cylinder portion 12 in the container axis O direction with respect to the inner cylinder portion 11 is urged. The member 27 and the receiving portion 18 can be regulated from both sides in the container axis O direction, and the inner cylinder portion 11 and the outer cylinder portion 12 can be effectively prevented from rattling in the container axis O direction.
Further, since the rattling is suppressed by urging the outer cylinder portion 12 with respect to the inner cylinder portion 11 by the urging member 27 in this manner, the dimensions of the inner cylinder portion 11 and the outer cylinder portion 12 are temporarily subject to manufacturing tolerances. Even if it fluctuates within, it is possible to reliably suppress rattling.

Further, since the biasing member 27 is formed in an annular shape extending in the circumferential direction while being alternately bent in the container axis O direction, the structure of the feeding container 10 can be simplified.
Further, since the urging member 27 is disposed between the projecting portion of the inner cylinder portion 11 and the outer cylinder portion 12, for example, the urging member 27 is different from the member different from the inner cylinder portion 11 and the outer cylinder portion. Compared with the case where it is arrange | positioned between 12, the outer cylinder part 12 is reliably urged | biased with respect to the inner cylinder part 11 with the urging | biasing member 27, and the abutting part of the outer cylinder part 12 is provided. 26 can be strongly pressed against the receiving part 18 of the inner cylinder part 11, and the inner cylinder part 11 and the outer cylinder part 12 can be more effectively prevented from rattling in the container axis O direction.

  When the urging member 27 is formed in an annular shape extending in the circumferential direction while alternately bending in the container axis O direction as in the present embodiment, the first of the urging members 27 is the first. The convex portion 27a can be brought into contact with the outer cylinder portion 12, and the second convex portion 27b can be brought into contact with the large diameter portion 15b of the inner cylinder portion 11. 11 and the outer cylinder part 12 can be contacted intermittently at intervals in the circumferential direction. Thereby, for example, the urging member 27 and the inner cylinder part 11 are compared with the case where the urging member is continuously in contact with both the inner cylinder part and the outer cylinder part over the entire circumference in the circumferential direction. And the frictional force generated between the urging member 27 and the outer cylinder part 12 can be reduced, and the inner cylinder part 11 and the outer cylinder part 12 are smoothly and relatively rotated in the circumferential direction. Operability can be ensured.

In addition, since the pressing member 29 is provided on the urging member 27, the inner cylinder portion 11 and the outer cylinder portion 12 are intended to prevent the outer cylinder portion 12 and the inner cylinder portion 11 from rattling in the radial direction. It is possible to suppress relative rotation in the circumferential direction without causing the inner cylinder part 11 and the outer cylinder part 12 to rattle in the container axis O direction more effectively.
In addition, when the press-contact member 29 is formed integrally with the urging member 27 as in the present embodiment, it is possible to suppress an increase in the number of parts, and it is also possible to suppress the complexity of the structure. .

Further, the elastic engagement portion 31 is engaged with the engaged portion 17 of the inner cylinder portion 11 from the front side while being elastically deformed in the container axis O direction, and the inner cylinder portion 11 is attached to the rear side by the elastic restoring force. Since the outer body 28 is pressed against the outer body 28, the movement of the inner cylinder portion 11 of the container body 13 relative to the outer body 28 in the container axis O direction is performed on both sides in the container axis O direction by the elastic engagement portions 31 and the outer body 28. Therefore, it is possible to effectively prevent the inner cylindrical portion 11 of the container body 13 and the outer body 28 from rattling in the container axis O direction.
Further, in this way, rattling is suppressed by urging the inner cylinder portion 11 to the rear side by the elastic restoring force of the elastic engagement portion 31, and therefore, the dimensions of the inner cylinder portion 11 and the exterior body 28 are temporarily subject to manufacturing tolerances. Even if it fluctuates within, it is possible to reliably suppress rattling.

  Further, since the elastic engagement portion 31 includes the pair of connection portions 31a and the main body portion 31b, the force received by the main body portion 31b from the engaged portion 17 of the inner cylinder portion 11 is applied to the pair of connection portions 31a. The inner cylindrical portion 11 is reliably urged to the rear side by the elastic restoring force of the elastic engaging portion 31 so that the inner cylindrical portion 11 and the outer body 28 of the container main body 13 are connected to the container. Shaking in the direction of the axis O can be more effectively suppressed.

Further, since the elastic engagement portions 31 are disposed in a pair with the container shaft O interposed therebetween, the elastic restoring force of the elastic engagement portion 31 is formed in a portion of the inner cylinder portion 11 positioned with the container shaft O interposed therebetween. Can be made to act separately, and rattling of the inner cylinder portion 11 and the exterior body 28 of the container main body 13 in the container axis O direction can be further effectively suppressed.
Further, since the elastic engagement portions 31 are arranged in a pair with the container shaft O interposed therebetween, when the elastic engagement portions 31 are engaged with the engaged portions 17, the elastic engagement portions 31 are brought close to each other. The main body portion 31b of the elastic engagement portion 31 is moved from the rear side to the front side with respect to the engaged portion 17 while being elastically deformed in the direction to be moved, and then both elastic engagement portions 31 are restored and deformed in a direction away from each other. By doing so, the engaged portion 17 can be moved over the main body portion 31b of the elastic engagement portion 31 in the direction of the container axis O, and the assembling work of the feeding container 10 can be simplified.

  Further, since the hole 30 is covered from the rear side by the covering member 32, it is possible to prevent foreign matters such as dust from entering the inner cylinder portion 11 through the hole 30.

The technical scope of the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.
For example, the overcap 33 and the covering member 32 may be omitted.
Moreover, in the said embodiment, although the said 1st convex part 27a of the urging members 27 shall contact | abut to the outer cylinder part 12, it is not restricted to this. For example, when the front end edge of the pressure contact member is in contact with the rear end edge of the main body cylinder of the outer cylinder portion and the biasing member can bias the outer cylinder portion to the front side via the pressure contact member, etc. The biasing member may not be in contact with the outer cylinder portion.

Moreover, in the said embodiment, although the several press-contact member 29 shall be provided in the circumferential direction, it is not restricted to this, You may provide over the perimeter of the circumferential direction.
Furthermore, in the said embodiment, although the press-contact member 29 shall press-contact with the inner cylinder part 11 from the inner side of radial direction, it is not restricted to this, You may press-contact from the outer side of radial direction.
Further, as in the feeding container 40 shown in FIG.

In the above embodiment, the urging member 27 is disposed between the large-diameter portion 15b of the inner cylinder portion 11 and the outer cylinder portion 12. However, the present invention is not limited to this. You may arrange | position between cylinder parts.
Furthermore, in the said embodiment, although the urging | biasing member 27 shall be formed in the cyclic | annular form extended in the circumferential direction, curving alternately in the container axis | shaft O direction, it is not restricted to this, For example, a coil spring etc. are employ | adopted. May be.

Moreover, in the said embodiment, although the receiving part 18 shall be provided in the front-end part of the adherence part 16 of the inner cylinder part 11, it is not restricted to this, For example, a part different from a front-end part in an adherence part May be provided.
Furthermore, in the said embodiment, although the abutting part 26 shall be comprised by the front-end part in the main body cylinder 19 of the outer cylinder part 12, it is not restricted to this, For example, it is comprised by the front-end part in the decorative cylinder of an outer cylinder part. May be.

Moreover, in the said embodiment, although the elastic engagement part 31 shall be a pair arrange | positioned on both sides of the container axis | shaft O, it is not restricted to this, For example, even if there is only one elastic engagement part Of course, three or more may be arranged at intervals in the circumferential direction.
Furthermore, in the said embodiment, although the elastic engagement part 31 shall be a structure provided with a pair of connection part 31a and the main-body part 31b, and the main-body part 31b was both supported by the connection part 31a, it is not restricted to this. . For example, the elastic engagement portion includes a main body portion that comes into contact with the engaged portion, and one connection portion that connects the main body portion and the inner peripheral surface of the hole, and the main body portion is cantilevered by the connection portion. The structure may be different.
Further, the engaged portion 17, the elastic engagement portion 31, and the exterior body 28 may not be provided.

Moreover, in the said embodiment, although the outer cylinder part 12 assumed that the main body cylinder 19 and the decorative cylinder 20 were formed in the different body, it is not restricted to this, For example, an outer cylinder part is comprised by one cylindrical body. It may be a thing.
Further, in the above embodiment, the inner hole 23 extends in the container axis O direction and the outer hole 24 extends so as to form a spiral in the circumferential direction. The outer hole may extend in the container axial direction, and may extend in a spiral manner in the circumferential direction.

  In addition, it is possible to appropriately replace the constituent elements in the embodiment with known constituent elements without departing from the spirit of the present invention, and the above-described modified examples may be appropriately combined.

10, 40 Feeding container 11 Inner cylinder part 12 Outer cylinder part 13 Container body 14 Holding part 15 Base part (the part located on the other side in the container axial direction from the outer cylinder part in the inner cylinder part)
15b Large diameter part (overhang part)
18 receiving portion 26 abutting portion 27 urging member 29 pressure contact member A contents O container shaft

Claims (4)

A container body having an inner cylinder part, and an outer cylinder part externally rotatably mounted on the inner cylinder part in a circumferential direction;
A holding portion that is disposed in the inner cylinder portion so as to be capable of moving back and forth in the container axial direction, and holds the contents accommodated in the container main body,
The holding portion holds the contents in a state of projecting to one side in the container axial direction and advances and retreats in the container axial direction with relative rotation in the circumferential direction between the inner cylindrical portion and the outer cylindrical portion. A feeding container that moves forward from the one side to project the contents from the opening on the one side of the container body,
An urging member that urges the outer cylinder part toward the one side with respect to the inner cylinder part, and presses the abutting part provided in the outer cylinder part against a receiving part provided in the inner cylinder part; A feeding container characterized by comprising. A feeding container according to claim 1, wherein
The feeding container, wherein the biasing member is formed in an annular shape extending in the circumferential direction while being alternately curved in the container axial direction. The delivery container according to claim 1 or 2,
The outer cylinder part is shifted to the one side and is externally mounted on the inner cylinder part,
In the portion located on the other side in the container axial direction with respect to the outer cylindrical portion in the inner cylindrical portion, an overhanging portion protruding outward in the radial direction is formed,
The feeding container, wherein the urging member is disposed between the projecting portion and the outer cylinder portion. A feeding container according to any one of claims 1 to 3,
The feeding container, wherein the urging member is provided with a plurality of pressure contact members that are in pressure contact with the inner cylindrical portion from the inner side or the outer side in the radial direction, or is provided over the entire circumference in the circumferential direction. .

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