JP2015171906A - Storage container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a storage container which can ensure a high degree of airtightness between a container body and a lid, while capable of performing easily the opening operation of the lid to the container body.SOLUTION: A storage container includes a container body 2 having a housing recess 4, and a lid 3 that can open the opening of the container body. The container body 2 includes a bottom surface part 6 being a substantially square shape with four corners, a side surface part 7 which is formed continuously around the bottom surface part, and an annular flange part 8 which is formed continuously to the upper end of the side surface part. The lid body 3 includes a top surface part 17 which can cover the upper surface of the housing recess 4 of the container main body 2 and a side surface part 18 continuing around the top surface part thereof to be fittable with inside the flange part. At the four corner parts of the container body 2, the guide projections 21 is provided which elastically deforms the side surface parts toward the flange 8 side to press against the inner surface of the flange part 8 due to engagement of the side surface part 18 of the lid 3.

Description

  The present invention relates to a sealable storage container for storing a cleaning sheet, wet tissue, paper towel, and the like, and in particular, storage with excellent airtightness between a container body and a lid and easy opening operation. Concerning the container.

In general, a cleaning sheet impregnated with a cleaning agent is used for cleaning a toilet tub and toilet, cleaning a washstand and a gas stove. This cleaning sheet is stored and stored in a storage container having excellent airtightness in order to prevent evaporation of the impregnated cleaning agent.
As this type of conventional storage container, for example, there is one described in Patent Document 1.

JP 2004-329382 A

  Patent Document 1 describes a cleaning tool suitable for cleaning a narrow part that is out of reach of a toilet or the like. This cleaning tool has a cleaning sheet impregnated with a cleaning agent, a sealable storage container for storing the cleaning sheet, and a flat tip portion to which the cleaning sheet can be attached, and is detachable from the storage container. It consists of a fixed cleaning tool.

  The storage container used in the cleaning tool described in Patent Document 1 includes a container body that stores a cleaning sheet, and a lid that can open and close an opening on the upper surface of the container body. The body is rotatably connected to the container body by a hinge (not shown). The opening of the container main body is provided with an opening peripheral edge having a continuous flange shape in the circumferential direction, and the lid is provided with a lower peripheral edge that protrudes downward and is continuous in the circumferential direction. By fitting the lower peripheral edge of the lid to the opening peripheral edge of the container main body, it is configured to enhance the airtightness of the storage container and suppress the evaporation of the cleaning agent from the cleaning sheet.

  However, in the storage container described in Patent Document 1, a certain degree of high airtightness can be secured, but in order to ensure a high degree of airtightness, the fitting force of the lid to the container body has become large. Therefore, when taking out the cleaning sheet from the storage container, a large force is required to open the lid, and there is a problem that the opening operation of the lid cannot be performed smoothly.

  The present invention has been made in view of such conventional problems, and an object of the present invention is to provide a storage container capable of smoothly opening the lid while ensuring high airtightness. Yes.

  The storage container of the present invention includes a container main body having a storage recess having an upper surface opened for storing articles, and a lid that can open and close the opening on the upper surface of the container main body. The container body is formed so that a planar shape having corners of 3 to 18 corners forms a polygonal shape, and continues around the bottom surface and surrounds the bottom surface, and 3 to 18 locations. The side part which has the following corner | angular parts, and the flange part which is continuously formed in the upper end of the side part, and has the cyclic | annular 3 to 18 corners. The lid body can cover the upper surface of the storage recess of the container body and has an upper surface portion having three or more and 18 or less corner portions, and is continuous to the periphery of the upper surface portion and protrudes downward to face the flange portion. And side portions having corner portions of not less than 3 and not more than 18 locations. The side piece of the side part of the lid is engaged with the corner part of the container body at 3 to 18 corners, whereby the side piece is elastically deformed to the flange part side to contact or press contact with the inner surface of the flange part. A guide protrusion is provided.

  The number of corner portions and guide protrusions of the container body and the lid body may be set to 4, respectively.

  At least one of the inner surface of the flange portion or the outer surface of the side surface portion of the lid is provided with an annular protrusion having three or more and 18 or less corners and continuing endlessly in the circumferential direction. It is preferable to make it the structure which contacts or press-contacts the outer surface of a side part, or the inner surface of a flange part.

  It is preferable that a guide surface for guiding the side piece of the lid body to the flange portion side is provided on the guide protrusion, and the inclination angle of the guide surface is set within a range of 10 ° to 30 °.

  It is preferable that the guide protrusion is set so that the amount of the annular protrusion pressed against the side piece or the flange portion is within a range of 0.01 mm to 0.3 mm.

  The annular protrusion preferably sets the protrusion amount from the surface of the flange portion or the surface of the side portion within a range of 0.05 mm to 2.0 mm.

  It is preferable to set a gap in the range of 0.1 mm to 0.5 mm between the side piece just before the side piece comes into contact with the guide projection and the annular projection.

  According to the present invention, there is provided a storage container capable of smoothly (easy) opening the lid with respect to the container body and ensuring a high degree of airtightness between the container body and the lid. can do.

The 1st Example of the storage container of this invention is shown, and it is the perspective view which looked at the state which isolate | separated the cover body from the container main body from diagonally upward. The 1st Example of the storage container of this invention is shown, and it is the perspective view which looked at the state which closed the storage recessed part of the container main body with the cover body from diagonally upward. It is a bottom view of the cover body shown in FIG. It is a top view of the container main body shown in FIG. It is explanatory drawing which cut the front side half of the storage container shown in FIG. FIG. 6A is an enlarged view of the X portion shown in FIG. 5. FIG. 6A is an explanatory diagram showing a state before the side surface portion of the lid body is fitted to the flange portion of the container body, and FIG. 6B is a side surface portion of the lid body. It is explanatory drawing which shows the Example which provided the cyclic | annular protrusion. FIG. 7A is an enlarged view of the portion X shown in FIG. 5. FIG. 7A is an explanatory view showing a state after the side surface portion of the lid body is fitted to the flange portion of the container body, and FIG. 7B is the side surface portion of the lid body. It is explanatory drawing for demonstrating the clearance gap between the flange part of a container main body. FIG. 5 is an enlarged view of the X portion shown in FIG. 5, when the side surface portion of the lid body is fitted to the flange portion of the container body, the annular protrusion provided on the inner surface of the flange portion is pressed against the side surface portion of the lid body. It is explanatory drawing which shows the state which exists. It is explanatory drawing which shows the YY line | wire part of the storage container shown in FIG. 5 in cross section. It is explanatory drawing which cut down the front side half of the storage container (unknown) which concerns on the prior art which became the foundation of this invention. It is explanatory drawing which cross-sections and shows the ZZ line | wire part of the storage container shown in FIG. FIG. 12A is a bar graph showing airtightness, and FIG. 12B is a numerical value of airtightness, illustrating the airtightness of the storage container according to the first embodiment of the present invention and the storage container according to the prior art shown in FIG. It is the chart represented by. It is a bottom view of the lid which shows the 2nd example of the storage container of the present invention. It is a top view of the container main body which shows the 2nd Example of the storage container of this invention.

  Prior to the present invention, the present inventor has developed a storage container 100 (unknown) as shown in FIG. 10 in which a part of the conventional storage container is improved in view of the above-described problems. The storage container 100 includes a container main body 101 that stores a cleaning sheet, and a lid body 102 that can open and close an opening on the upper surface of the container main body 101. The lid 102 is rotatably connected to the container body 101 by a hinge (not shown).

  The container body 101 includes a bottom surface portion 104 having a substantially rectangular planar shape, and a side surface portion 105 formed so as to continuously surround the four sides of the bottom surface portion 104. A storage recess 106 opened upward by the portion 105 is formed. At the upper end of the side surface portion 105 of the container main body 101, a flange portion 107 formed in an annular shape continuously in the circumferential direction is provided. The flange portion 107 has an outer flange piece 113 and an inner flange piece 114 arranged concentrically. An annular protrusion 108 is provided on the inner circumferential surface of the inner flange piece 114 so as to protrude toward the housing recess 106 and to be annular in a circumferential direction.

  A lid 102 that is detachably attached to the container body 101 protrudes downward so as to surround the upper surface 110 that can cover the upper surface of the housing recess 106 and the four sides of the upper surface 110. And the side surface portion 111 is opposed to the flange portion 107 of the container main body 101. The side portion 111 has an outer side piece 115 and an inner side piece 116 that are arranged concentrically.

  The outer surface piece 115 of the lid body 102 is formed so as to be flush with the outer surface of the flange portion 107, and the outer surface piece 115 is opposed to the upper side of the outer flange piece 113 of the flange portion 107. ing. On the other hand, the inner surface piece 116 is greatly protruded downward so as to be opposed to the inner side of the inner flange piece 114 of the flange portion 107, whereby the annular protrusion 108 provided on the inner surface of the inner flange piece 114 is It is formed so as to contact the outer surface of 116. The inner side piece 116 is configured to be able to ensure the airtightness of the inside of the storage container 100 by the pressure contact force to the annular protrusion 108.

  However, the shapes of the container body 101 and the lid body 102 are substantially rectangular when viewed from above, and the long side portion and the short side portion are curved surfaces having an appropriate radius of curvature. Furthermore, curved surfaces of an appropriate size are set at the four corners of the container main body 101 and the lid body 102, that is, at the portions where the long and short sides intersect. As shown in FIG. 11, curved surface portions 113c and 114c are set at four corners of the outer flange piece 113 and the inner flange piece 114, which are the flange portions 107. The curvature radii RA and RD of the curved surface portions 113c and 114c are significantly smaller than the curvature radii RB and RE of the long side portions 113a and 114a and the curvature radii RC and RF of the short side portions 113b and 114b. It was. In addition, since the annular protrusion 108 is provided on the flange portion 107 of the container main body 101, the resin amount of the flange portion 107 in the container main body 101 needs to be locally large compared to the other portions of the side surface portion 105. It was a structure to be.

  Accordingly, as shown in FIG. 11, in the outer flange piece 113 and the inner flange piece 114 of the flange portion 107 of the container body 101, the curvature radii RA and RD of the curved surface portions 113c and 114c and the curvature radii of the long side portions 113a and 114a are obtained. Since RB, RE and the short sides 113b, 114b have greatly different radii of curvature RC, RF, they do not form one curved surface with one curvature radius, and have inflection points ST at two locations. It was in shape. In this regard, in the mold design stage, a curved surface portion having an intermediate curvature radius is provided so that the inflection point ST cannot be formed, and the long side portions 113a and 114a and the short side portions 113b and 114b are smoothly connected. Was.

  As a result, when the lid 102 is fitted to the container main body 101, the crescent-shaped gaps 117, 118 are formed between the inner surface of the inner flange piece 114 of the flange portion 107 and the outer surface of the inner side piece 116 of the lid body 102. , 119 are formed. Therefore, although the opening operation of the lid body 102 with respect to the container main body 101 can be performed smoothly, it is insufficient to ensure a high degree of airtightness between the container main body 101 and the lid body 102.

  The present invention has been made in order to solve such an insufficient point of the prior art (unknown), and can smoothly (openly) open the lid with respect to the container body. It is possible to provide a storage container capable of ensuring a high degree of airtightness between the lid and the lid.

Hereinafter, an example of the storage container of the present invention will be described with reference to FIGS. 1 to 9 and FIGS. 12 to 14. First, a first embodiment of the storage container will be described with reference to FIGS.
As shown in FIGS. 1-4, the storage container 1 which concerns on the 1st Example of this invention is the container main body 2 which has the storage recessed part 4 with which the upper surface opened which can accommodate articles | goods, and its container main body And a lid 3 that can be attached to and detached from the upper portion of the container 2 and that can open and close the opening of the container body 2. Examples of articles stored in the storage recess 4 of the storage container 1 include cleaning sheets impregnated with a cleaning agent, tissue paper, and paper towels.

  As shown in FIG. 1 and the like, the container main body 2 has a bottom surface portion 6 having four corners and a bottom surface portion 6 that is substantially rectangular, and is continuous with the four sides of the bottom surface portion 6 and surrounds the bottom surface portion 6. And a circumferentially continuous side surface 7 having four corners and a circumferentially continuous ring formed at the upper end of the side surface 7 and having four corners. And a ring-shaped projection 9 provided on the inner surface of the flange portion 8 and continuously provided in the circumferential direction having four corner portions.

  As shown in FIG. 4, the bottom surface portion 6 of the container body 2 is not a rectangular quadrangle in which four corners form a right angle, and the center portion is outside on both the long side portion 6a and the short side portion 6b. A curved surface portion formed in an arc shape having an appropriate curvature radius at the four corners where the end portion of the long side portion 6a and the end portion of the short side portion 6b intersect with each other are formed in a protruding arc shape. 6c is provided. The curvature radii of the long side portion 6a and the short side portion 6b are extremely large compared to the curvature radius of the curved surface portion 6c. The shape of the bottom surface portion 6 is not limited to the quadrangle shown in this embodiment, but is a polygon having three or more and 18 or less corners, that is, a triangle, pentagon, hexagon, heptagon, An octagon, a nine-sided, a ten-sided, an eleven-sided, a twelve-sided, a ten-triangle, a ten-sided, a fifteen-sided, a ten-hexagon, a seventeen-sided, and an eighteen-sided polygon can be applied.

  As shown in FIG. 1 and the like, the side surface portion 7 of the container body 2 is continuous with the bottom surface portion 6 and has four side surfaces formed so as to surround the bottom surface portion 6 and having four corners, that is, It has a front side piece 7a, a rear side piece 7b, a left side piece 7c, and a right side piece 7d. And between adjacent side pieces, it is formed as a curved piece 7e having a radius of curvature having a size substantially the same as that of the curved portion 6c of the bottom piece 6.

  As shown in FIG.1 and FIG.4, the flange part 8 of the container main body 2 is formed as an annular frame body that is continuously formed at the upper end of the side surface part 7 and has four corners. Has been. As shown in FIG. 5 and the like, the flange portion 8 is formed continuously with the upper end of the side surface portion 7 so as to protrude outward in the horizontal direction, and is formed continuously with the front end of the horizontal piece 11a. The surface shape is a U-shaped piece 11b having a U-shape. The U-shaped piece 11 b of the flange portion 8 is in a state in which the opening side is directed downward, and is arranged concentrically with the outer flange piece 12 arranged on the outer side in the horizontal direction and the outer flange piece 12. And an inner flange piece 13. An annular projection 9 is integrally provided on the inner surface of the inner flange piece 13. The magnitude relationship of the curvature radii of the long side portions 12a and 13a, the short side portions 12b and 13b, and the curved surface portions 12c and 13c in the outer flange piece 12 and the inner flange piece 13 will be described in detail later.

  As shown in FIG. 6A and the like, the annular protrusion 9 is formed of a convex portion having a substantially triangular cross-sectional shape protruding toward the storage concave portion 4 on the inner surface of the inner flange piece 13, and the convex portion is continuous in the circumferential direction. Thus, it is formed as an endless protrusion having an annular shape. Accordingly, the annular protrusion 9 is also provided with four corners. Guide projections 21 are provided at the four corners of the horizontal piece 11 a of the flange portion 8 to guide (guide) an inner side piece 26 (to be described later) of the lid 3 to contact or press contact with the annular projection 9. The guide protrusion 21 will be described in detail later.

  FIG. 6B shows another embodiment of the annular protrusion. In the embodiment shown in FIG. 6B, an annular protrusion 9 </ b> A having a semicircular cross section is provided on the outer surface of the inner surface piece 26 provided on the lid 3. The annular projection 9A is formed as an endless ridge by continuously projecting a convex portion having a substantially semicircular cross-sectional shape projecting to the opposite side of the housing concave portion 4 in the circumferential direction. Accordingly, corners are set at four locations on the annular protrusion 9A.

  As shown in FIGS. 1 and 4, a pair of bearing portions 15, 15 constituting one of the hinges 14 for rotatably supporting the lid 3 is provided on the back side of the long side portion of the flange portion 8. It has been. The pair of bearing portions 15 and 15 are arranged with a predetermined gap in the longitudinal direction of the long side portion, and the bearing portions 15 and 15 are respectively provided with bearing holes that open to surfaces facing each other. Yes.

  As shown in FIG. 1 and the like, the lid 3 is continuous with the upper surface portion 17 having four corners that can cover the upper surface of the storage recess 4 of the container main body 2, and the upper surface portion 17. And a side part 18 having four corners and facing the flange part 8. The upper surface portion 17 of the lid body 3 has the same shape as the bottom surface portion 6 of the container body 2, and is formed as a substantially rectangular shape similar to the bottom surface portion 6 in this embodiment.

  That is, as shown in FIG. 3, the upper surface portion 17 of the lid 3 is not a rectangular quadrangle in which the four corners form a right angle, like the bottom surface portion 6 of the container body 2, but a long side portion and a short side portion. In any of the parts, the central part is formed in an arc shape protruding outward, and the four corners where the long side part and the short side part intersect are formed in an arc shape having an appropriate radius of curvature. The curved surface portion is provided. The curvature radii of the long side portion and the short side portion are extremely large compared to the curvature radius of the curved surface portion. The shape of the top surface portion 17 is necessarily a shape corresponding to the shape of the bottom surface portion 6. When the bottom surface portion 6 is a triangle, the shape of the top surface portion 17 is also a triangle, and the bottom surface portion 6 is eighteen. In the case of a square shape, the shape of the upper surface portion 17 is also an octagon. Thus, the shape of the upper surface portion 17 of the lid 3 is not limited to the quadrangle shown in this embodiment, but is a polygon having three or more and 18 or less corners, that is, a triangle, a pentagon, Apply hexagons, heptagons, octagons, nine angles, decagons, ellipses, dodecagons, dodecagons, dodecagons, dodecagons, dodecagons, dodecagons, dodecagons and dodecagons Can do.

  The side surface portion 18 of the lid body 3 is an arcuate curved surface portion in which the four corner portions do not form a right angle and the center portion protrudes outward, and is an outer surface piece arranged on the outer side in the horizontal direction. 25 and an inner surface piece 26 disposed concentrically at a predetermined interval inside the outer surface piece 25. The length (depth) of the inner side piece 26 in the vertical direction is set to approximately twice the length of the outer side piece 25, and the outer side piece 25 is attached to the container body 2 with the lid 3 attached. Is opposed to the upper side of the outer flange piece 12 of the flange portion 8 and forms the same plane, while the inner side surface piece 26 faces the inner side of the inner flange piece 13 of the flange portion 8.

  As shown in FIGS. 1 and 3, a long side portion on the back side of the side surface portion 18 is provided with a shaft portion 19 that constitutes the other of the hinges 14 for rotatably connecting the lid 3 to the container body 2. It has been. The shaft portion 19 is mounted between a pair of bearing portions 15, 15 provided on the flange portion 8 of the container body 2, and pivot shafts 19 a, 19 a projecting outward in the axial direction at both ends in the axial direction. Is provided. A hinge 14 is formed by fitting the pair of pivot shafts 19a and 19a into the bearing holes of the pair of bearing portions 15 and 15 so that the container body 2 and the lid body 3 are rotated. It is connected freely.

  As shown in FIGS. 1 and 4 to 8, guide protrusions 21 projecting upward are provided at four corners of the flange portion 8 of the container body 2. The guide protrusion 21 guides the inner side piece 26 of the lid 3 toward the U-shaped piece 11 b side, and makes the lower part of the inner side piece 26 contact or press contact with the annular protrusion 9. Thereby, drying of the washing | cleaning agent etc. which are contained in storage articles, such as the cleaning sheet and wet tissue stored by raising the airtightness inside the storage recessed part 4 of the storage container 1, can be prevented or suppressed. The guide protrusions 21 are formed as arc-shaped convex portions having a length of approximately ¼ of a circle having a size corresponding to the radius of curvature at four corners of the container body 2.

  In order to ensure the function of the guide protrusion 21, as shown in FIGS. 7A and 7B, the longitudinal cross-sectional shape of the guide protrusion 21 is formed in a substantially triangular shape and faces the inner side piece 26 of the guide protrusion 21. A guide surface 21a is set on the inclined surface. The inclination angle (angle formed by a vertical line perpendicular to the mounting surface of the storage container 1) θ of the guide surface 21a is set to 20 degrees. The inclination angle θ is not limited to this example, and can be set within a range of 3 ° to 45 °, but a preferable range is a range of 10 ° to 30 °. If the inclination angle θ is in the range of 3 degrees to 45 degrees, the inner side piece 26 can be smoothly moved. Further, by setting the inner side piece 26 in the range of 10 degrees to 30 degrees, It can be moved more smoothly. Accordingly, there is an advantage that the inner surface piece 26 can be reliably brought into contact with or brought into contact with the annular protrusion 9 to ensure high airtightness, and the opening operation of the lid 3 from the container body 2 can be smoothly performed. is there.

  As shown in FIG. 7B, the protrusion amount H of the annular protrusion 9 protruding from the surface of the inner flange piece 13 of the flange portion 8 toward the storage recess 4 is set to 0.25 mm in this embodiment. The protrusion amount H of the annular protrusion 9 is not limited to this embodiment, and is preferably set to a size within a range of 0.05 mm to 2.0 mm. When the protrusion amount H is in the range of 0.05 mm to 2.0 mm, the inner surface piece 26 comes into contact with or comes into contact with the annular protrusion 9 to achieve the function of ensuring airtightness while performing injection molding. There is an advantage that the mold can be reliably released from the mold at the time of manufacture.

  Further, as shown in FIG. 7B, the gap K between the annular protrusion 9 of the container body 2 and the inner surface piece 26 of the lid body 3 in a state before the lid body 3 is fitted to the container body 2 is formed in this embodiment. In the example, it is set to 0.2 mm. The gap K is not limited to this example, and is preferably set to a size within the range of 0.1 mm to 0.5 mm. If the gap K is in the range of 0.1 mm to 0.5 mm, there is an advantage that the opening / closing operation of the lid 3 with respect to the storage recess 4 of the container body 2 can be performed smoothly and reliably.

  Further, as shown in FIG. 8, when the opening of the container body 2 is closed by the lid 3, the inner side piece 26 is guided (guided) by the guide protrusion 21 and the inner side piece 26 is brought into contact with the annular protrusion 9. Alternatively, the deformation amount M for elastically deforming the inner side surface piece 26 for pressure contact is set to 0.05 mm in this embodiment. The amount of deformation M is not limited to this example, and is preferably set to a size within the range of 0.01 mm to 0.3 mm. If the deformation amount M of the inner surface piece 26 is in the range of 0.01 mm to 0.3 mm, the opening / closing operation of the lid 3 with respect to the storage recess 4 of the container body 2 is smoothly performed while ensuring the airtightness of the storage container 1. And there is an advantage that it can be performed reliably.

  As a material of the container body 2 and the lid body 3 having such a configuration, for example, a thermoplastic resin such as PP (polypropylene) or PE (polyethylene) is suitable. However, the material of the container body 2 and the lid body 3 is not limited to these PP and PE, and the container body 2 and the lid body 3 are formed using various thermoplastic resins that can be manufactured by injection molding. be able to.

  The storage container 1 composed of the container body 2 and the lid 3 having the above-described configuration is, for example, as a highly airtight storage container 1 in which a cleaning sheet impregnated with a cleaning agent is stored in the storage recess 4 as described below. Can be used as such.

  After storing a cleaning sheet (not shown) having a predetermined shape in the storage recess 4 of the container body 2, the lid body 3 facing above the storage recess 4 is rotated toward the container body 2 with the hinge 14 as a rotation center, The inner surface piece 26 provided on the lid 3 is fitted to the flange portion 8 of the container body 2. FIG. 6A shows a state immediately before the inner side piece 26 is brought close to the inner flange piece 13 of the flange portion 8 and the inner side piece 26 comes into contact with the guide protrusion 21. The inner side piece 26 and the inner flange at this time are shown in FIG. A gap K between the annular protrusion 9 provided on the inner surface of the piece 13 is about 0.25 mm.

  When the lid 3 is brought closer to the container body 2 from this state, the tip of the inner side piece 26 comes into contact with the guide surface 21a of the guide protrusion 21 provided on the horizontal piece 11a of the flange portion 8. Further, when the lid 3 is pressed against the container main body 2 side, as shown in FIGS. 7A and 7B, the inner side piece 26 having elasticity by being guided by the guide surface 21a by the resistance of the guide projection 21 is provided on the inner flange piece 13 side. It is elastically deformed. At this time, the inclination angle θ of the guide surface 21a of the guide protrusion 21 is set to an angle that forms 20 degrees with a vertical line that stands vertically from the mounting surface of the container body 2, and therefore the guide surface 21a of the guide protrusion 21 Thus, the inner side piece 26 can be easily moved while being elastically deformed.

  Further, when the lid 3 is pushed to a predetermined position, the outer surface of the inner side piece 26 is pressed against the annular protrusion 9, thereby ensuring airtightness between the container body 2 and the lid 3. . That is, the guide protrusions 21 provided on the container main body 2 are only four corners surrounding the opening of the storage recess 4, and the four annular protrusions 21 are inner surface pieces as shown in FIG. 9. 26 is pressed to press the four curved surface portions 26c against the four curved surface portions 13c of the inner flange piece 13. As a result, the long side portion 26 a of the inner side surface piece 26 is pressed against the long side portion 13 a of the inner flange portion 13 by the plastic force of the inner side surface piece 26, and the short side portion 26 b of the inner side surface piece 26 is in contact with the inner flange portion 13. Are pressed against the short side portion 13b. Thereby, the inner side surface piece 26 can be press-contacted or brought into contact with the entire annular protrusion 21, and the airtightness in the storage recess 4 can be enhanced to ensure a highly airtight state.

  Here, in FIG. 9, the code | symbol 12a is a long side part of the outer flange piece 12, and the curvature radius of this long side part 12a is RB. The code | symbol 12b is the short side part of the outer flange piece 12, and the curvature radius of this short side part 12b is RC. Reference numeral 12c is a curved surface provided at four corners of the outer flange piece 12, and the radius of curvature of the curved surface 12c is RA. Moreover, the code | symbol 13a is the long side part of the inner flange piece 13, and the curvature radius of this long side part 13a is RE. The code | symbol 13b is a short side part of the inner flange piece 13, and the curvature radius of this short side part 13b is RF. Furthermore, the code | symbol 13c is a curved surface part provided in the four corners of the inner flange piece 13, and the curvature radius of this curved surface part 13c is RD.

  Reference numeral RG is a radius of curvature of the outer peripheral surface of the annular protrusion 21. Further, in the code ST, the curvature radii RA and RD of the curved surface portions 12c and 13c are greatly different from the curvature radii RB and RE of the long side portions 12a and 13a and the curvature radii RC and RF of the short side portions 12b and 13b. The inflection points formed in the continuous part are shown.

The test of the airtightness of the storage container 1 according to this example and the storage container (unknown) 100 according to the prior art will be described with reference to FIGS. 12A and 12B.
(1) The purpose of the test is that the guide protrusions 21 provided at the four corners (corners) of the container main body lead to an improvement in the airtightness of the storage container 1 of the present invention and the storage container 100 according to the prior art. Verify whether or not.
(2) The measuring method is to put ethanol (volume) corresponding to 1/10 of the storage capacity (ml) into each storage container, measure the weight (g) of the entire container, and measure the ethanol over time. The amount of decrease is measured by weight. The number of measurements was three times after 24 hours, 48 hours and 72 hours after filling.

  FIG. 12A is a bar graph showing the result of testing the airtightness of the storage container 1 according to the present invention and the storage container (not known) 100 according to the prior art, and FIG. 12B is a numerical result of the result. It is.

In the storage container 100 according to the prior art shown in FIG. 10 in which the guide protrusions 21 are not provided at the four corners of the container body, the ethanol reduction amount Q ₂₄ (%) after 24 hours is 0.99%, 48 hours. The ethanol decrease Q ₄₈ (%) after that was 1.70%, and the ethanol decrease Q ₇₂ (%) after 72 hours was 2.29%. On the other hand, in the storage container 1 according to the present invention shown in FIG. 5 and the like provided with the guide protrusions 21 at the four corners, the ethanol decrease amount P ₂₄ (%) after 24 hours is 0.67%, The ethanol decrease P ₄₈ (%) after 48 hours was 1.07%, and the ethanol decrease P ₇₂ (%) after 72 hours was 1.36%.

  The reason why the airtightness of the storage container 100 according to the prior art is inferior to the airtightness of the storage container 1 of the present invention is that there are no guide protrusions at the four locations of the storage container 100, as shown in FIG. The cause is thought to be that ethanol leaks from the gaps 117, 118, and 119. On the other hand, according to the storage container 1 according to the present invention, since the guide protrusions 21 are provided at the four corners provided on the container main body 2, the inner side surface piece extends over substantially the entire circumference of the annular protrusion 9. 26 can be brought into pressure contact with or in contact with the annular protrusion 9.

  That is, since the guide projection 21 presses the curved surface portion 26c of the inner side surface piece 26 against the curved surface portion 13c of the inner flange piece 13, the crescent-shaped gap 117 as shown in FIG. It is possible to reliably prevent gas leakage. Further, both sides of the curved surface portion 26c are not pressed by the guide protrusions 21, but based on the plastic force of the inner surface piece 26, the inner surface piece 26 is pressed by the pressing force of the guide protrusions 21 that press the curved surface portion 26c. The long side portion 26 a is pressed against the long side portion 13 a of the inner flange portion 13, and the short side portion 26 b of the inner side surface piece 26 is pressed against the short side portion 13 b of the inner flange portion 13. Accordingly, the gap 118 and the gap 119 shown in FIG. 11 are also eliminated, and gas leakage from the gap 118 and the gap 119 can be prevented. As a result, as shown in FIGS. 12A and 12B, it was confirmed that the amount of decrease in ethanol with the passage of time can be reduced and high airtightness can be maintained for a long time.

  On the other hand, when the lid 3 is opened, a portion where the container body 2 and the lid 3 are in contact with each other forms a linear shape of the annular protrusion 9 and the inner side surface piece 26 that contacts the entire circumference of the annular protrusion 9. Since only the contact portion is present, the frictional resistance due to these is not so great. Therefore, the inner surface piece 26 sandwiched between the annular protrusion 9 and the guide protrusion 21 can be smoothly pulled out with a relatively small force against the frictional resistance. That is, according to the storage container 1 according to the present invention, the lid can be opened and closed smoothly with a relatively small force, and a high degree of airtightness of the storage container 1 is ensured with the cover 3 closed. It was possible to do it.

  The guide protrusion 21 may have a structure in which one or two guide protrusions are provided in combination with the long side portion and / or the short side portion of the horizontal portion 11a separately from the corner portion of the container body 2. In such a case, the inner side piece 26 can be brought into contact or pressure contact with the annular protrusion 9 at the middle part of the long side part and / or the short side part, so that the airtightness can be further improved. On the other hand, the guide protrusion 21 may be continuously provided over the entire circumference of the container body, but this is not preferable. The reason for this is that if a guide protrusion is provided over the entire circumference of the container body, a bowl-shaped groove is formed by the guide protrusion, and if dust accumulates in the groove, the dust can be removed. This is because of the negative effect of becoming difficult. On the other hand, when annular projections are provided at the four corners, annular grooves that are continuous in the circumferential direction are not formed, so that dust does not accumulate, and dust or the like of the horizontal portion 11a is removed. There is an advantage that it can be easily cleaned and is hygienic.

  13 and 14 show a second embodiment of the present invention. The storage container shown in this embodiment is composed of a container body 32 and a lid body 33, and the container body 32 and the lid body 33 are rotatably connected by a hinge (not shown). The container body 32 and the lid body 33 are different from the container body 2 and the lid body 3 according to the first embodiment in that the bottom surface portion 36 of the container body 32 and the top surface portion 47 of the lid body 33 are arranged at four corners. It is the point which made it the rectangle which has a part, and formed both the long side part and the short side part in linear form.

  The container main body 32 is formed so as to surround the bottom surface 36 and has four corners as well as the bottom surface 36 having a square shape with four corners, and a bottom surface 36 that is continuous with the four sides of the bottom surface 36. A side surface portion 37 having an annular shape, an annular flange portion 38 formed continuously at the upper end of the side surface portion 37 and having four corner portions, and four corner portions provided on the inner surface of the flange portion 38. And an annular protrusion (not shown) continuous in the circumferential direction.

  The bottom surface portion 36 of the container body 32 has a long side portion 36a and a short side portion 36b, and the long side portion 36a and the short side portion 36b are each formed in a straight line shape. And the part where the edge part of the long side part 36a and the edge part of the short side part 36b cross | intersect is formed of the curved surface part 36c which has a suitable curvature radius. On the periphery of the bottom surface portion 36, side surface portions 37 having corner portions at four locations are continuously formed so as to rise upward. And the flange part 38 which has a corner | angular part in four places is formed in the upper end part of the side part 37. FIG.

  The flange portion 38 is formed by a horizontal piece 41a that is continuously extended outward in the horizontal direction from the upper end of the side surface portion 37, and a U-shaped piece 41b that is provided integrally and continuously on the outer edge of the horizontal piece 41a. ing. Although not shown, the U-shaped piece 41b is in a state in which the opening side is directed downward, an outer flange piece arranged on the outer side in the horizontal direction, and an inner flange arranged concentrically with the outer flange piece And have a piece. An annular protrusion is integrally provided on the inner surface of the inner flange piece.

  Guide protrusions 61 projecting upward are provided on the upper surfaces of the four corners of the horizontal piece 41 a of the flange portion 38. The guide protrusion 61 is formed in a circular arc shape having a planar shape of ¼, and the cross-sectional shape and the shape and structure of the guide surface and the like are the same as those of the guide protrusion 21 of the first embodiment described above. Detailed description is omitted.

  The lid 33 has an upper surface portion 47 having four corners that can cover the upper surface of the storage recess 34 of the container main body 32, and continues to the periphery of the upper surface portion 47 and protrudes downward to face the flange portion 38. And a side surface portion 48 having four corners. The upper surface portion 47 of the lid 33 has the same shape as the bottom surface portion 36 of the container main body 32, and is formed as a quadrangle similar to the bottom surface portion 36 in this embodiment.

  The long side portion and the short side portion of the upper surface portion 47 of the lid 33 are each formed in a straight line shape. And the part where the edge part of a long side part and the edge part of a short side part cross | intersect is formed of the curve part which has a suitable curvature radius. Further, the upper surface portion 47 of the lid 33 is a rectangular quadrangle in which four corners form a right angle, like the bottom surface portion 36 of the container body 32, and the long side portion and the short side portion intersect. Curve portions formed in an arc shape having an appropriate radius of curvature are provided at four corners.

  The shape of the upper surface portion 47 is inevitably formed in a shape corresponding to the shape of the bottom surface portion 36. When the bottom surface portion 36 is triangular, the shape of the upper surface portion 47 is also triangular, and the bottom surface portion 36 is eighteen. In the case of a square shape, the shape of the upper surface portion 47 is also an octagon. Thus, the shape of the upper surface portion 47 of the lid 33 is not limited to the quadrangle shown in this embodiment, but is a polygon having three or more and 18 or less corners, that is, a triangle, a pentagon, Apply hexagons, heptagons, octagons, nine angles, decagons, ellipses, dodecagons, dodecagons, dodecagons, dodecagons, dodecagons, dodecagons, dodecagons and dodecagons Can do.

  The side surface portion 48 of the lid body 33 is continuous with the periphery of the upper surface portion 47 and has corner portions at four locations and is formed to fall downward. The side surface portion 48 includes an outer surface piece 51 disposed on the outer side in the horizontal direction, and an inner surface piece 52 disposed concentrically at a predetermined interval inside the outer surface piece 51. The inner side piece 52 is set to be approximately twice as long as the outer side piece 51, and the outer side piece 51 is located above the outer flange piece of the flange portion 38 in a state where the lid 33 is attached to the container body 32. The inner surface piece 52 is adapted to face the inner side of the inner flange piece of the flange portion 38.

  Since other configurations, operations, and effects of the container main body 32 and the lid 33 are the same as those in the first embodiment, description thereof is omitted. Even with the storage container having such a configuration, the opening / closing operation of the lid body 33 with respect to the container body 32 can be smoothly performed with a relatively small force as in the above-described embodiment, and the lid body 33 is stored in a closed state. It has become possible to ensure a high degree of airtightness of the container.

  As described above, the present invention is not limited to the above two embodiments, and various modifications can be made within an equivalent range, and various modifications can be made within the scope of the invention described in the claims. It will be readily understood by those skilled in the art that this is possible.

  DESCRIPTION OF SYMBOLS 1 ... Storage container 2,32 ... Container main body 3,33 ... Lid body 4,34 ... Storage recessed part 6,36 ... Bottom face part 7, 37 ... Side face part 8, 38 ... Flange part 9, 9A ... annular projection, 11a, 41a ... horizontal piece, 11b, 41b ... U-shaped piece, 12 ... outer flange piece, 13 ... inner flange piece, 14 ... hinge, 17, 47 ... upper surface part, 18, 48 ... side part, 21, 61 ... guide protrusion, 21a ... guide surface, 26,52 ... inner surface piece, θ ... inclination angle, H ... projection amount of annular protrusion, K ... gap between annular protrusion and inner surface piece, M ... inside Side piece deformation

Claims (7)

A container body having a storage recess with an upper surface opened for storing articles;
A lid capable of opening and closing the opening on the upper surface of the container body,
The container main body is formed so that a planar shape having a corner portion of 3 to 18 corners forms a polygon, a periphery of the bottom portion and surrounding the bottom portion, and 3 to 18 A side surface portion having corner portions of less than or equal to a portion, and a flange portion formed continuously from the upper end of the side surface portion and having three or more and 18 or less corner portions forming an annular shape,
The lid body can cover the upper surface of the storage recess of the container body and has an upper surface portion having corner portions of 3 to 18 locations, and is continuous with the periphery of the upper surface portion and protrudes downward to protrude the flange. And a side part having a corner part that is not less than 3 and not more than 18 parts.
The side piece of the side part of the lid is elastically deformed to the flange part side by engaging the side piece of the side part of the lid body with the corner part of the container body from 3 to 18 parts. A storage container provided with a guide projection for contacting or pressure-contacting the inner surface. The storage container according to claim 1, wherein the number of the corner portions and the number of the guide protrusions of the container body and the lid body is 4, respectively. At least one of the inner surface of the flange portion or the outer surface of the side surface portion of the lid body is provided with an annular protrusion that has the corner portions of the three or more and 18 or less portions and continues endlessly in the circumferential direction,
The storage container according to claim 1 or 2, wherein the annular protrusion is brought into contact or pressure contact with the outer surface of the side surface portion or the inner surface of the flange portion by the guide protrusion. The guide protrusion is provided with a guide surface that guides the side piece of the lid to the flange portion side, and an inclination angle of the guide surface is set within a range of 10 ° to 30 °. The storage container according to any one of 1 to 3. 5. The guide protrusion according to claim 1, wherein an amount of the annular protrusion pressed against the side piece or the flange portion is set within a range of 0.01 mm to 0.3 mm. Storage container.   The said annular protrusion set the protrusion amount from the surface of the said flange part or the surface of the said side part in the range of 0.05 mm to 2.0 mm, The any one of Claim 3 thru | or 5 characterized by the above-mentioned. Storage container. 7. A gap in a range of 0.1 mm to 0.5 mm is provided between the side piece immediately before the side piece comes into contact with the guide projection and the annular projection. Or the storage container according to claim 1.

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