JP6923349B2 - Containers, bag-in-boxes, and structures - Google Patents

Description

The present invention relates to a structure forming an outlet of the container and the container, the structure is not limited thereto, in particular to form the container, taken in the container outlet suitable for use in bag-in-box, and, bag-in Regarding the box.

The structure forming the outlet for taking out the contents from the container can be formed, for example, by the mouth portion of the container and the cap attached to the mouth portion. Such a structure is simple, but in a structure in which the outlet is opened by simply removing the cap, it may be difficult to take out the contents. For example, when dispensing the contents from a large container to a small container, the large container must be tilted after removing the cap, but if the container is heavy, the work will fail and the contents will overflow. It can be.

In this respect, a water server having a cock-type outlet is known (Patent Documents 1 and 2). If it is a cock type, the outlet can be opened with a simple operation.

Japanese Unexamined Patent Publication No. 2013-163539 Utility model registration No. 3175817

However, if a cock type outlet is used, the structure is complicated and the cost can be high.

An object of the present invention is to provide a container having an outlet having a simple structure and a structure forming an outlet having a simple structure.

The container according to the first aspect of the present invention includes a container body having a mouth portion, an inner cylinder, and a cap. The inner cylinder has a tubular side wall, and the side wall is inserted into the mouth. A spout for taking out the contents contained in the internal space of the container body is formed on the side wall. The inner cylinder is configured to be movable between the open position and the closed position. The open position is a position where the side wall is advanced so as to be pulled out from the internal space through the mouth portion, and the spout is exposed. The closed position is a position where the side wall retracts toward the internal space and the spout is housed in the internal space. The cap is connected to the inner cylinder and is detachably fixed to the mouth. When fixed to the mouth, the cap locks the inner cylinder in the closed position and covers the inner cylinder so as to be confined in the internal space.

The container according to the second aspect of the present invention is the container according to the first aspect, and the content contains a solid substance.

The container according to the third aspect of the present invention is the container according to the second aspect, and the content is granular. When the minimum diameter of the passage of the contents of the inner cylinder is r and the maximum diameter of the contents is R, 1.0 <r / R ≦ 2.0.

The container according to the fourth aspect of the present invention is a container according to any one of the first to third aspects, and the spout extends in a circumferential direction of less than 180 ° with respect to the central axis of the side wall. There is.

The container according to the fifth aspect of the present invention is a container according to any one of the first to fourth aspects, and the inner cylinder passes near the downstream end of the spout in the side wall and has an oblique cross section. It also has an expanding wall member. The wall member is inclined from the inside of the spout toward the spout along the path direction of the contents in the side wall.

The container according to the sixth aspect of the present invention is the container according to the fifth aspect, and the wall member has an inclination angle of 30 ° to 60 ° with respect to the course direction.

The container according to the seventh aspect of the present invention is a container according to any one of the first to sixth aspects, the inner cylinder is connected to the side wall, and the side wall is pulled out from the internal space through the mouth portion. It also has a stopper that stops in contact with the mouth so that it does not fall out of the mouth when an external force is applied.

The container according to the eighth aspect of the present invention is a container according to any one of the first to seventh aspects, and the stopper includes a protrusion protruding radially outward from the side wall. The side wall is formed with a notch extending along the course direction from the inner end along the course direction of the contents in the side wall.

The bag-in-box according to the ninth aspect of the present invention includes a container according to any one of the first to eighth aspects and a box-shaped outer container for accommodating the container. The container body is bag-shaped.

The structure according to the tenth aspect of the present invention is a structure that forms an outlet for taking out the contents from the inside of the container, and includes a mouth portion attached to the container, an inner cylinder, and a cap. The inner cylinder has a tubular side wall, and the side wall is inserted into the mouth. A spout for taking out the contents contained in the container is formed on the side wall. The inner cylinder is configured to be movable between the open position and the closed position. The open position is a position where the side wall is advanced so as to be pulled out from the internal space formed by the container and the mouth through the mouth, and the spout is exposed. The closed position is a position where the side wall retracts toward the internal space and the spout is housed in the internal space. The cap is connected to the inner cylinder and is detachably fixed to the mouth. When fixed to the mouth, the cap locks the inner cylinder in the closed position and covers the inner cylinder so as to be confined in the internal space.

According to the present invention, an inner cylinder (cylindrical side wall) is inserted into the mouth of the container body so that it can be pulled out, and a spout formed in the inner cylinder is formed by moving the inner cylinder back and forth with respect to the mouth. Can be opened and closed. Therefore, an outlet having a simple structure is realized. Further, a cap detachable from the mouth is connected to the inner cylinder, and when the cap is fixed to the mouth, the inner cylinder is covered by the cap so as to be confined in the container body. Therefore, the airtightness is also maintained.

The external perspective view of the inner bag (container) which concerns on one Embodiment of this invention. External perspective view of the bag-in-box. External perspective view of the inner bag near the mouth. Side view of the inner cylinder. Perspective view of the inner cylinder. A perspective view of the inner cylinder viewed from another angle. A structure that forms an open outlet. A structure that forms a closed outlet. Side view of the cap. A perspective view of the cap as viewed from the outside. A perspective view of the cap as seen from the inside. The figure which shows the side surface of the outer box in which an opening is formed.

Hereinafter, with reference to the drawings, a container according to an embodiment of the present invention, a structure forming an outlet for the container, and a bag-in-box including the container will be described.

<1. Overall configuration of bag-in-box>
FIG. 1 shows an external perspective view of a bag-shaped inner container (hereinafter referred to as an inner bag) 2 which is a container according to an embodiment of the present invention, and FIG. 2 shows an external appearance of a bag-in-box 1 provided with an inner bag 2. A perspective view is shown. The bag-in-box 1 is a container having a double structure, and in addition to the inner bag 2, a box-shaped outer container (hereinafter, referred to as an outer box) 3 for accommodating the inner bag 2 is further provided. The bag-in-box 1 is a container for accommodating the contents, and the contents are accommodated in the inner bag 2. In the used state, the structure D forming the outlet for taking out the contents from the inner bag 2 projects to the outside of the outer box 3 as shown in FIG. Therefore, the user can access the outlet with the inner bag 2 housed in the outer box 3 and take out the contents. The bag-in-box 1 is suitable for use for storing the contents before being transferred into smaller containers.

<2. Composition of each part>
<2-1. Contents>
Various contents can be stored in the inner bag 2. The type of the content is not particularly limited, and may be a solid substance (including a gel), a liquid substance, or both, but the content of the present embodiment mainly has an air purifying function. It is a gel-like bead having a spherical shape. However, the shape of the beads may not be spherical, and may be, for example, a geometrical shape such as a rectangular parallelepiped or a star, or a special shape such as an animal, a plant, or an animated character. In the present embodiment, a large number of spherical beads are housed in the inner bag 2, but the shapes of the individual contents may be the same or different.

The beads contain water and functional components, which can be separated from the gel-like beads. Therefore, the content of the present embodiment is a mixture of a solid substance and a liquid substance, although it depends on the environmental conditions. The functional component is a component capable of exhibiting a desired air purifying function in the environment in which the beads are used, and examples thereof include a deodorant component, an aromatic component, an insect repellent component, and an antibacterial component. These functional ingredients may be used alone or in combination of two or more. Preferred combinations include combinations of aromatic components and deodorant components. The functional component may be either oil-based or water-soluble. When the functional component is oily, it is important that the beads contain oil. It is preferable that the functional component can be volatilized in the air in the environment in which it is used.

Aroma components include, for example, natural fragrances such as lavender, lemon, orange, jasmine, and peppermint; synthetic fragrances such as limonene, tarpinolen, gelaniol, citronellol, and ethyl acetate; and blended fragrances thereof. And so on.

Examples of the deodorant component include extracts of plants such as rice, pine, hinoki, and bamboo grass; desalted betaine compounds; modified organic acid compounds; triethanolamine; stabilized chlorine dioxide; aldehyde compounds, and the like. ..

Examples of the insect repellent component include hinokitiol, hiba oil, allyl isothiocyanate, ethanol, propanol, 1.8. Examples include cineole.

Examples of the antibacterial component include octyltrimethylammonium chloride, didecyldimethylammonium gluconic acid, chlorhexidine, chlorhexidine gluconate, allyl isothiocyanate, propylene glycol monomethyl ether, propylene glycol monopropyl ether and the like.

<2-2. Inner bag ＞
The inner bag 2 has a bag main body 20 and a mouth portion 10 attached to the bag main body 20. The bag body 20 is made of a flexible material, and is made of synthetic resin in this embodiment. Therefore, the bag body 20 can be folded flat in an empty state, but as shown in FIG. 1, it is three-dimensional so that an internal space S1 having a sufficient size for accommodating the contents is formed. Can be expanded to. The internal space S1 referred to here means the internal space of the main body (container main body) of the inner bag 2 formed by the bag main body 20 and the mouth portion 10.

FIG. 3 shows an external perspective view of the vicinity of the mouth portion 10. The mouth portion 10 has a cylindrical portion 11 and a base portion 12 connected to one end 11a of the cylindrical portion 11 in the axial direction. The structure of the mouth portion 10 can be easily understood by referring to FIGS. 7A and 7B. The cylindrical portion 11 is open at both ends in the axial direction, and the outer diameter and inner diameter of the cylindrical portion 11 are substantially constant along the axial direction. The base portion 12 is an annular portion, and is a member extending outward in the radial direction from the end portion 11a of the cylindrical portion 11 in the entire circumferential direction. That is, the base portion 12 has a flange shape with respect to the cylindrical portion 11.

Protruding portions 13 and 14 arranged in parallel in the axial direction are formed on the outer peripheral surface of the cylindrical portion 11. The protruding portion 13 is an annular portion extending radially outwardly from the base portion 12 in the entire circumferential direction of the cylindrical portion 11 at a predetermined distance in the axial direction. The projecting portion 14 is an annular portion extending radially outwardly from the projecting portion 13 on the side opposite to the base portion 12 at a predetermined interval along the axial direction over the entire circumferential direction of the cylindrical portion 11. The axial cross sections (cross sections) of the projecting portions 13 and 14 have substantially the same shape. The protruding portions 13 and 14 are both flange-shaped with respect to the cylindrical portion 11. As will be described later, in the space surrounded by the base portion 12 and the protruding portion 13, the mouth portion 55 of the outer box 3 is inserted when the inner bag 2 is set in the outer box 3, whereby the mouth portion 10 is inserted into the outer box 3. It is fixed in a state of protruding to the outside of.

Further, on the outer peripheral surface of the cylindrical portion 11, a screw thread 15 extending spirally is formed at a position opposite to the protruding portion 13 along the axial direction with respect to the protruding portion 14. The screw thread 15 is screwed with a screw thread 46 formed on the cap 40 described later.

The cylindrical portion 11, the base portion 12, the protruding portions 13, 14 and the screw thread 15 included in the mouth portion 10 are integrally formed. The material of the mouth portion 10 is not particularly limited as long as it can function as the mouth portion 10, but in the present embodiment, it is made of a hard synthetic resin. The bag body 20 is formed with an opening 20a having substantially the same shape as the outer diameter of the cross section of the projecting portions 13 and 14, and the cylindrical portion 11 projects from the inside of the bag body 20 with respect to the opening 20a. It is inserted so as to project outward together with the 14 and the thread 15. The outer diameter of the base 12 is larger than the outer diameter of the opening 20a, and at this time, the base 12 cannot pass through the opening 20a. Therefore, when the cylindrical portion 11 is inserted into the opening 20a, the base portion 12 comes into contact with the bag body 20 and stops. Further, in the present embodiment, the peripheral portion of the opening 20a in the bag main body 20 is heat-welded to the base portion 12. As a result, the bag main body 20 and the mouth portion 10 are firmly connected, and the main body portion (container main body) of the inner bag 2 is formed by both members. The outer diameter of the screw thread 15 is smaller than the outer diameter of the base portion 12 and the protruding portions 13 and 14. Therefore, the screw thread 15 does not prevent the cylindrical portion 11 from being inserted into the opening 20a.

The inner cylinder 30 shown in FIGS. 4 to 6 is inserted into the cylindrical portion 11. More specifically, the inner cylinder 30 has a tubular side wall 31, and the side wall 31 is inserted into the cylindrical portion 11. The inner cylinder 30 further has a wall member 32 extending in an oblique cross section with respect to the side wall 31 in the vicinity of the center in the axial direction of the side wall 31. That is, the wall member 32 intersects the central axis of the side wall 31 diagonally. The diameter of the side wall 31 of the present embodiment changes with the wall member 32 as a boundary. More specifically, the outer diameter of the portion 311 on the side wall 31 on the cylindrical portion 11 side of the wall member 32 (hereinafter referred to as the inner portion) is larger than the outer diameter of the portion on the opposite side (hereinafter referred to as the outer portion) 312. The same applies to the inner diameter. The outer diameter and inner diameter of the inner portion 311 are substantially constant along the axial direction. Further, the outer diameter and the inner diameter of the outer portion 312 are also substantially constant along the axial direction.

The internal space of the side wall 31 is separated into two spaces S21 and S22 in the axial direction by the wall member 32 extending in the side wall 31. The space S21 is the internal space of the inner portion 311 and the space S22 is the internal space of the outer portion 312. The inner portion 311 is axially open at the opposite end of the wall member 32. Similarly, the outer portion 312 is also axially open at the opposite end of the wall member 32.

The inner portion 311 is formed with a spout S3 that allows the internal space S21 to communicate with the outside. The spout S3 communicates with the inside of the bag body 20 via the internal space S21. Therefore, the contents contained in the internal space S1 of the inner bag 2 can be taken out through the spout S3. In the present embodiment, the downstream end of the spout S3 is defined by the wall member 32. The angle range θ (see FIG. 5) in which the spout S3 extends in the circumferential direction with respect to the central axis of the side wall 31 is preferably θ <180 °, more preferably θ <160 °, and θ <140. More preferably °. If the spout S3 is too large, the contents may pop out from the spout S3 in various directions, especially when the contents are gel-like beads. However, in the above numerical range, the contents vary. It becomes difficult to jump out in the direction. On the other hand, if the spout S3 is too small, the contents may be clogged. Therefore, 60 ° ≤ θ is preferable, 80 ° ≤ θ is more preferable, and 100 ° ≤ θ is further preferable. preferable. In this embodiment, θ = 120 °.

The side wall 31 can move forward and backward in the cylindrical portion 11 along the axial direction, whereby the spout S3 is opened and closed. The side wall 31 moves between the open position where the spout S3 is open (see FIG. 7A) and the closed position where the spout S3 is closed (see FIG. 7B) while sliding in the cylindrical portion 11. The open position is a position in which the side wall 31 is advanced so as to be pulled out from the internal space S1 via the cylindrical portion 11, and at the same position, the spout S3 reaches the outside of the cylindrical portion 11 along the axial direction, and the entire spout S3 reaches the outside of the cylindrical portion 11. Is exposed to the external space. The closed position is a position where the side wall 31 is retracted toward the internal space S1. At the same position, the spout S3 is surrounded by the side wall 31 or inserted into the bag body 20, and the entire side wall 31 is housed in the internal space S1. Will be done.

At the above-mentioned open position, the contents can be taken out through the spout S3. When the contents are taken out, the contents travel in the internal space S21 of the inner cylinder 30 along the axial direction (hereinafter referred to as the course direction) B1 of the inner portion 311 and collide with the wall member 32 to change the direction. It falls downward from exit S3. In the present embodiment, the wall member 32 is inclined in the direction from the inside of the spout S3 (upper side in the state of FIG. 7A) toward the spout S3 along the course direction B1. When the inclination angle of the wall member 32 with respect to the course direction B1 is α (see FIG. 4), 30 ° ≦ α ≦ 60 ° is preferable, and 40 ° ≦ α ≦ 50 ° is more preferable. In the form, α = 45 °. In particular, when the content is a gel-like bead, in the above numerical range, the content flows out from the spout S3 in the direction of the arrow shown by the solid line in FIG. 7A, that is, in the radial direction of the inner cylinder 30. As a result, the contents are prevented from popping out from the spout S3 in the direction shown by the arrow shown by the broken line in FIG. 7A, and the contents are less likely to spill.

The diameter of the passage of the contents in the internal space S21 changes due to the presence of the wall member 32 in the vicinity of the spout S3. When the content is granular such as beads, it is preferably 1.0 <r / R, where r is the minimum diameter of the passage of the content and R is the maximum diameter of the content. The maximum diameter R of the contents is the maximum value in the variations when the sizes of the contents vary. In the present embodiment, the maximum value of the diameter of the spherical beads that are the contents is R. Further, in the present embodiment, the minimum diameter r of the passage of the contents is the length of the perpendicular line drawn from the center C of the edge defining the upstream end of the spout S3 in the inner portion 311 to the wall member 32. Is. According to the above numerical range of r / R, clogging of the contents in the internal space S21 is suppressed. Further, it is preferable that r / R ≦ 2.0. In this numerical range, a large amount of beads are suppressed from flowing out, and the contents are less likely to spill.

As shown in FIGS. 4 to 6, protrusions 35 and 36 protruding outward in the radial direction are formed on the outer surface of the inner portion 311 of the side wall 31. The protrusions 35 and 36 serve as stoppers for preventing the side wall 31 from falling off from the cylindrical portion 11 of the mouth portion 10. The protrusions 35 and 36 are arranged at the inner end of the inner portion 311 at a predetermined interval in the circumferential direction (in the present embodiment, at an interval of 180 °). The outer diameter of the inner portion 311 of the inner cylinder 30 is smaller than the inner diameter of the cylindrical portion 11 of the mouth portion 10, and the outer diameter of the inner cylinder 30 at the positions of the protrusions 35 and 36 is larger than the inner diameter of the cylindrical portion 11. big. Therefore, when an external force is applied so that the side wall 31 is pulled out from the internal space S1 via the mouth portion 10, the side wall 31 stops moving when the protrusions 35 and 36 come into contact with the base portion 12 of the mouth portion 10 to prevent the side wall 31 from falling off. Will be done.

Further, the inner portion 311 is formed with slit-shaped notches 37 and 38 extending from the inner end thereof along the course direction B1. The notches 37 and 38 are arranged at predetermined intervals in the circumferential direction (in the present embodiment, at intervals of 180 °). Further, the cuts 37 and 38 are arranged at predetermined intervals (in the present embodiment, 90 ° intervals) from the protrusions 35 and 36 in the circumferential direction. The cuts 37 and 38 allow the inner portion 311 to bend into a flat shape so that its cross section (axial cross section) is reduced in diameter in the direction connecting the protrusions 35 and 36. As a result, the inner cylinder 30 can be easily inserted into the cylindrical portion 11 of the mouth portion 10 from the inner end side thereof. In order to obtain such an effect, it is preferable that the line connecting the centers of the protrusions 35 and 36 in the circumferential direction and the line connecting the centers of the notches 37 and 38 in the circumferential direction intersect, and are substantially orthogonal to each other. Is more preferable.

The side wall 31, the wall member 32, the protrusions 35 and 36, and the protrusion 39a (described later) included in the inner cylinder 30 are integrally formed. The material of the inner cylinder 30 is not particularly limited as long as it can function as the inner cylinder 30, but in the present embodiment, it is made of a hard synthetic resin.

As shown in FIGS. 7A and 7B, the cap 40 shown in FIGS. 8 to 10 is connected to the outer end of the inner cylinder 30. 8 is a side view of the cap 40, FIG. 9 is a perspective view of the cap 40 viewed from the outside, and FIG. 10 is a perspective view of the cap 40 viewed from the inside. 8 to 10 show external views of the cap 40 alone, but as shown in FIGS. 7A and 7B, the cap 40 is finally fixed to the inner cylinder 30 and assembled as one part. ..

The cap 40 includes a cylindrical side wall 41, an upper surface portion 42 that closes the opening at the outer end of the side wall 41, and a cylindrical inner ring portion 43 that hangs down from the upper surface portion 42 in the side wall 41. The inner ring portion 43 is arranged coaxially with the side wall 41 and has a smaller diameter than the side wall 41. Further, the diameter of the inner ring portion 43 is substantially equal to the diameter of the outer portion 312 of the inner cylinder 30, and one of the inner ring portion 43 and the outer portion 312 is inserted into the other and fitted. Further, in order to prevent the cap 40 from falling off from the inner cylinder 30, protrusions and corresponding holes are formed on the facing surfaces of the inner ring portion 43 and the outer portion 312 in the inserted state. In the present embodiment, since the outer portion 312 is inserted into the inner ring portion 43, protrusions 39a and holes 39b are formed on the outer peripheral surface of the outer portion 312, and the protrusions 39a are formed on the inner peripheral surface of the inner ring portion 43. A hole 45a corresponding to the hole 45a and a protrusion 45b corresponding to the hole 39b are formed.

A thread 46 corresponding to the thread 15 of the mouth portion 10 is formed on the inner peripheral surface of the side wall 41. Therefore, when the inner cylinder 30 is pushed axially into the deep part of the internal space S1 through the mouth portion 10, the screw thread 15 and the screw thread 46 come into contact with each other and cannot be pushed further. Then, in this state, when the cap 40 is rotated together with the inner cylinder 30 around its central axis, the screw thread 15 and the screw thread 46 are screwed, and the cap 40 is fixed to the mouth portion 10. At this time, the inner cylinder 30 is housed in the internal space S1 formed by the mouth portion 10 and the bag body 20, and is further covered by the cap 40, so that the inner cylinder 30 is confined in the space S1. As a result, the inner cylinder 30 is locked to the closed position described above. Further, when the operation opposite to the above operation is performed, the coupling state of the screw thread 15 and the screw thread 46 is released, and the inner cylinder 30 is pulled out from the mouth portion 10 to be in the open state. As is clear from the above configuration, the cap 40 is removable from the mouth portion 10.

The outer diameter of the inner portion 311 of the inner cylinder 30 is slightly smaller than the inner diameter of the cylindrical portion 11 of the mouth portion 10, so that the inner portion 311 can easily rotate in the cylindrical portion 11. Therefore, when the inner cylinder 30 is pulled out to the open position as described above, the spout S3 does not always face downward. Therefore, the outer surface of the upper surface portion 42 is marked with a mark indicating the position of the spout S3, and in the present embodiment, the pattern of the arrow as shown in FIG. 9 is formed. The operator can set the spout S3 so that it easily points downward by pulling out the cap 40 and the inner cylinder 30 while adjusting so that the arrow points downward.

The side wall 41, the upper surface portion 42, the inner ring portion 43, the protrusion 45b, and the screw thread 46 included in the cap 40 are integrally formed. The material of the cap 40 is not particularly limited as long as it can function as the cap 40, but in the present embodiment, it is made of a hard synthetic resin.

The mouth portion 10, the inner cylinder 30, and the cap 40 constitute a structure D that forms an outlet for taking out the contents from the inner bag 2.

<2-3. Outer box ＞
Next, the structure of the outer box 3 will be described. The material of the outer box 3 is not particularly limited, but the outer box 3 of the present embodiment is made of paper, more specifically, corrugated cardboard. As shown in FIG. 2, the outer box 3 is formed in a rectangular parallelepiped shape. When assembling the bag-in-box 1, the inner bag 2 with the mouth 10 closed by the cap 40 is housed inside the outer box 3, and then the opening containing the inner bag 2 is taped or the like. Pack. In the used state, the mouth portion 10 is set so as to protrude from the outer box 30, but at the time of packing, the inner bag 2 is completely housed in the outer box 3 for transportation and transportation. As shown in FIG. 11, an opening 51 is formed in one side surface portion 50 of the outer box 3. When the inner bag 2 is packed in the outer box 3, the structure D serving as an outlet for the contents is arranged in the outer box 3 so as to face the opening 51.

The opening 51 is formed by making a notch in the side surface portion 50. More specifically, the opening 51 includes window portions 52a and 52b that can be opened like a double-sided window, and a circular portion 53 that is arranged below the mating surface of these window portions 52a and 52b. When the bag-in-box 1 is used, the circular portion 53 is removed along the notch. Further, the window portions 52a and 52b are separated along the notch, and both window portions 52a and 52b are opened. As a result, the opening formed by removing the circular portion 53 and the larger opening formed by opening the window portions 52a and 52b are connected. Then, the structure D is pulled out from the inside of the outer box 3 through the openings corresponding to the window portions 52a and 52b, and is hooked and fixed to the openings corresponding to the circular portions 53. More specifically, the portion of the side surface portion 50 that surrounds the circular portion 53 (referred to as the mouth portion 55) is inserted into the space surrounded by the base portion 12 and the protruding portion 13 of the mouth portion 10 described above. After that, the bag-in-box 1 can be started to be used by closing the windows 52a and 52b.

<3. Features>
As described above, the outlet structure D according to the above embodiment has a simple structure of a drawer type, but the cap 40 realizes a high degree of airtightness. In the case of a cock type outlet as in Patent Documents 1 and 2, since the airtightness is generally not perfect, before the start of use of the container, a cap of a part different from the parts constituting the cock is used. It is necessary to keep the mouth on the container side sealed. Then, at the time of use, the cap must be removed and replaced with the parts constituting the cock. On the other hand, according to the structure D of the above embodiment, such a problem does not exist and the number of parts is reduced.

Further, the structure D of the above embodiment can be used for a container for accommodating various contents, and is particularly suitable for use for a container for accommodating solid substances. Cock-type outlets such as those in Patent Documents 1 and 2 are often good for accommodating liquids, but can cause problems when accommodating solids. First, since it is necessary to make the outlet a certain size or larger in order to eject the solid matter, the structure of the cock-type outlet for the solid matter becomes large. Secondly, the airtightness of the cock-type outlet is more likely to be impaired as the structure of the outlet becomes larger. In this respect, the non-cock type container according to the first aspect does not cause the above problems when the solid matter is contained as in the second aspect, and is particularly suitable for the use of accommodating the solid matter.

<4. Modification example>
Although one embodiment of the present invention has been described above, 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 following changes can be made. In addition, the gist of the following modified examples can be combined as appropriate.

<4-1>
The inner cylinder 30 and the cap 40 may be integrally molded instead of being molded as separate bodies and then connected.

<4-2>
The method of fixing the cap 40 and the mouth portion 10 is not limited to the above-mentioned screw-screw method. For example, one of the cap 40 and the mouth 10 may be provided with a claw, and the other may be provided with a claw holder on which the claw is hooked.

<4-3>
By providing a slider extending in the axial direction on one of the inner peripheral surface of the cylindrical portion 11 of the mouth portion 10 and the outer peripheral surface of the side wall 31 of the inner cylinder 30, and providing a slide groove on the other, the spout S3 is always provided. Can also be configured to face downwards.

1 Bag-in-box 2 Inner bag (container)
3 Outer box (outer container)
20 bag body (container)
10 mouth 20 bag body (container)
30 Inner cylinder 31 Side wall 35, 36 Stopper protrusion 37, 38 Notch 40 Cap D Structure forming outlet S1 Internal space S3 Injection outlet

Claims (12)

The container body with the mouth and
An inner cylinder having a tubular side wall inserted into the mouth portion, and the side wall is formed with a spout for taking out the contents contained in the internal space of the container body. The side wall is advanced so as to be pulled out from the internal space through the mouth portion, the open position where the spout is exposed, the side wall is retracted toward the internal space side, and the spout is in the internal space. An inner cylinder that is configured to be movable between the housed closed position and
A cap that is connected to the inner cylinder , is rotatable with respect to the mouth portion, and is detachably fixed to the mouth portion, and when fixed to the mouth portion, the inner cylinder is placed in the closed position. lock, Bei example and a cap covering to confine said inner cylinder within said interior space,
A container in which the mouth and the cap are screwed together when the inner cylinder is in the closed position. The contents include solids,
The container according to claim 1. The contents are granular and
When the minimum diameter of the passage of the contents of the inner cylinder is r and the maximum diameter of the contents is R, 1.0 <r / R ≦ 2.0.
The container according to claim 2. The spout extends in a circumferential direction of less than 180 ° with respect to the central axis of the side wall.
The container according to any one of claims 1 to 3. The inner cylinder further has a wall member that passes near the downstream end of the spout in the side wall and extends in an oblique cross section.
The wall member is inclined from the inside of the spout toward the spout along the path direction of the contents in the side wall.
The container according to any one of claims 1 to 4. The wall member has an inclination angle of 30 ° to 60 ° with respect to the course direction.
The container according to claim 5. The inner cylinder is connected to the side wall, and when an external force is applied so that the side wall is pulled out from the internal space through the mouth portion, the inner cylinder is attached to the mouth portion so as not to fall off from the mouth portion. It also has a stopper that touches and stops,
The container according to any one of claims 1 to 6. The stopper includes a protrusion that protrudes radially outward from the side wall.
The side wall is formed with a notch extending along the course direction from the inner end of the side wall along the course direction of the contents.
The container according to claim 7. A protrusion formed on one of the inner cylinder and the cap,
Further having a hole formed in the other of the inner cylinder and the cap and into which the protrusion formed in one of the inner cylinder and the cap is inserted.
The container according to any one of claims 1 to 8. The cap has a mark indicating the position of the spout.
The container according to any one of claims 1 to 9. The container according to any one of claims 1 to 10 and
A box-shaped outer container for accommodating the container is provided.
The container body has a bag shape.
Bag-in-box. A structure that forms an outlet for taking out the contents from the container.
The mouth attached to the container and
An inner cylinder having a tubular side wall to be inserted into the mouth portion, and the side wall is formed with a spout for taking out the contents contained in the container, and the side wall is the said. It advances so as to be pulled out from the container and the internal space formed by the mouth portion through the mouth portion, the open position where the spout is exposed and the side wall retracts toward the internal space side, and the spout is retracted. An inner cylinder configured to be movable between a closed position housed in the internal space and
A cap that is connected to the inner cylinder , is rotatable with respect to the mouth portion, and is detachably fixed to the mouth portion, and when fixed to the mouth portion, the inner cylinder is placed in the closed position. lock, Bei example and a cap covering to confine said inner cylinder within said interior space,
A structure in which the mouth portion and the cap are screwed together when the inner cylinder is in the closed position.

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