JP2021186261A - Compact container - Google Patents

Abstract

To provide a compact container capable of stably resting a lid body at any open position and performing smoothly the opening/closing operation of the lid body.SOLUTION: A compact container 10 comprises: a container body 11; a lid body 12 which is coupled to the container body 11 so as to rotate around a rotary axis C; a slide plate 14 which is supported to any one of the lid body 12 and the container body 11, and has a plate surface extending along a surface crossing the rotary axis C; and an interference plate 15 which is supported to the other of the lid body 12 and the container body 11, and has a plate surface extending along a surface crossing the rotary axis C. Rotating of the lid body 12 to a prescribed open position relative to the container body 11 causes the plate surface of the slide plate 14 to slide contact the plate surface of the interference plate 15, and deforming of the interference plate 15 in the rotary axis C direction causes the lid body 12 to be held at the prescribed open position.SELECTED DRAWING: Figure 1

Description

The present invention relates to a compact container.

Conventionally, a compact container having a function of resting a lid body openable and closable to a container body at an arbitrary open position has been known. Hereinafter, in the present specification, resting the above lid at an arbitrary open position is referred to as a free stop. For example, Patent Document 1 below includes a hinge pin portion and a pin receiving portion that rotatably attach the lid to the container body, and the hinge pin portion and the pin receiving portion can rotate the container body and the lid. A compact container having a first portion to be held in a container and a second portion to generate a frictional force is disclosed.

Japanese Unexamined Patent Publication No. 2007-83016

However, in the compact container of Patent Document 1, the free stop action is exhibited by the frictional force generated between the outer peripheral surface of the hinge pin portion and the inner peripheral surface of the pin receiving portion. Therefore, when the frictional force is designed to be large to some extent in order to stably stop the lid body at an arbitrary open position, it may be difficult to smoothly open and close the lid body. That is, in the conventional compact container, it is difficult to achieve both the stability improvement of the free stop action and the operability improvement when opening and closing the lid, and it is desired to provide a compact container having an excellent balance between the two.

One aspect of the present invention has been made to solve the above-mentioned problems, and it is possible to smoothly open and close the lid while stably holding the lid at an arbitrary open position. One of the purposes is to provide a compact container.

In order to achieve the above object, the compact container according to one aspect of the present invention includes a container body, a lid body rotatably connected to the container body around a rotation axis, and the lid body. And a sliding plate having a plate surface supported by one of the container bodies and extending along a surface intersecting the rotation axis, and any one of the lid and the container body. The cover is provided with an interference plate having a plate surface extending along a surface intersecting the rotation axis, and the lid body is rotated to a predetermined open position with respect to the container body. The plate surface of the sliding plate is in sliding contact with the plate surface of the interference plate, and the interference plate bends and deforms in the axial direction of the rotation shaft, so that the lid is held in the open position.

In the compact container of one aspect of the present invention, when the lid is rotated to a predetermined open position with respect to the container body, sliding supported by either the lid or the container body. The plate surface of the plate is in sliding contact with the plate surface of the interference plate supported by either one of the lid body and the container body. At this time, in addition to the frictional force generated between the plate surfaces, the lid is held at a predetermined open position by the elastic force when the interference plate is flexed and deformed in the axial direction of the rotation shaft. Here, the plate surface of the sliding plate and the interference plate that exert the free stop action is a surface extending along the surface intersecting the rotation axis, and is the circumference of the rotation axis like a conventional compact container. It's different from the face. Therefore, the frictional force and the elastic force can be adjusted without significantly affecting the operability when opening and closing the lid. Therefore, according to one aspect of the present invention, it is possible to provide a compact container that can stably hold the lid body at an arbitrary open position and can smoothly open and close the lid body.

The compact container according to one aspect of the present invention may further include a hinge member that rotatably connects the lid to the container body, and the hinge member is a container connected to the container body. It may have a main body side connecting portion, a lid side connecting portion connected to the lid body, and an elastically deformed portion connecting the container main body side connecting portion and the lid body side connecting portion.

According to this configuration, the operability at the time of opening / closing operation of the lid can be easily adjusted by designing the elastically deformed portion of the hinge member. Further, it is not necessary to use a pin or a pin receiving portion constituting the hinge portion in the conventional compact container, and a hinge portion having a simple configuration can be realized. In addition, metal pins are often used in conventional compact containers, but with the above configuration, it is easy to manufacture a resin hinge member, and when the container body and lid are made of resin, the hinge member Is easy to use as the same material as the container body and lid. This eliminates the need for sorting work when disposing of the compact container.

In the compact container of one aspect of the present invention, the sliding plate may be formed integrally with the lid body, and the interference plate may be formed integrally with the hinge member supported by the container body. ..

According to this configuration, the number of parts of the compact container can be reduced. Further, as described above, when the hinge member is made of resin, the interference plate can be easily bent and deformed in the plate thickness direction (axial direction of the rotation shaft).

According to one aspect of the present invention, it is possible to provide a compact container capable of smoothly opening and closing the lid while keeping the lid stably at an arbitrary open position.

It is a top view of the compact container of one Embodiment of this invention, and shows the open state. It is a cross-sectional view of the compact container along the line II-II of FIG. It is a vertical sectional view of the compact container along the line III-III of FIG. 1, and shows the closed state. It is a vertical sectional view of the compact container along the line IV-IV of FIG. 2, and shows the closed state. It is a vertical sectional view of the compact container along the VV line of FIG. 2, and shows the closed state. It is a vertical cross-sectional view of a compact container along the VI-VI line of FIG. 2, and shows a state in which the lid is opened to a predetermined open position. It is a vertical cross-sectional view of a compact container along the line IV-IV of FIG. 2, and shows a state in which the lid is opened to a predetermined open position. It is a vertical cross-sectional view of a compact container along the VV line of FIG. 2, and shows a state in which a lid body is opened to a predetermined open position. It is a vertical sectional view of the compact container along the line IX-IX of FIG. 2, and shows the closed state. It is a figure for demonstrating the operation of a sliding plate and an interference plate, and shows the sliding plate and an interference plate in a state where a lid is opened to a predetermined open position.

Hereinafter, the compact container according to the embodiment of the present invention will be described with reference to FIGS. 1 to 10.
FIG. 1 is a plan view of the compact container 10 of the present embodiment. FIG. 2 is a cross-sectional view of the compact container along the line II-II of FIG. 3, showing a closed state. FIG. 3 is a vertical cross-sectional view of the compact container 10 along the line III-III of FIG. 1, showing a closed state.
Since the compact container 10 of the present embodiment has a symmetrical configuration, in FIG. 2, only the portion corresponding to the right end side of the hinge member 13 is shown in the compact container 10 shown in FIG. 1, and the left end is shown. The illustration on the side is omitted.

As shown in FIGS. 1 and 3, the compact container 10 of the present embodiment includes a container main body 11, a lid body 12, and a hinge member 13. Further, as will be described in detail later, the sliding plate 14 is integrally formed with the lid body 12, and the interference plate 15 is integrally formed with the hinge member 13.

A storage recess 16 is formed in the container body 11. The lid 12 closes the storage recess 16 of the container body 11 so as to be openable and closable. The hinge member 13 rotatably connects the lid 12 to the container body 11. The compact container 10 in the closed state is a flat container having a rectangular shape in a plan view. The compact container 10 is provided with an operation piece 17 for releasing the closed state of the lid 12 and keeping it open at the edge portion on the side opposite to the edge portion on the side where the hinge member 13 is provided. There is.

In the following description, in the thickness direction (height direction) of the compact container 10 in the closed state, the side where the lid 12 is located is referred to as an upper side, and the side where the container body 11 is located is referred to as a lower side. Further, in the horizontal plane orthogonal to the vertical direction, the side provided with the hinge member 13 is referred to as a rear side, and the side provided with the operation piece 17 is referred to as a front side. Further, in the horizontal plane, a direction orthogonal to the front-back direction is referred to as a left-right direction. Further, the left-right direction is the direction in which the hinge member 13 extends, and corresponds to the rotation axis direction. In the closed state, the axis extending in the vertical direction through the center of the rectangle which is the outer shape of the compact container 10 is referred to as the container axis O.

The container body 11 is formed of a material such as resin, has a rectangular shape in a plan view with the left-right direction as the longitudinal direction, and has a box-like shape with an opening at the upper side. The container body 11 is formed with a plurality of accommodating recesses 16 having an upper opening. An inner plate (not shown) may be accommodated in the accommodating recess 16. The middle plate is a container for accommodating various cosmetics, and is fixed to the accommodating recess 16 by the upper surface cover 19 of the container body 11. In addition, not only the middle plate but also an applicator for applying cosmetics and the like may be accommodated in the accommodating recess 16. Further, in the present embodiment, a plurality of accommodating recesses 16 are formed in the container body 11, but the number of accommodating recesses 16 may be one and is not particularly limited.

As shown in FIG. 3, the container main body 11 extends along the bottom wall portion 21 and the outer periphery of the bottom wall portion 21, and protrudes upward with the main body side peripheral wall portion 22 extending upward and extending in the front-rear direction. It has a partition wall portion 23 for partitioning the two accommodating recesses 16. Of the main body side peripheral wall portion 22, a concave portion 24 recessed toward the rear is formed in the left-right central portion of the main body side peripheral wall portion 221 on the front side. Further, a hole 25 penetrating from the recess 24 side toward the accommodating recess 16 side is formed in a part of the recess 24, and a fitting convex portion 26 projecting downward is formed on the upper surface of the hole 25. There is. Further, a fitting projection 27 projecting forward is formed on the front surface of the main body side peripheral wall portion 221 above the hole 25.

An operation piece 17 is arranged in the recess 24 of the container body 11. The operation piece 17 is formed of a material such as resin, and has a support portion 29 that abuts on the bottom wall portion 21 of the container body 11 and an operation portion 30 that projects upward from the front end of the support portion 29. The rear end side of the support portion 29 is inserted into the hole 25 of the container body 11, and the fitting convex portion 31 provided on the upper surface of the rear end overcomes the fitting convex portion 26 on the upper surface of the hole 25 to undercut fitting. By doing so, it is fixed to the container body 11.

The operation unit 30 has a thick-walled portion 301 and a thin-walled portion 302 provided at the central portion in the vertical direction of the thick-walled portion 301. In the closed state, the operation portion 30 has a shape in which the front end of the thin-walled portion 302 protrudes forward from the rear end of the thick-walled portion 301, and is in a state of being bent at the central portion in the vertical direction as a whole.

The lid 12 is made of a material such as resin and has a rectangular shape in a plan view with the left-right direction as the longitudinal direction. The lid body 12 has a flat plate-shaped top wall portion 33, and a lid-side peripheral wall portion 34 extending along the outer periphery of the top wall portion 33 and projecting downward. Of the lid-side peripheral wall portion 34, an engaging portion 35 projecting downward is formed at the center portion in the left-right direction of the front-side lid-side peripheral wall portion 341. At the lower end of the engaging portion 35, a fitting protrusion 36 projecting rearward is formed. In the closed state, the lid 12 is fitted to the container body 11 by the fitting protrusion 36 of the engaging portion 35 overcoming the fitting protrusion 27 of the container body 11 and undercut fitting. With this fitting structure, unless the operating portion 30 is pressed with a predetermined pressure, it is possible to prevent the lid 12 from being unintentionally opened, for example, when the compact container 10 is dropped.

The top wall portion 33 faces the accommodating recess 16 in the vertical direction in the closed state. A recess 38 is formed on the lower surface of the top wall portion 33, and a mirror member 39 is fitted inside the recess.

As shown in FIG. 3, in the container main body 11, the corner portion where the rear main body side peripheral wall portion 222 and the bottom wall portion 21 are connected is cut out in a rectangular cross-sectional view and extends in the left-right direction. A notch 41 is formed. As will be described later, the notch 41 functions as a space for the lower end of the lid side peripheral wall portion 342 to wrap around when the lid body 12 is opened and to be accommodated without interfering with the container body 11. As shown in FIG. 9, a side plate portion 42 facing the end surface of the hinge member 13 is formed on the side of the notch portion 41.

As shown in FIG. 3, a main body side groove 44 that opens downward is formed on the lower surface 222b of the main body side peripheral wall portion 222 facing the notch 41. The portion of the main body side peripheral wall portion 22 located behind the main body side groove portion 44 extends in the left-right direction and becomes the main body side support portion 45 housed inside the U-shaped hinge member 13 described later.

On the other hand, in the lid body 12, the lower surface 342b of the rear lid side peripheral wall portion 342 to which the hinge member 13 is connected is located at substantially the same height as the lower surface 222b of the main body side peripheral wall portion 222 of the container main body 11. A lid-side groove 47 that opens downward is formed on the lower surface of the lid-side peripheral wall portion 342 facing the notch 41. Of the lid-side peripheral wall portion 342, the portion located in front of the lid-side groove portion 47 extends in the left-right direction and serves as a lid-side support portion 48 housed inside the U-shaped hinge member 13 described later. ..

As shown in FIG. 3, the hinge member 13 includes a container body side connecting portion 51 connected to the container body 11, a lid side connecting portion 52 connected to the lid body 12, and a container body side connecting portion 51 and a lid body side. It has an elastic deformation portion 53 that connects the connecting portion 52 and the connecting portion 52. In the closed state, the hinge member 13 has the tip of the container body side connecting portion 51 and the lid side connecting portion 52 extending upward, and the elastic deformation portion 53 is located downward, so that the cross section seen from the left and right direction is the whole. It has a substantially U-shaped shape. As shown in FIG. 1, the hinge member 13 extends in the left-right direction over substantially the same length as the width in the left-right direction of the mirror member 39. The hinge member 13 is integrally formed of a material such as an elastically deformable resin.

The hinge member 13 is connected to the container body 11 by fitting the container body side connecting portion 51 into the main body side groove portion 44, and the lid body side connecting portion 52 is fitted to the lid body side groove portion 47 to form the lid body. It is connected to 12. The main body side support portion 45 of the container main body 11 and the lid body side support portion 48 of the lid body 12 are accommodated in the space between the container main body side connecting portion 51 and the lid body side connecting portion 52 of the hinge member 13, and are housed on the container main body side. It is supported in a state of being sandwiched between the connecting portion 51 and the lid side connecting portion 52. With such a structure, the hinge member 13 is connected to the container body 11 and the lid body 12.

Therefore, by pulling up the front side of the lid body 12, as shown in FIG. 6, the lid body 12 rotates about the substantially center of the elastic deformation portion 53 with respect to the container body 11. Hereinafter, the central axis when the lid 12 rotates through the center of the elastic deformation portion 53 is referred to as a rotation axis C.

As shown in FIG. 9, the sliding plate 14 is integrally formed with the top wall portion 33 and the lid side peripheral wall portion 34 of the lid body 12. Further, as shown in FIG. 2, the sliding plate 14 is formed at a position close to the left-right end portion of the lid body 12. As shown in FIG. 4, the sliding plate 14 has a width W1 wider than the thickness T1 of the lid-side peripheral wall portion 342 at a portion where the sliding plate 14 is not provided, and hangs down from the top wall portion 33. , It is formed so as to project forward from the lid side peripheral wall portion 342. As shown in FIG. 9, the sliding plate 14 has a plate surface extending along a plane orthogonal to the rotation axis C. Of the two plate surfaces of the sliding plate 14, the surface facing the interference plate 15 and in sliding contact with the plate surface of the interference plate 15 as the lid 12 rotates is referred to as a sliding contact surface 14s.

As shown in FIG. 2, the interference plate 15 is located on the outside of the sliding plate 14 in the left-right direction, and at a position corresponding to the position between the sliding plate 14 and the side plate portion 42 of the container body 11, the hinge member 13 and the hinge member 13. It is formed integrally. As shown in FIG. 9, the interference plate 15 has a plate surface extending along a surface orthogonal to the rotation axis C. Of the two plate surfaces of the interference plate 15, the surface facing the sliding contact surface 14s of the sliding plate 14 and coming into contact with the sliding contact surface 14s as the lid 12 rotates is referred to as a contact surface 15s.

As shown in FIGS. 5 and 9, the interference plate 15 has a stepped portion 55, a fixed portion 56 located above the stepped portion 55, and a deformed portion 57 located below the stepped portion 55. .. Further, the interference plate 15 has a fan-shaped shape centered on the rotation axis C when viewed from the left-right direction. Therefore, the central portion of the sector is the step portion 55, the substantially upper half of the sector is the fixed portion 56, and the substantially lower half of the sector is the deformed portion 57.

As shown in FIG. 9, since the step portion 55 is bent in the rotation axis C direction, the deformed portion 57 is located at a position shifted toward the center in the left-right direction with respect to the fixed portion 56. Therefore, in the rotation axis C direction, the contact surface 15s of the deformed portion 57 is located closer to the center in the left-right direction than the sliding contact surface 14s of the sliding plate 14. As described above, the deformed portion 57 of the interference plate 15 is in a position where it interferes with the sliding plate 14 when the sliding plate 14 rotates with the rotation of the lid 12. Further, a gap F is provided between the deformed portion 57 of the interference plate 15 and the side plate portion 42 of the container body 11. Therefore, the deformed portion 57 has a so-called cantilever structure in which the upper end is fixed, and the lower end side can move freely.

Hereinafter, the movement of each part related to the free stop action in the compact container 10 of the present embodiment will be described.
As shown in FIGS. 3 to 5 and 9, in the closed state, the sliding plate 14 of the lid 12 is located at a position facing the fixing portion 56 in the interference plate 15 of the hinge member 13. At this time, since the sliding contact surface 14s of the sliding plate 14 and the contact surface 15s of the interference plate 15 are not in contact with each other, no frictional force or elastic force is generated.

Next, from the state shown in FIG. 3, when the user pushes the operation portion 30 of the operation piece 17 toward the rear (the container body 11 side) with a finger or the like, the operation portion 30 is bent in the vertical direction. In addition to being elastically deformed into a linearly elongated shape, the fitting state between the lid body 12 and the container body 11 is released, and the lid body 12 is in an open state with respect to the container body 11. The user can then pull the front end of the lid 12 upwards to open the lid 12 to a desired angle.

As shown in FIGS. 6 to 8 and 10, when the lid 12 is opened to a predetermined position, the sliding plate 14 moves along the circumferential direction of the rotation shaft C as the lid 12 rotates. The sliding contact surface 14s of the sliding plate 14 slides into contact with the contact surface 15s of the interference plate 15. At this time, a frictional force is generated between the sliding contact surface 14s and the contact surface 15s. At the same time, since the deformed portion 57 of the interference plate 15 is in a position where it interferes with the sliding plate 14, the sliding plate 14 descends while pushing away the deformed portion 57, and the deformed portion 57 bends and deforms in the rotation axis C direction. .. At this time, the sliding plate 14 is pressed in the rotation axis C direction by the elastic force generated by the bending deformation of the interference plate 15.

In this way, in addition to the frictional force generated between the sliding contact surface 14s and the contact surface 15s, the elastic force generated by the bending deformation of the interference plate 15 causes the lid 12 to rotate unintentionally due to its own weight or the like. It is suppressed, it stands still in a predetermined open position, and it is held.

For example, as shown in Patent Document 1, in a conventional compact container, a free stop action is exhibited by a frictional force generated between an outer peripheral surface of a pin constituting a hinge and an inner peripheral surface of a pin receiving portion. Therefore, if the frictional force is designed to be large to some extent in order to stably stop the lid at an arbitrary open position, the feeling of opening and closing the lid becomes hard, and it becomes difficult to smoothly open and close the lid. On the contrary, if the frictional force is designed to be small, the opening and closing operation of the lid can be smoothly performed, but it becomes difficult to stably stop the lid at an arbitrary open position. As described above, in the conventional compact container, there is a problem that it is difficult to achieve both the improvement of the stability of the free stop action and the improvement of the operability when opening and closing the lid.

On the other hand, in the compact container 10 of the present embodiment, the sliding contact surface 14s of the sliding plate 14 and the contact surface 15s of the interference plate 15 for exhibiting the free stop action are along the plane orthogonal to the rotation axis C. It is an extending surface, which is different from the peripheral surface of the rotating shaft C as in a conventional compact container. Therefore, the frictional force and elastic force acting through the sliding contact surface 14s and the contact surface 15s do not significantly affect the operability when opening and closing the lid, and the adjustment is aimed at improving the stability of the free stop action. Is possible. For example, by increasing the thickness of the interference plate 15 to increase the elastic force, the stability of the free stop action can be improved. On the other hand, by optimizing the design of the elastically deformed portion 53 of the hinge member 13, the operability when opening and closing the lid can be adjusted.

As described above, according to the present embodiment, the stability of the free stop action and the operability at the time of opening and closing the lid can be independently adjusted by designing different parts in the compact container 10, so that the lid 12 can be arbitrarily adjusted. It is possible to provide a compact container 10 that can be stably held in an open position and can smoothly open and close the lid 12.

Further, the compact container 10 of the present embodiment includes a hinge member 13 that rotatably connects the lid 12 to the container body 11, and the hinge member 13 has a container body side connecting portion 51 and a lid side connecting portion 52. It has an elastically deformed portion 53. According to this configuration, the operability at the time of opening / closing operation of the lid 12 can be easily adjusted by the design of the elastic deformation portion 53. For example, by reducing the wall thickness of the elastically deformed portion 53, the opening / closing operation of the lid 12 can be performed with a relatively small force.

In addition, it is not necessary to use a pin or a pin receiving portion in a conventional compact container, and a hinge portion having a simple structure can be realized. Further, in a conventional compact container, a metal pin is often used, but with the above configuration, it is easy to manufacture a resin hinge member 13, and when the container body 11 and the lid 12 are made of resin. It is easy to use the hinge member 13 as the same material as the container body 11 and the lid 12. This eliminates the need for sorting work when disposing of the compact container 10.

Further, in the present embodiment, since the sliding plate 14 is integrally formed with the lid body 12 and the interference plate 15 is integrally formed with the hinge member 13 supported by the container body 11, the number of parts of the compact container 10 is increased. Can be reduced. Further, since the hinge member 13 made of resin is used, the interference plate 15 can be easily bent and deformed in the plate thickness direction (axial direction of the rotation shaft).

The technical scope of the present invention is not limited to the above embodiment, and various changes can be made without departing from the spirit of the present invention.
For example, in the above embodiment, the sliding plate 14 is integrally formed with the lid body 12, but the sliding plate 14 may be a member that is supported by the lid body 12 and rotates with the lid body 12. Therefore, for example, it may be formed separately from the lid and fixed to the lid by any method. Further, in the above embodiment, the interference plate 15 is integrally formed with the hinge member 13, but the interference plate 15 is a member arranged at a position where it interferes with the sliding plate 14 when the lid 12 rotates. Therefore, for example, it may be formed separately from the hinge member 13 and fixed to the hinge member 13 by any method, or may be directly supported by the container body 11. Alternatively, the interference plate 15 may be integrally formed with the container body 11.

Further, contrary to the configuration of the above embodiment, the sliding plate 14 may be supported on the container body 11 side, and the interference plate 15 may be supported on the lid body 12 side. In this case, the sliding plate 14 does not necessarily have to be directly supported by the container body 11, may be supported by the container body side connecting portion 51 supported by the container body 11, or may be supported by the container body side connecting portion. It may be formed integrally with 51. Similarly, the interference plate 15 does not necessarily have to be directly supported by the lid 12, may be supported by the lid-side connecting portion 52 supported by the lid 12, or may be integrated with the lid-side connecting portion 52. It may be formed in.

Further, the present invention may be applied not only to the hinge member 13 of the above embodiment but also to a compact container having a conventional hinge portion including a pin and a pin receiving portion.

Further, although the sliding plate 14 and the interference plate 15 of the above embodiment have a plate surface orthogonal to the rotation axis C, the plate surfaces of the sliding plate 14 and the interference plate 15 are not necessarily on the rotation axis C. It does not have to be orthogonal, and may intersect the rotation axis C. In addition, the specific description of the shape, number, arrangement, constituent materials, and the like of each part constituting the compact container 10 is not limited to the above embodiment, and can be appropriately changed.

10 Compact container 11 Container body 12 Lid 13 Hinge member 14 Sliding plate 14s Sliding contact surface (plate surface)
15 Interference plate 15s Contact surface (plate surface)
51 Container body side connecting part 52 Closure side connecting part 53 Elastic deformation part C Rotating shaft

Claims (3)

With the container body
A lid body rotatably connected to the container body about a rotation axis,
A sliding plate supported by either the lid or the container body and having a plate surface extending along a surface intersecting the rotation axis.
An interference plate supported by either one of the lid body and the container body and having a plate surface extending along a surface intersecting the rotation axis.
Equipped with
When the lid rotates to a predetermined open position with respect to the container body, the plate surface of the sliding plate slides into contact with the plate surface of the interference plate, and the interference plate moves in the axial direction of the rotation shaft. A compact container in which the lid is held in the open position by bending and deforming. Further provided with a hinge member that rotatably connects the lid to the container body.
The hinge member is
The container body side connecting portion connected to the container body and
The lid side connecting portion connected to the lid body and
An elastically deformed portion that connects the container body side connecting portion and the lid body side connecting portion,
The compact container according to claim 1. The sliding plate is formed integrally with the lid body and is formed.
The compact container according to claim 2, wherein the interference plate is integrally formed with the hinge member supported by the container body.

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