This application claims priority under 35 U.S.C. § 119 from Japanese Patent Application No. 2021-055503, filed on Mar. 29, 2021, the entire subject matter of which is incorporated herein by reference.
The present disclosure is related to a fluid package and a fluid package unit.
A packaging bag for containing fluid is known. A part of the packaging bag may form a concealing area, which includes a base layer, a pattern-printed layer arranged on an inner side of the base layer, and a middle layer bonded with a layer of adhesive agent to the base layer, with the pattern-printed layer interposed between the base layer and the middle layer.
In the known packaging bag, the pattern-printed layer may be smaller than the base layer and the middle layer, and the base layer and the middle layer may be directly bonded to each other at rims on outer sides of the pattern-printed layer. Therefore, bonding between the base layer and the intermediate layer, which may be weakened at the part where the pattern-printed layer intervenes between the base layer and the intermediate layer, may be restrained from lowering at the rims.
However, for example, for containing contents such as ultraviolet (UV)-curable ink in a compartment in the packaging bag, in order to prevent the contents from hardening, the packaging bag may need to have a light-shielding property. While the known packaging bag may have the light-shielding function in the pattern-printed layer, with the pattern-printed layer being smaller than the compartment, the contents may not be shielded sufficiently from light.
The present disclosure is advantageous in that a fluid package and a fluid package unit, in which insufficient bonding between layers due to an arrangement of a printed layer and hardening by UV rays may be restrained, are provided.
According to an aspect of the present disclosure, a fluid package, including a pouch having a form of a bag configured to contain fluid in a container compartment delimited by a film, and a spout continuous with the container compartment, is provided. The film includes an outer layer, an inner layer, a light-shielding layer, and a bonding layer. The inner layer is arranged closer than the outer layer to the container compartment in a layered direction, in which the outer layer and the inner layer are layered. The light-shielding layer is arranged between the outer layer and the inner layer in the layered direction. The light-shielding layer has an outer periphery located at a position on an inner side with respect to an outer periphery of the outer layer and an outer periphery of the inner layer in an orthogonal direction intersecting orthogonally with the layered direction. The outer periphery of the light-shielding layer is located at one of a same position as an outer periphery of the container compartment and a position on an outer side with respect to the outer periphery of the container compartment in the orthogonal direction. The light-shielding layer covers an entirety of the container compartment. The light-shielding layer is configured to block ultraviolet rays. The bonding layer bonds the outer layer and the inner layer, with the light-shielding layer interposed between the outer layer and the inner layer. The bonding layer includes a directly-bonded area, in which the outer layer and the inner layer are directly bonded with the bonding layer, in a range surrounding the light-shielding layer.
According to another aspect of the present disclosure, a fluid package unit, including a fluid package, an attachment section, and a roll-up assembly, is provided. The fluid package includes a pouch having a form of a bag configured to contain fluid in a container compartment delimited by a film and a spout continuous with the container compartment. The film includes an outer layer, an inner layer, a light-shielding layer, and a bonding layer. The inner layer is arranged closer than the outer layer to the container compartment in a layered direction, in which the outer layer and the inner layer are layered. The light-shielding layer is arranged between the outer layer and the inner layer in the layered direction. The light-shielding layer has an outer periphery located at a position on an inner side with respect to an outer periphery of the outer layer and an outer periphery of the inner layer in an orthogonal direction intersecting orthogonally with the layered direction. The outer periphery of the light-shielding layer is located at one of a same position as an outer periphery of the container compartment and a position on an outer side with respect to the outer periphery of the container compartment in the orthogonal direction. The light-shielding layer covers an entirety of the container compartment. The light-shielding layer is configured to block ultraviolet rays. The bonding layer bonds the outer layer and the inner layer, with the light-shielding layer interposed between the outer layer and the inner layer. The bonding layer includes a directly-bonded area, in which the outer layer and the inner layer are directly bonded with the bonding layer, in a range surrounding the light-shielding layer. To the attachment section, the fluid package is detachably attachable. The roll-up assembly is configured to roll up the pouch of the fluid package attached to the attachment section. The pouch includes, in a range surrounding the container compartment, a spout-welding section, in which the spout and the film are welded, and a film-welding section, in which a part of the film and another part of the film facing each other with the container compartment interposed there-between in the layered direction are partly welded. The film-welding section includes a bottom welding section having a triangular form. The bottom welding section is arranged farther than the container compartment from the spout in a first direction parallel to the orthogonal direction. The pouch is configured to be rolled up by the roll-up assembly in a direction from the bottom welding section toward the spout.
In the following paragraphs, with reference to the accompanying drawings, an embodiment of the present disclosure will be described. It is noted that a fluid package described below is merely one embodiment of the present disclosure, and various connections may be set forth between elements in the following description. These connections in general and, unless specified otherwise, may be direct or indirect and that this specification is not intended to be limiting in this respect. In the following paragraphs and the accompanying drawings, identical or equivalent elements are referred to and denoted by same reference signs.
A fluid package 10 shown in
In this description, the layered direction, in which the outer layer 25 and the inner layer 23 are layered, may be called as a front-rear direction. A first direction intersecting with the front-rear direction, for example, orthogonally, may be called as a vertical direction. A second direction intersecting with the front-rear direction and with the vertical direction, for example, orthogonally, may be called as a widthwise direction. However, an orientation of the fluid package 10 may not necessarily be based on these directions.
The pouch 12 may be in, for example, an approximately pentagonal shape having a length L1 in the vertical direction. The pouch 12 has a first wall 20f and a second wall 20s, between which the container compartment 11 is formed in the front-rear direction. The pouch 12 has, in a range surrounding the container compartment 11 in a direction intersecting orthogonally with the vertical direction, an insertion port 15, in which the spout 13 may be inserted, a film-welding section 30, in which the first wall 20f and the second wall 20s are welded, and a spout-welding section 36, in which the first wall 20f and the second wall 20s are welded with the spout 13.
The insertion port 15 is located at a widthwise center of the pouch 12 and is surrounded by the film-welding section 30 in the widthwise direction. The insertion port 15 is connected to an upper opening of the container compartment 11 at a lower end thereof, extending upward from the container compartment 11, and is open at an upper end thereof.
The spout 13 is in a tubular form, which may be, for example a round or multifaceted tube, having a connection path 14 inside thereof. The spout 13 may be formed in, for example, resin. The spout 13 is inserted in the insertion port 15 of the pouch 12 at a lower part thereof, with the connection path 14 extending in the vertical direction, and protrude upward from an upper end of the pouch 12. The lower part of the spout 13 is fitted to the pouch 12 through the spout-welding section 36 so that the spout 13 is sealed to the pouch 12. The inside and the outside of the container compartment 11 of the pouch 12 are connected through the connection path 14, which provides a passage for the fluid in the container compartment 11 to flow outside.
The film 20 has flexibility and includes the first wall 20f and the second wall 20s. The second wall 20s is arranged rearward with respect to the first wall 20f. The first wall 20f and the second wall 20s have an identical shape and a same area dimension and are arranged to overlap each other.
The first wall 20f includes, as shown in
The first inner layer 23f is arranged rearward with respect to the first outer layer 25f in the front-rear direction and on an inner side, i.e., closer to the container compartment 11, with respect to the first outer layer 25f within the pouch 12. The first inner layer 23f forms an inner surface of the pouch 12 and an inner surface of the first wall 20f The first outer layer 25f forms an outer surface of the pouch 12 and an outer surface of the first wall 20f.
The first inner layer 23f is transparent and may have, for example, a rectangular shape, and includes a plurality of layers. In the example shown in
The first layer 23a may be made of, for example, polyethylene resin, which allows the first wall 20f and the second wall 20s to be welded. The second layer 23c may be made of, for example, nylon resin to provide flexibility in the film 20. The third layer 23e may be made of, for example, PET resin, which may prevent gas from passing through. Optionally, however the first inner layer 23f may consist of a single layer.
The bonding layer 23b, the bonding layer 23d, and the first bonding layer 24f may be made of, for example, resin, such as acrylic resin and epoxy resin, having adhesiveness.
The first bonding layer 24f may be, for example, transparent and has an area dimension larger than an area dimension of the first light-shielding layer 21f and larger than an area dimension of the first display-printing layer 22f. The first bonding layer 24f has a shape and an area dimension identical to the first inner layer 23f and the first outer layer 25f In a direction intersecting orthogonally with the front-rear direction, outer peripheries 24fp of the first bonding layer 24f surround outer peripheries 21pf of the first light-shielding layer 21f and outer peripheries 22fp of the first display-printing layer 22f and coincide with outer peripheries 23fp of the first inner layer 23f and outer peripheries 25fp of the first outer layer 25f to form outer peripheries 12p of the pouch 12. In the following paragraphs, the description is based on a condition where the outer peripheries 21fp of the first light-shielding layer 21f and the outer peripheries 22fp of the first display-printing layer 22f coincide with each other. Optionally, however, the outer peripheries 22fp of the first display-printing layer 22f may surround the outer peripheries 21fp of the first light-shielding layer 21f.
In this arrangement, in a range including the outer peripheries 21fp of the first light-shielding layer 21f and an area on an inner side with respect to the outer peripheries 21fp in the direction intersecting orthogonally with the front-rear direction, the first bonding layer 24f bonds the first inner layer 23f and the first light-shielding layer 21f to each other. Meanwhile, in areas on outer sides with respect to the outer peripheries 21fp of the first light-shielding layer 21f, the first bonding layer 24f bonds the first inner layer 23f and the first outer layer 25f to each other and forms a directly-bonded area 28.
Thus, the directly-bonded area 28 is an area in the film 20, in which the inner layer 23 and the outer layer 25 are directly bonded with the bonding layer 24. The inner layer 23, the outer layer 25, and the bonding layer 24 are transparent. The directly-bonded area 28 does not include the light-shielding layer 21 or the display-printing layer 22. Therefore, the directly-bonded area 28 is transparent. In this context, the term “transparent” may mean permeability of light and may include translucency and colored transparency.
The first light-shielding layer 21f blocks the UV rays and has a higher UV-blocking rate than the other layers. The UV-blocking rate may be determined in advance according to a required level depending on the fluid. For example, the first light-shielding layer 21f is a printable layer, which may be formed in an ink in a color having a higher UV-blocking rate, such as black, applied onto the first bonding layer 24f. The first light-shielding layer 21f may be, for example, a metal foil such as aluminum, and a metal layer of a metal vapor deposition film, in which a metal such as aluminum is deposited on a thin film of, for example, resin.
The outer peripheries 21fp of the first light-shielding layer 21f are located on an inner side with respect to the outer peripheries 12p of the pouch 12 and at positions the same as the outer peripheries 11p of the container compartment 11 or on outer sides with respect to the outer peripheries 11p of the container compartment 11 in the direction intersecting orthogonally with the front-rear direction. Therefore, the first light-shielding layer 21f has an area dimension equal to or larger than an area dimension of the container compartment 11 on a front side and covers an entirety of the front side of the container compartment 11.
The first display-printing layer 22f is, as shown in
The first outer layer 25f covers the first display-printing layer 22f in a range including the outer peripheries 22fp of the first display-printing layer 22f and on an are on an inner side with respect to the outer peripheries 22fp of the first display-printing layer 22f in the direction intersecting orthogonally with the front-rear direction to protect the first display-printing layer 22f from the outside. The first outer layer 25f is made of transparent resin to allow the first display-printing layer 22f to be visually recognized from the outside of the pouch 12. The first outer layer 25f covers the first bonding layer 24f on an outer side with respect to the first display-printing layer 22f in the direction intersecting orthogonally to the front-rear direction to protect the first bonding layer 24f from the outside.
The second wall 20s includes, as shown in
The second inner layer 23s is in the same configuration as the first inner layer 23f, the second bonding layer 24s is in the same configuration as the first bonding layer 24f, the second light-shielding layer 21s is in the same configuration as the first light-shielding layer 21f, the second display-printing layer 22s is in the same configuration as the first display-printing layer 22f, and the second outer layer 25s is in the same configuration as the first outer layer 25f. In the following paragraphs, the first inner layer 23f and the second inner layer 23s may be collectively called as the inner layer 23, the first bonding layer 24f and the second bonding layer 24s may be collectively called as the bonding layer 24, the first light-shielding layer 21f and the second light-shielding layer 21s may be collectively called as the light-shielding layer 21, the first display-printing layer 22f and the second display-printing layer 22s may be collectively called as the display-printing layer 22, and the first outer layer 25f and the second outer layer 25s may be collectively called as the outer layer 25.
As shown in
As shown in
The film-welding section 30 is formed of the first wall 20f and the second wall 20s welded to each other and may be approximately in a form of, for example, U. The film-welding section 30 includes a right-side welding section 31, a left-side welding section 32, a bottom welding section 33, a right-top welding section 34, and a left-top welding section 35. The right-side welding section 31 is arranged on a rightward side in the pouch 12 with respect to the container compartment 11, and the left-side welding section 32 is arranged on a leftward side in the pouch 12 with respect to the container compartment 11. The right-side welding section 31 and the left-side welding section 32 are arranged at positions opposite to each other across the container compartment 11 in the widthwise direction extending longitudinally in the vertical direction in parallel with each other.
The bottom welding section 33 is arranged at a lower position in the pouch 12 with respect to the container compartment 11. The bottom welding section 33 is connected to a lower end of the right-side welding section 31 and a lower end of the left-side welding section 32 at a rightward top end and a leftward top end thereof, respectively. The bottom welding section 33 may have, for example, a triangular form pointing downward, in which a dimension in the widthwise direction thereof is reduced toward a lower end. As shown in
The right-top welding section 34 is arranged rightward with respect to the insertion port 15 on an upper side with respect to the container compartment 11, and the left-top welding section 35 is arranged leftward with respect to the insertion port 15 on the upper side with respect to the container compartment 11. The right-top welding section 34 extends rightward from a rightward end of the insertion port 15 and is connected to an upper end of the right-side welding section 31. The left-top welding section 35 extends leftward from a leftward end of the insertion port 15 and is connected to an upper end of the left-side welding section 32.
The directly-bonded area 28 is arranged on an outer side with respect to the outer periphery 21p of the light-shielding layer 21 and on an inner side with respect to the outer periphery 12p of the pouch 12 in the direction intersecting orthogonally with the front-rear direction. The outer periphery 21p of the light-shielding layer 21 is arranged between the outer periphery 11p of the container compartment 11, which includes a lower edge 36p of the spout-welding section 36 and an inner periphery 30p of the film-welding section 30, and the outer periphery 12p of the pouch 12. Therefore, the directly-bonded area 28 is located on an outer side with respect to the outer periphery 21p of the light-shielding layer 21 in the spout-welding section 36 and the film-welding section 30.
The bottom welding section 33 of the film-welding section 30 is located at a lower position with respect to the light-shielding layer 21 and is formed of the directly-bonded area 28. Optionally, a lower end of the light-shielding layer 21 may be located at a position between an upper end and a lower end of the bottom welding section 33. In other words, the bottom welding section 33 may partly include the light-shielding layer 21.
In the spout-welding section 36, and in the right-top welding section 34 and the left-top welding section 35 of the film-welding section 30, window sections 37 are arranged. Each window section 37 may be in, for example, a rectangular form and is arranged over a boundary between the spout-welding section 36 and the film-welding section 30 in the widthwise direction. Optionally, the window section 37 may be arranged in either one of the spout-welding section 36 and the film-welding section 30.
The window sections 37 are located on an upper side with respect to the container compartment 11 and extend downward from the upper end of the pouch 12. An upper part 37a of each window section 37 is formed of a part of the directly-bonded area 28, which is transparent. Therefore, in the vertical direction, an upper end of the directly-bonded area 28 and upper ends of the window sections 37 coincide with the upper end of the pouch 12, and a lower end of the directly-bonded area 28 is located between the upper ends and lower ends of the window sections 37. A lower part 37b of each window section 37 consists of the inner layer 23 and the outer layer 25 and does not include the light-shielding layer 21, the display-printing layer 22, or the bonding layer 24. Therefore, the lower parts 37b of the window sections 37 have a higher degree of transparency than upper parts 37a of the window sections 37.
In the fluid package 10 described above, the film 20 includes the transparent outer layer 25, the transparent inner layer 23, the light-shielding layer 21, and the bonding layer. The transparent inner layer 23 is arranged closer than the outer layer 25 to the container compartment 11 in the layered direction, e.g., the front-rear direction, in which the inner layer 23 and the outer layer 25 are layered. The light-shielding layer 21 is arranged between the outer layer 25 and the inner layer 23 in the front-rear direction and has the outer periphery, which is located at the position on the inner side with respect to the outer periphery of the outer layer 25 and the outer periphery of the inner layer 23 in the direction intersecting orthogonally with the front-rear direction and which is located at the position same as the outer periphery of the container compartment 11 or on the outer side with respect to the outer periphery of the container compartment 11 in the direction intersecting orthogonally with the front-rear direction. The light-shielding layer 21 covers the entirety of the container compartment 11. The light-shielding layer 21 blocks the ultraviolet rays. The bonding layer 24 bonds the outer layer 25 and the inner layer 23, with the light-shielding layer 21 interposed between the outer layer 25 and the inner layer 23. The bonding layer 24 includes the directly-bonded area 28, in which the outer layer 25 and the inner layer 23 are directly bonded with the bonding layer 24, in the range surrounding the light-shielding layer 21.
In this arrangement, the directly-bonded area 28, in which the inner layer 23 and the outer layer 25 are directly bonded with the bonding layer 24, is arranged around the light-shielding layer 21. Therefore, poor bonding between the layers in the film 20, which may be caused if the light-shielding layer 21 intervenes between the inner layer 23 and the outer layer 25, may be restrained. Moreover, in this arrangement, in which the light-shielding layer 21 covers the container compartment 11 entirely, the fluid in the container compartment 11 may be shielded from the light, and deterioration of the fluid that may be caused by the UV rays may be restrained.
Moreover, through the transparent directly-bonded area 28, leakage of the fluid from the container compartment 11 may be visually recognized easily. Further, the area dimension of the light-shielding layer 21 may be reduced so that rigidity of the pouch 12 that may otherwise be increased by the presence of the light-shielding layer 21 may be lowered. Therefore, the pouch 12 may be easily rolled. Moreover, if the light-shielding layer 21 is formed of a printing layer, the rigidity of the pouch 12 may be restrained from increasing even more effectively compared to a light-shielding layer 21 made of metal; therefore, the pouch 12 may be rolled more easily.
In the fluid package 10 described above, the film 20 includes the first wall 20f and the second wall 20s, between which the container compartment 11 is interposed in the front-rear direction. The light-shielding layer 21 includes the first light-shielding layer 21f, arranged in the first wall 20f and having the area dimension greater than the area dimension of the container compartment 11 in the direction intersecting orthogonally with the front-rear direction; and the second light-shielding layer 21s, arranged in the second wall and having the area dimension greater than the area dimension of the container compartment 11 in the direction intersecting orthogonally with the front-rear direction.
In this arrangement, each of the area dimension of the first light-shielding layer 21f and the area dimension of the second light-shielding layer 21s is greater than the area dimension of the container compartment 11. Therefore, when the first wall 20f and the second wall 20s are layered, even if the first light-shielding layer 21f and the second light-shielding layer 21s are displaced from each other, a situation, in which neither the first light-shielding layer 21f nor the second light-shielding layer 21s covers the container compartment 11, may be restrained.
The fluid package 10 described above has the spout 13 continuous with the container compartment 11. The pouch 12 includes, in the range surrounding the container compartment 11, the spout-welding section 36, in which the spout 13 and the film 20 are welded, and the film-welding section 30, in which a part of the film 20 and another part of the film 20 facing each other with the container compartment 11 interposed there-between in the front-rear direction are partly welded. The film 20 includes the transparent window section 37, in which a part of the directly-bonded area 28 is arranged, at least in one of the spout-welding section 36 and the film-welding section 30.
In this arrangement, leakage of the fluid from the container compartment 11 in the spout-welding section 36 or the film-welding section 30 may be visually recognizable easily through the transparent window sections 37. Moreover, the part of the window section 37, in which the directly-bonded area 28 is not provided, has the higher degree of transparency than the directly-bonded area 28. Therefore, the leakage of the fluid may be recognized even more easily through the part of the window section 37 not having the directly-bonded area 28.
A fluid package unit 40 may be, for example, provided in an apparatus having a printer that uses the fluid package 10. The fluid package 10 may be detachably attached or fixed to the apparatus. The fluid package unit 40 includes the fluid package 10 and a case 41.
The case 41 may have, for example, a form of cuboid which is open on a front side thereof. The case 41 has an opening 41a, a rear face 41b, and four (4) side faces 41c. The opening 41a is located on the front side of the case 41 and is surrounded by the four side faces 41c. The rear face 41b is located on a rear side of the case 41, which is opposite to the opening 41a in the front-rear direction. Inside the case 41, an attachment section 42 and a roll-up assembly 43 are arranged.
To the attachment section 42, the spout 13 of the fluid package 10 may be detachably attached. The roll-up assembly 43 may be located, for example, at a lower position with respect to the attachment section 42 and includes a blade spring 43a, a roller 43b, and a movable assembly 43c. The blade spring 43a may urge the pouch 12 against the roller 43b. The roller 43b extends axially in the widthwise direction and is movably supported by the movable assembly 43c to move in the vertical direction. The movable assembly 43c extends in the vertical direction along the side faces 41c and supports the roller 43b rotatably.
For using the fluid package unit 40, first, a user may insert the fluid package 10 through the opening 41a into the case 41. In particular, the user may have the front side of the fluid package 10 on the user's nearer side and the rear face of the fluid package 10 to face the rear face 41b of the case 41 on the user's farther side. In this arrangement, the user may visually recognize the display-printing layer 22, which is on the front side of the fluid package 10 through, the opening 41a. Therefore, when, for example, the user has a plurality of different types of cases 41, the user may refer to the contents of the display-printing layer 22 to install the fluid package 10 to a correct one of the cases 41.
Next, the user may attach the spout 13 of the fluid package 10 to the attachment section 42. In particular, the fluid package 10 may be placed in the attachment section 42 with the spout 13 on the upper side and the pouch 12 extending downward from the spout 13. Next, the user may interpose the bottom welding section 33 between the roller 43b and the blade spring 43a. Thereby, the bottom welding section 33 may be urged by the blade spring 43a against the roller 43b. As the fluid in the container compartment 11 is ejected outside, a thickness of the pouch 12 may be reduced. Accordingly, the roller 43b may rotate due to an urging force of the blade spring 43a, and the pouch 12 may be rolled up around the roller 43b from the bottom welding section 33, and the roller 43b may move toward the spout 13 along the movable assembly 43c. Optionally, a motor to rotate the roller 43b may be provided.
The fluid package unit 40 as described above has, as shown in
According to this arrangement, the directly-bonded area 28 in the bottom welding section 33 does not include the light-shielding layer 21. Therefore, rigidity of the bottom welding section 33 may be reduced, and the bottom welding section 33 may be rolled up easily.
A first modified example of the fluid package 10 will be described below. In the fluid package 10 in the first modified example, similarly to the fluid package 10 in the previous embodiment as shown in
For example, as shown in
The second display-printing layer 22s of the second wall 20s may have a second display part 22sa and the second index 27. The second display part 22sa may have an approximately pentagonal form and is layered over the second light-shielding layer 21s. The second index 27 may have a circular form and protrudes leftward from a leftward end of the second display part 22sa and is located leftward with respect to the second light-shielding layer 21s. The second index 27 may be, when the first wall 20f and the second wall 20s are arranged to overlap each other, surrounded at a circumferential surface thereof by the first index 26.
The first index 26 and the second index 27 are located on the directly-bonded area 28, which is transparent. Therefore, when the pouch 12 as shown in
In the fluid package 10 in the second modified example, which may be modified further from the first modified example, the first index 26 includes a first lengthwise index 26a for positioning in the vertical direction and a first widthwise index 26b for positioning in the widthwise direction, as shown in
For example, as shown in
The second display-printing layer 22s of the second wall 20s may have the second display part 22sa, a second lengthwise index 27a, and a second widthwise index 27b. The second lengthwise index 27a may have a rectangular form and protrude leftward from a leftward end of the second display part 22sa and may be located leftward with respect to the second light-shielding layer 21s. The second widthwise index 27b may have a rectangular form and protrudes upward from an upper end of the second display part 22sa and may be located at an upper position with respect to the second light-shielding layer 21s. When the first wall 20f and the second wall 20s are arranged to overlap each other, the second lengthwise index 27a may be located between the first lengthwise indexes 26a, and the second widthwise index 27b may be located between the first widthwise indexes 26b.
When the pouch 12 is manufactured, the film 20 may be folded at a vertical center to form a folded edge 20c. Thereby, the first wall 20f on a front side with respect to the folded edge 20c and the second wall 20s on a rear side with respect to the folded edge 20c may overlap each other with the container compartment 11 interposed there-between. With the first wall 20f overlapping the second wall 20s, as shown in
In the fluid package 10 in the third modified example, which may be modified further from the first modified example, the pouch 12 has the folded edge 20c, at which the first light-shielding layer 21f and the second light-shielding layer 21s aligning in the vertical direction are folded to overlap each other with the container compartment 11 interposed there-between in the front-rear direction, and an opening edge 20d, which is distanced from the folded edge 20c by the container compartment 11 in the vertical direction. The second index 27 may be located closer than the folded edge 20c to the opening edge 20d in the vertical direction.
For example, when the pouch 12 is manufactured, as shown in
When, for example, the first wall 20f and the second wall 20s are displaced from each other, an amount of the displacement between the first wall 20f and the second wall 20s may be larger at a position farther from the folded edge 20c in the vertical direction than a position closer to the folded edge 20c. In this regard, the film 20 may be folded with reference to the first widthwise indexes 26b of the first wall 20f and the second widthwise index 27b of the second wall 20s, which are closer to the opening edge 20d than the folded edge 20c in the vertical direction, as shown in
Although examples of carrying out the invention have been described, those skilled in the art will appreciate that there are numerous variations and permutations of the fluid package and the fluid package unit that fall within the spirit and the scope of the invention as set forth in the appended claims. The embodiments described above may optionally be combined as long as they may coexist without conflicting. It is to be understood that the subject matter defined in the appended claims is not necessarily limited to the specific features or act described above. Rather, the specific features and acts described above are disclosed as example forms of implementing the claims. In the meantime, the terms used to represent the components in the above embodiment may not necessarily agree identically with the terms recited in the appended claims, but the terms used in the above embodiments may merely be regarded as examples of the claimed subject matters.
The present disclosure may be utilized to produce a fluid package and a fluid package unit that may reduce UV curing of fluid and poor bonding between layers due to presence of an intervening printable layer.
Number | Date | Country | Kind |
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2021-055503 | Mar 2021 | JP | national |
Number | Name | Date | Kind |
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7527367 | Morita | May 2009 | B2 |
Number | Date | Country |
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2004-066753 | Mar 2004 | JP |
2005-138874 | Jun 2005 | JP |
2010-149454 | Jul 2010 | JP |
Number | Date | Country | |
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20220306365 A1 | Sep 2022 | US |