JP2014129122A - Liquid container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a liquid container capable of reducing the remaining liquid amount.SOLUTION: The liquid container 1 includes a bag body 3 for enclosing a liquid, and a container body 5 which houses the bag body 3 and has flexibility. The bag body 3 includes: a bag part 7 in which a pair of film parts 10, 11 facing each other are sealed along the outer edge, and has a pair of sides 7a, 7b and a bottom side 7c connected with the pair of sides 7a, 7b; and a discharge part 9 which is arranged at a position opposite to the bottom side 7c of the bag part 7, and has a nonreturn valve allowing the liquid to flow out from an inner part of the bag part 7 to the outside and regulating the liquid from flowing in the inner part from the outside. The container body 5 includes a lid part 27 in which the discharge part 9 is air-tightly mounted and the bag part 7 is sealed to the container body 5, and an air suction valve 36 allowing an air to flow in from the outside of the container body 5 to the inside and regulating the air from flowing out from the inner part to the outside. In the bag part 7, a belt-like sealing part 13 is arranged in the pair of sides 7a, 7b and in the bottom side 7c.

Description

  The present invention relates to a pneumatic liquid container.

  Conventionally, what was described in patent document 1, for example is known as this kind of container. The container described in Patent Document 1 includes a container body, a bag body accommodated in the container body, and an upper lid with a nozzle-type spout attached to the opening of the container body, and is provided at the base of the spout of the upper lid. A discharge valve is provided, a mounting portion for hooking the opening of the bag body is formed at the lower portion of the discharge valve, and a suction valve is provided at the bottom of the container body. In this container, the bag body in the container body is pressed by the pressure of the air sucked from the suction valve, and the liquid is discharged from the bag body.

Utility Model Registration No. 3094429

  In the conventional container, when the amount of liquid in the bag body is reduced, a region where a liquid pool may be formed when the bag body is crushed by atmospheric pressure may be formed in the bag body. Thereby, in the conventional container, there exists a possibility that a liquid may remain in a bag. Thus, in the conventional container, the residual of the liquid resulting from the collapse of the bag body has not been studied, and there is room for further improvement with respect to reducing the remaining amount of the liquid.

  An object of this invention is to provide the liquid container which can reduce the amount of residual liquids.

  A liquid container according to the present invention includes a bag body that encloses a liquid, and a flexible container body that accommodates the bag body, and the bag body is sealed with a pair of opposing film surfaces along an outer edge. A bag portion having a pair of sides and a bottom connected to the pair of sides, and provided on the opposite side of the bottom of the bag portion, the liquid flows out from the inside of the bag portion to the outside. And a discharge part provided with a check valve that restricts the inflow of liquid from the outside to the inside, and the container body is hermetically mounted and the bag part is sealed to the container body And a gas suction valve that allows gas to flow from the outside to the inside of the container body and restricts gas from flowing to the outside, and the bag portion includes a pair of side edges. A band-shaped sealing portion is provided on the bottom side.

  In this liquid container, when the container body is pressed when the liquid is discharged, the gas suction valve regulates the outflow of gas from the container body to the outside, and the bag part is pressed by the atmospheric pressure to discharge the liquid from the discharge port. Is done. In this liquid container, a band-shaped sealing portion is provided on a pair of side and bottom sides. Thereby, in a liquid container, if a bag part is pressed by gas within a container body, it will be crushed in the direction which a pair of film surface of a bag part approaches. Therefore, in a liquid container, it can suppress that the area | region where a liquid pool may arise is formed. As a result, the remaining liquid amount can be reduced in the liquid container.

  In one Embodiment, the bag body may be provided in the container body so that attachment or detachment is possible. With such a configuration, in the liquid container, when the liquid in the bag runs out, only the bag can be replaced with a cartridge type.

  In one embodiment, the bag portion may be provided with an inducing portion for constricting both sides on the bottom side of the bag portion inward when the bag is filled with liquid. With this configuration, in the liquid container, the constriction is formed on both sides of the bag portion, so that when the bag body is accommodated in the container body, both ends on the bottom side are opposite to the direction in which the constriction is the starting point. Folded. Thereby, in a liquid container, a bag can be smoothly accommodated in a container.

  In one embodiment, the inducement part may be formed by joining a pair of film surfaces and projecting inward from the sealing part provided on each of the pair of sides. With this configuration, in the liquid container, the constriction of the bag portion can be satisfactorily formed.

  According to the present invention, the amount of residual liquid can be reduced.

It is a figure which shows the liquid container which concerns on 1st Embodiment. It is a figure which shows the cross-sectional structure of the liquid container shown in FIG. It is a figure which shows the cross-sectional structure of a bag. It is a figure which shows the cross-sectional structure of a container body. It is a figure which shows the bag body with which the liquid was enclosed. It is a figure which shows a state when accommodating a bag body in a container body. It is a figure which shows the cross-sectional structure of the liquid container which concerns on 2nd Embodiment.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description of the drawings, the same or equivalent elements will be denoted by the same reference numerals, and redundant description will be omitted.

[First Embodiment]
FIG. 1 is a diagram illustrating a liquid container according to the first embodiment. FIG. 2 is a diagram showing a cross-sectional configuration of the liquid container shown in FIG. The liquid container 1 shown in each drawing is a pneumatic container that contains a liquid (including a viscous liquid). In the following description, the vertical direction indicates the vertical direction (the height direction of the liquid container 1) in FIGS.

  As shown in FIG. 2, the liquid container 1 includes a bag body 3, a container body 5, and a cap portion 6. FIG. 3 is a diagram showing a cross-sectional configuration of the bag. The bag body 3 encloses a liquid. As shown in FIG. 3, the bag body 3 includes a bag portion 7 and a discharge portion 9.

  The bag part 7 is a part filled with liquid. The bag part 7 has a pair of film parts (film surfaces) 10 and 11, a seal part (sealing part) 13, and inducement parts 15 and 16. The bag portion 7 has a substantially rectangular shape in a plan view, and has a pair of side sides 7a and 7b, a bottom side 7c connected to the pair of side sides 7a and 7b, and an upper side 7d. In the bag portion 7, a space filled with a liquid is defined by the pair of film portions 10 and 11 and the seal portion 13.

  The film parts 10 and 11 form the trunk part of the bag part 7 and are arranged facing each other. Although the film parts 10 and 11 may be a single layer, it is preferable that the film parts 10 and 11 are composed of a plurality of layers. When the film is composed of multiple layers, for example, it is composed of a base material layer that forms an outer layer when processed into a bag shape, a sealant layer that forms an inner layer, and an adhesive layer that bonds the base material layer and the sealant layer Is done. Or, bonding the base material layer forming the outer layer, the sealant layer forming the inner layer, the base material layer forming the intermediate layer between the outer layer and the inner layer, and the base material layer forming the outer layer and the base material layer forming the intermediate layer. The adhesive layer is composed of an adhesive layer, a base material layer that forms an intermediate layer, and a sealant layer that forms an inner layer.

  The base material layer forming the outer layer and the base material layer forming the intermediate layer are layers for maintaining a certain strength so as not to cause an unexpected bag breakage after the packaging material is filled. As a film constituting the base material layer, a stretched film made of polypropylene (hereinafter referred to as PP), a biaxially stretched film of polyamide such as nylon 6, nylon 66, MXD6 (polymetaxylylene adipamide), polyethylene terephthalate (hereinafter referred to as “film”). PET), biaxially stretched films of polyester resins such as polybutylene terephthalate, etc. are preferably used. In addition, films such as saponified ethylene / vinyl acetate copolymer (EVOH), polyvinylidene chloride (PVDC), polyacrylonitrile (PAN), aluminum foil, silica, alumina, aluminum, etc. Gas barrier films such as biaxially stretched nylon film (ON film), biaxially stretched polyethylene terephthalate film (PET film), and biaxially stretched polypropylene film (OPP film) provided with a vapor deposition layer and a PVDC coating layer are also used. Also good.

  The thickness of the base material layer forming the outer layer and the base material layer forming the intermediate layer is preferably 5 μm to 100 μm, and more preferably 5 μm to 70 μm. Each of the above films that can be used for the base material layer can be produced according to a conventional method, and is not particularly limited.

  A known dry lamination method or extrusion lamination method (sandwich lamination method) can be used for laminating the base material layer forming the outer layer and the base material layer forming the intermediate layer.

  The sealant layer forming the inner layer is a layer for enabling thermal bonding between the sealants or forming a bag-like film on a spout for bag formation. In addition to low-density polyethylene (LDPE) and linear low-density polyethylene (L / LDPE), this sealant layer includes ethylene / α-olefin copolymers, ethylene / vinyl acetate copolymers, and ethylene / acrylic acid copolymers. , Ethylene / acrylic acid ester copolymer, polypropylene or a copolymer thereof can be used.

  The thickness of the sealant layer is preferably 30 μm or more and 150 μm or less, and more preferably 50 μm or more and 130 μm or less.

  For the lamination of the sealant layer, the above resin can be formed into a film and laminated by a dry lamination method or an extrusion lamination method, or the above resin can be extruded and laminated.

  The film part 10 and the film part 11 are substantially rectangular and have the same shape. The width dimension W of the film parts 10 and 11 (bag part 7) is about 60-140 mm, for example.

  The bag portion 7 may be formed by overlapping two films or may be formed by folding a single film.

  The seal portion 13 is a portion that seals the pair of film portions 10 and 11. The seal portion 13 is provided in a strip shape on the entire outer periphery of the film portions 10 and 11 except for a portion where a discharge portion 9 described later is provided. The seal part 13 is formed, for example, by thermally bonding (welding) the film part 10 and the film part 11. The seal portion 13 includes a first seal portion 13a, a second seal portion 13b, a third seal portion 13c, and a fourth seal portion 13d.

  The 1st seal | sticker part 13a is provided in the edge part by the side 7a side of the film parts 10 and 11 along the side 7a. The first seal portion 13a extends continuously from the bottom side 7c to the upper side 7d. The width dimension d of the first seal portion 13a is set such that the relationship d / W with the width dimension W of the film portions 10 and 11 (bag portion 7) is, for example, 4 to 40%, preferably 4 to It is set to be 25%.

  The second seal portion 13b is provided along the side edge 7b at the edge of the film portions 10 and 11 on the side edge 7b side. The second seal portion 13b extends continuously from the bottom side 7c of the film portions 10 and 11 to the upper side 7d. The width dimension of the second seal portion 13b is substantially equal to the width dimension d of the first seal portion 13a. The first seal portion 13a and the second seal portion 13b are substantially parallel.

  The third seal portion 13c is provided at the edge of the film portions 10 and 11 on the bottom 7c side along the bottom 7c. The third seal portion 13c extends continuously from the side edge 7a to the side edge 7b of the film portions 10 and 11, and is provided integrally with the lower ends of the first and second seal portions 13a and 13b. ing. The width dimension of the third seal portion 13c is preferably 3 mm or more and 20 mm or less, and more preferably 4 mm or more and 15 mm or less.

  The fourth seal portion 13d is provided at the edge portion on the upper side 7d side of the film portions 10 and 11 along the width direction. The fourth seal portion 13d is formed with the discharge portion 9 interposed therebetween. That is, the discharge part 9 is provided on the opposite side of the bottom 7 c in the bag part 7. The fourth seal portion 13d is provided integrally with the upper end portions of the first and second seal portions 13a and 13b.

  The inducing portions 15 and 16 are portions that induce the constricted portion C (see FIG. 5) in the bag portion 7 filled with the liquid. The inducing portion 15 is provided closer to the bottom side 7 c at the edge (side portion) on the side 7 a side of the bag portion 7. The inducement part 15 is formed by joining the film parts 10 and 11 by heat welding, for example. The inducing portion 15 has a substantially chevron shape (convex shape) and protrudes inward in the width direction of the bag portion 7 from the first seal portion 13a. The position of the inducing part 15 is a position where the relationship T / W between the interval T between the top of the inducing part 15 and the bottom 7c of the bag part 7 and the width dimension W of the bag part 7 is 10 to 40%, preferably 15 A position of ˜30% is preferred.

  The inducing portion 16 is provided near the bottom side 7 c at the edge of the bag portion 7 on the side 7 b side. The inducing portion 16 protrudes in a convex shape from the second seal portion 13b to the inside of the bag portion 7 in the width direction. The inducing part 16 is arranged to face the inducing part 15. That is, the height position of the inducing portion 16 is a position that is 10 to 40% of the width dimension W of the bag portion 7.

  FIG. 5 is a view showing a bag body in which a liquid is enclosed. As shown in FIG. 5, when the bag body 3 is lifted in a state in which the bag body 3 is filled with liquid, both side portions of the bag portion 7 are bent inward (waist folded) from the trigger portions 15 and 16 due to water pressure. ) Thereby, the constricted part C is formed in the part enclosed by the broken line in FIG.

  Returning to FIG. 3, the discharge part 9 is a part for discharging the liquid in the bag part 7. The discharge part 9 is arrange | positioned in the bag part 7 in the approximate center part of the edge part by the side of the upper side 7d. The base of the discharge part 9 is thermally welded to the film parts 10 and 11 and is provided integrally with the bag part 7. The discharge part 9 has a cylindrical shape and communicates with the inside of the bag part 7 of the bag body 3. A discharge port 18 is provided at the tip of the discharge unit 9.

  The discharge part 9 is provided with a check valve 20 that allows the liquid to flow out from the inside of the bag part 7 to the outside and restricts the inflow of liquid from the outside to the inside. The check valve 20 is disposed on the distal end side of the discharge unit 9. A screw part 21 is formed on the outer peripheral surface of the discharge part 9. The screw portion 21 is screwed with a screw portion 37 of a nozzle portion 34 of the lid portion 27 described later.

  FIG. 4 is a diagram showing a cross-sectional configuration of the container body. The container body 5 accommodates the bag body 3. As shown in FIG. 4, the container body 5 includes a main body portion 25 and a lid portion (mounting portion) 27. The main body 25 includes, for example, soft polyvinyl chloride, polyurethane, ethylene-vinyl acetate copolymer, polyolefin such as polyethylene and polypropylene, hydrogenated product of styrene-butadiene-styrene copolymer, styrene-isoprene-styrene copolymer. Or it is formed from materials, such as thermoplastic elastomers, such as the hydrogenated material, and the mixture of thermoplastic elastomers and softeners, such as polyolefin and ethylene-ethyl acrylate, and has flexibility. The main body 25 includes a cylindrical side wall 25a and a bottom 25b provided at the lower end of the side wall 25a. In the main body 25, an accommodation space for accommodating the bag body 3 is formed by the side wall 25a and the bottom 25b.

  The inner diameter dimension D of the side wall part 25a is, for example, about 40 to 80 mm. The inner diameter dimension D of the side wall part 25a is smaller than the width dimension W of the bag part 7 of the bag body 3 and the width dimension of the bag part 7 filled with liquid. The side wall portion 25a has an equivalent inner diameter dimension D in the vertical direction. An opening 30 is provided at the upper end of the side wall 25a. A threaded portion 31 is formed on the outer peripheral surface of the opening 30 of the side wall portion 25a.

  The lid portion 27 seals the bag portion 7 of the bag body 3 in cooperation with the main body portion 25. The lid portion 27 is airtightly attached to the discharge portion 9 and seals the bag portion 7 to the container body 5. The lid part 27 has a lid body 32 and a nozzle part 34. The lid main body 32 closes the opening 30 of the main body 25 of the container body 5. A screw portion 33 is provided on the inner peripheral surface of the lid main body 32. The screw portion 33 is screwed with the screw portion 31 of the main body portion 25. Thereby, the lid portion 27 is screwed to the main body portion 25.

  A screw portion 35 is provided on the outer peripheral surface of the lid body 32. The screw part 35 is screwed with a screw part 40 of the cap part 6 described later.

  The lid body 32 has a gas intake valve 36. The gas intake valve 36 allows gas to flow from the outside to the inside of the container body 5 and regulates gas flow from the inside to the outside. The gas intake valve 36 is disposed on the upper surface portion 32 a of the lid body 32. Only one gas intake valve 36 may be provided on the lid 27, or a plurality of gas intake valves 36 may be provided.

  The nozzle portion 34 is located in the center of the lid body 32 and is provided so as to protrude from the lid body 32. The nozzle part 34 has a cylindrical shape, and the discharge part 9 is attached to the nozzle part 34. A threaded portion 37 is provided on the inner peripheral surface of the nozzle portion 34. The screw part 37 is screwed with the screw part 21 of the discharge part 9. Thereby, the bag body 3 is screwed to the lid portion 27.

  The cap part 6 covers the lid part 27. A screw part 40 is provided on the inner peripheral surface of the cap part 6. The screw portion 40 is screwed with the screw portion 35 of the lid main body 32. Thereby, the cap part 6 is screwed to the lid part 27.

  Then, the assembly method of the liquid container 1 is demonstrated. First, a bag 3 filled with a liquid is prepared. At this time, as shown in FIG. 5, a cap P is attached to the discharge portion 9 of the bag body 3. Next, the cap P of the bag body 3 is removed, and the lid portion 27 of the container body 5 is attached to the discharge portion 9. Specifically, the discharge part 9 and the nozzle part 34 of the cover part 27 are screwed together.

  Subsequently, the bag portion 7 of the bag body 3 is accommodated in the main body portion 25 of the container body 5. At this time, as shown in FIG. 6, the corner portion on the bottom side 7c side of the bag portion 7 is formed by the constricted portion C on the side sides 7a and 7b side of the bag portion 7 by the inducing portions 15 and 16. It is folded to the opposite side of the accommodating direction and is accommodated along the inner surface of the side wall portion 25a. Finally, the lid portion 27 is screwed to the main body portion 25, and the cap portion 6 is screwed to the lid portion 27. As described above, the liquid container 1 is assembled.

  As described above, in the liquid container 1 of the present embodiment, the belt-shaped first to third seal portions 13a to 13c are provided on the side surfaces 7a and 7b and the bottom side 7c of the bag portion 7 of the bag body 3. Thereby, in the liquid container 1, when the bag part 7 of the bag body 3 is pressed by the atmospheric pressure within the container body 5, the pair of film parts 10 and 11 of the bag part 7 are crushed in a direction approaching. Therefore, in the liquid container 1, it can suppress that the area | region where a liquid pool may arise is formed. As a result, the liquid container 1 can reduce the amount of remaining liquid.

  In the liquid container 1 of the present embodiment, the inducing portions 15 and 16 are provided in the bag portion 7. Thereby, in the liquid container 1, when the bag portion 7 is filled with liquid, the constricted portions C are formed on both sides of the bag portion 7. Therefore, in the liquid container 1, when the bag body 3 is accommodated in the container body 5, both end portions on the bottom side 7 c side of the bag portion 7 are folded to the opposite side from the direction in which the constricted portion C is accommodated. Thereby, in the liquid container 1, the bag body 3 can be smoothly accommodated in the container body 5.

  In the liquid container 1 of the present embodiment, when the ratio of (the volume of the bag portion 7 in which the bag portion 7 is fully filled / the volume of the container body 5) × 100 = 30 to 70% is satisfied, the inducing portions 15 and 16 are formed. The above-described action of the constricted portion C is particularly effective.

  Further, in the liquid container 1, when the bag portion 7 of the bag body 3 is accommodated in the main body portion 25 of the container body 5, both end portions on the bottom side 7 c side of the bag portion 7 are folded and the side wall portion 25 a of the main body portion 25 is folded. Housed along the inner surface. Thereby, in the liquid container 1, since the area | region of the both ends by the side of the base 7c of the bag part 7 becomes narrow, it can suppress that a liquid remains in both ends.

  Moreover, in the liquid container 1 of this embodiment, the bag body 3 is provided in the container body 5 so that attachment or detachment is possible. Thus, in the liquid container 1, only the bag body 3 can be replaced after the liquid in the bag body 3 is completely discharged.

[Second Embodiment]
Next, the second embodiment will be described. In the second embodiment, the bag body can be assembled to the container body without removing the cap of the bag body as in the first embodiment. FIG. 7 is a diagram illustrating a cross-sectional configuration of the liquid container according to the second embodiment. As shown in FIG. 7, the liquid container 50 includes a bag body 52, a container body 54, and a cap portion 56.

  The bag body 52 includes a bag portion 7 and a discharge portion 58. The bag part 7 has the same configuration as the bag part 7 of the bag body 3 of the first embodiment. The discharge part 58 is arrange | positioned in the approximate center part of the edge part by the side of the upper side 7d. The discharge part 58 includes a nozzle part 60 and a base end part 62.

  The nozzle part 60 has a cylindrical shape. A discharge port 64 is provided at the tip of the nozzle unit 60. The nozzle portion 60 is provided with a check valve 66 that allows the liquid to flow from the inside to the outside of the bag portion 7 and restricts the inflow of the liquid from the outside to the inside. The check valve 66 is disposed on the tip side of the nozzle portion 60. A screw portion 68 is formed on the outer peripheral surface of the nozzle portion 60. The screw portion 68 is screwed with a screw portion 88 of the cap portion 56 described later.

  The base end portion 62 has a cylindrical shape and is provided on the base side of the nozzle portion 60. The outer diameter of the base end portion 62 is larger than the outer diameter of the nozzle portion 60. A threaded portion 68 is formed on the outer peripheral surface of the base end portion 62. The screw portion 68 is screwed with the screw portion 86 of the nozzle portion 82 of the lid portion 72.

  The container body 54 includes a main body portion 70 and a lid portion (mounting portion) 72. The main body 70 includes, for example, soft polyvinyl chloride, polyurethane, ethylene-vinyl acetate copolymer, polyolefin such as polyethylene and polypropylene, hydrogenated product of styrene-butadiene-styrene copolymer, and styrene-isoprene-styrene copolymer. Or it is formed from materials, such as thermoplastic elastomers, such as the hydrogenated material, and the mixture of thermoplastic elastomers and softeners, such as polyolefin and ethylene-ethyl acrylate, and has flexibility. The main body 70 is composed of a cylindrical side wall 70a and a bottom 70b provided at the lower end of the side wall 70a. In the main body 70, an accommodation space for accommodating the bag body 52 is formed by the side wall 70a and the bottom 70b.

  The side wall part 70a has a tapered shape in which the inner diameter (outer diameter) increases from the lower part toward the upper part. An opening 74 is provided at the upper end of the side wall 70a. A screw portion 76 is formed on the outer peripheral surface of the opening 74 of the side wall 70a. The screw portion 76 is screwed with the screw portion 84 of the lid portion 72.

  The bottom 70 b has a gas intake valve 78. The gas intake valve 78 allows gas to flow from the outside to the inside of the container body 54 and regulates gas flow from the inside to the outside. The gas intake valve 78 is disposed at a substantially central portion of the bottom portion 70b. Only one gas intake valve 78 may be provided on the bottom 70b, or a plurality of gas intake valves 78 may be provided.

  The lid portion 72 seals the bag portion 7 of the bag body 52 in cooperation with the main body portion 70. The lid portion 72 is airtightly attached to the discharge portion 58 and seals the bag portion 7 to the container body 54. The lid part 72 includes a lid body 80 and a nozzle part 82. The lid main body 80 closes the opening 74 of the main body 70 of the container body 54. A screw portion 84 is provided on the inner peripheral surface of the lid main body 80. The screw portion 84 is screwed with the screw portion 76 of the main body portion 70. As a result, the lid portion 72 is screwed to the main body portion 70.

  The nozzle portion 82 is located at the center of the lid body 80 and is provided so as to protrude from the lid body 80. The nozzle portion 82 has a cylindrical shape, and the nozzle portion 60 in which a cap portion 56 described later is attached to the discharge portion 58 is inserted, and the base end portion 62 is attached. A screw portion 86 is provided on the inner peripheral surface of the nozzle portion 60. The screw part 86 is screwed with the screw part 68 of the base end part 62 of the discharge part 9. Thereby, the bag body 52 is screwed to the lid portion 72.

  The cap unit 56 is attached to the nozzle unit 60 of the discharge unit 58. A screw part 88 is provided on the inner peripheral surface of the cap part 6. The screw part 88 is screwed with the screw part 68 of the nozzle part 60. As a result, the cap portion 56 is screwed to the lid portion 72.

  In the said embodiment, although 1st-4th seal part 13a-13d is formed in strip | belt shape by heat-bonding a pair of film parts 10 and 11, for example, a pair of film parts 10 and 11 with an adhesive agent. May be formed by adhering to each other, or may be formed by attaching a tape to the outer edge portions of the pair of film portions 10 and 11.

  In the first embodiment, the gas suction valve 36 is provided in the lid portion 27, but the gas suction valve 36 may be provided in the main body portion 25. In the second embodiment, the gas suction valve 78 is provided on the bottom 70 b of the main body 70. However, the gas suction valve 78 may be provided on the lid 72.

  Next, examples of the present invention will be described, but the present invention is not limited to the following examples.

Example 1
A liquid container having the configuration of the above embodiment was configured. In Example 1, the container body according to the first embodiment in which the inner dimension (inner diameter D) in the width direction of the container body made of polyethylene was 50 mm, the height of the main body portion was 130 mm, and the volume was 250 ml was used. In the bag body, the outer dimension in the width direction (width dimension W) of the bag part is 70 mm, the outer dimension in the height direction of the bag part is 150 mm, the seal part width (width dimension d) is 15 mm, and the width of the seal part / the width of the bag part. The outer dimension) was 21%. Similar to the above-described embodiment, a bag was produced using a laminated film of ON / adhesive / L·LDPE for the film part. Here, the film of the bag is a biaxially stretched nylon 6 film with an ON thickness of 15 μm, a density of 0.920 g / cm ^{3 with} an L-LDPE thickness of 60 μm, and a copolymer of ethylene and 1-hexene. Some linear polyethylene was used, and the thickness of the film part was 75 μm. Moreover, in Example 1, the discharge valve is provided in the discharge outlet of the discharge part, and the trigger part is not provided. A suction valve was provided on the lid. The volume of the bag portion filled with the liquid in the bag portion was 120 ml, and the volume of the bag portion filled with the liquid in the bag portion / volume of the container body) × 100 = 48%. Table 1 is a table showing the evaluation results. As shown in Table 1, in Example 1 having such a configuration, the residual liquid ratio of the liquid remaining in the bag portion of the bag body was 1%.

(Example 2)
In Example 2, the configuration was the same as Example 1 except that the seal part width (width dimension d) was 7 mm and (seal part width / outer dimension in the width direction of the bag part) was 10%. Further, the volume of the bag portion filled with the liquid in the bag portion was 120 ml, and the volume of the bag portion filled with the liquid in the bag portion / volume of the container body) × 100 = 48%. In Example 2, as shown in Table 1, the residual liquid ratio of the liquid remaining in the bag portion of the bag body was 2%.

(Example 3)
In Example 3, the configuration was the same as Example 1 except that the seal part width (width dimension d) was 4 mm and (seal part width / outer dimension in the width direction of the bag part) was 6%. Further, the volume of the bag portion filled with the liquid in the bag portion was 120 ml, and the volume of the bag portion filled with the liquid in the bag portion / volume of the container body) × 100 = 48%. In Example 3, as shown in Table 1, the residual liquid ratio of the liquid remaining in the bag portion of the bag body was 3%.

Example 4
In Example 4, in addition to the configuration of Example 3, an incentive part was provided. In the inducing portion, the interval T between the top of the inducing portion and the bottom of the bag portion was 25 mm, and the relationship T / W with the width dimension W of the bag portion was 36%. Further, the volume of the bag portion filled with the liquid in the bag portion was 110 ml, and the volume of the bag portion filled with the liquid in the bag portion / volume of the container body) × 100 = 44%. In Example 4, as shown in Table 1, the residual liquid ratio of the liquid remaining in the bag portion of the bag body was 1%.

(Example 5)
In Example 5, the interval T between the top of the trigger part and the bottom of the bag part is 15 mm, the relationship T / W with the width dimension W of the bag part is 18%, and the bag part is fully filled with liquid. The configuration was the same as in Example 4 except that the volume was 170 ml, and the volume of the bag portion filled with liquid in the bag portion / volume of the container body) × 100 = 68%. In Example 6, as shown in Table 1, the residual liquid ratio of the liquid remaining in the bag portion of the bag body was 1%.

(Example 6)
In Example 6, the container body according to the second embodiment in which the inner dimension (inner diameter D) in the width direction of the upper part of the container body made of polyethylene was 50 mm, the height of the main body part was 130 mm, and the volume was 230 ml was used. The bag body had the same configuration as in Example 4. In Example 6, as shown in Table 1, the residual liquid ratio of the liquid remaining in the bag portion of the bag body was 1%.

(Comparative example)
In the comparative example, the bag portion has a configuration in which one film is overlapped and the end portion is sealed with a seal portion. That is, in the bag portion of the comparative example, a seal portion is formed only on one side portion in the height direction. In the comparative example, the container body according to the first embodiment in which the inner dimension (inner diameter D) in the width direction of the container body made of polyethylene is 50 mm, the height of the main body is 130 mm, and the volume is 250 ml is used. In the bag body, the outer dimension in the width direction (width dimension W) of the bag part was 70 mm, the outer dimension in the height direction of the bag part was 150 mm, and the thickness of the film part was 75 μm as in Example 1. Moreover, in the comparative example, the incentive part is not provided. A suction valve was provided on the lid. The volume of the bag portion filled with liquid in the bag portion was 170 ml, and the volume of the bag portion filled with liquid in the bag portion / volume of the container body) × 100 = 44%. In the comparative example having such a configuration, as shown in Table 1, the residual liquid ratio of the liquid remaining in the bag portion of the bag body was 10%.

  It was confirmed that Example 1-6 of the present invention can lower the residual liquid rate of the liquid remaining in the bag portion of the bag body than the conventional comparative example.

  DESCRIPTION OF SYMBOLS 1 ... Liquid container, 3,52 ... Bag body, 5,54 ... Container body, 7 ... Bag part, 7a, 7b ... Side, 7c ... Bottom, 9, 58 ... Discharge part, 13, 13a, 13b, 13c, 13d ... Sealing part (sealing part), 15, 16 ... Inducing part, 27, 72 ... Lid part (mounting part), 36, 78 ... Gas intake valve.

Claims (4)

A bag that encloses the liquid;
A container body that accommodates the bag body and has flexibility,
The bag body
A pair of opposing film surfaces are sealed along the outer edge, and a bag portion having a pair of sides and a bottom connected to the pair of sides,
A check valve is provided on the opposite side of the bottom of the bag portion to allow the liquid to flow from the inside of the bag portion to the outside and to restrict the inflow of the liquid from the outside to the inside. And having a discharge part,
The container body is
A mounting portion that is airtightly mounted to the discharge portion and seals the bag portion to the container body;
A gas intake valve that allows gas to flow from the outside to the inside of the container body and regulates gas flow from the inside to the outside, and
The said bag part is a liquid container by which the strip | belt-shaped sealing part is provided in the said pair of side edge and the said bottom side.   The liquid container according to claim 1, wherein the bag body is detachably provided on the container body.   3. The liquid container according to claim 1, wherein the bag portion is provided with an inducing portion for constricting both side portions on the bottom side of the bag portion inward when the liquid is filled.   The liquid container according to claim 3, wherein the inducing part is formed by joining the pair of film surfaces and protrudes inward from the sealing part provided on each of the pair of side sides.

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