JP4675502B2 - Liquid storage bag - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a liquid storage bag to which a cylindrical member for storing a liquid such as an infusion solution, blood, a liquid blood component, or a peritoneal dialysis fluid is attached, and a method for attaching the cylindrical member to the liquid storage bag. In the case of the present invention, the tubular member can be easily and smoothly attached to the bag body with good operability, and the obtained bag with the tubular member of the present invention is attached to the tubular member. There is no occurrence of chipping on both sides of the cylindrical member due to insufficient seal at the part, pinholes due to extremely thin bag body material, etc., and excellent liquid tightness and strength of the mounting part of the cylindrical member .
[0002]
[Prior art]
For bags containing fluids such as glucose infusion, amino acid infusion, electrolyte infusion, lipid infusion, blood, liquid blood components, peritoneal dialysis fluid, etc. In general, a cylindrical discharge port is attached to a flexible bag body in order to supply from the bag.
When attaching the cylindrical discharge port to the bag body, a non-seal opening for attaching the cylindrical discharge port member is formed in advance in a part of the peripheral seal portion of the bag body, and the opening A method in which a cylindrical discharge port member is inserted into and bonded by heat sealing or the like is widely used.
In this attachment method, the inner peripheral dimension of the non-seal-like opening for attaching the outlet member provided at the peripheral edge of the bag body is made substantially the same as the outer peripheral dimension of the outlet member, and the outlet is discharged to the opening. Many methods have been adopted in which an outlet member is inserted and a discharge port member is fused to the inner peripheral surface of the opening.
[0003]
In the case of the above method, since the inner peripheral dimension of the opening for inserting and bonding the cylindrical discharge outlet member is substantially the same as the outer peripheral dimension of the discharge outlet member, the outlet member inserted in the opening and the opening There is almost no gap between the inner peripheral surface of the part. For this reason, when the discharge port member is fused to the inner peripheral surface of the opening by applying a mold or the like from the outside, the opening is not subjected to excessive stress, and the material at the mounting portion of the discharge port member is thinned. Therefore, the occurrence of pinholes can be eliminated, the discharge port member can be liquid-tightly attached to the opening, and the strength of the attachment portion of the discharge port member is hardly reduced.
[0004]
However, in the case of the above method, since the inner peripheral dimension of the opening provided in the bag body is substantially the same as the outer peripheral dimension of the port member, the operability when inserting the discharge port member is inferior. If there is a displacement between the outlet member to be inserted into the outlet member, a part of the wall surface of the opening is caught in the outlet member, and the opening is caught or broken inside or outside, so that the outlet member Incorrect mounting may occur.
In addition, in the case of the above-described method, it is difficult to smoothly insert the discharge port member into the opening unless the bag body is rich in elasticity, stretchability, slipperiness, etc., such as soft polyvinyl chloride.
However, vinyl chloride resin contains halogen and may generate dioxins and the like during incineration, resulting in environmental pollution problems. Moreover, soft polyvinyl chloride contains a large amount of phthalic acid plasticizer, which has been pointed out to have the potential of acting as an environmental hormone, and in recent years, it has been demanded to escape from vinyl chloride resin.
However, polymers other than vinyl chloride resin do not have the above-mentioned properties required for medical bags, satisfy the heat resistance and transparency conditions required for medical bags, and have elasticity, expansion and contraction. It does not have both sex and slipperiness.
[0005]
Therefore, in order to solve the above-mentioned problems, a method for making the inner peripheral dimension of the non-sealed opening for inserting the cylindrical discharge port member considerably larger than the outer peripheral dimension of the discharge port member, bag A method has been proposed in which, for example, Japanese Patent Application Laid-Open No. 61-141366 performs the attachment of the discharge port member and the heat sealing of the peripheral portion at the same time by making the entire peripheral portion having the attachment portion of the discharge port member unsealed. Issue gazette).
Among these methods, in the former method, since the inner peripheral dimension of the opening is considerably larger than the outer peripheral dimension of the discharge port member, the discharge port member can be easily inserted into the opening. Even in the latter method, the discharge port member can be easily arranged at a predetermined position between the upper and lower sheet materials forming the bag body.
However, in the case of these methods, when the discharge port member is fused to the sheet material constituting the opening by using a die or the like from the outside, or the discharge port member is pressed while pressing the upper and lower two sheet materials. When heat-sealing the periphery of the sheet material at the same time as fusing to the sheet material, for example, as illustrated in FIGS. 5A and 5B, the edge portions 10c of the molds 10a and 10b of the sheet member , 10d is in contact with the portions 14a and 14b, and the sheet becomes extremely thin. In some cases, pinholes are generated in the portions, and the liquid tightness at the attachment portion of the discharge port member is impaired. Problems such as insufficient strength are likely to occur.
[0006]
[Problems to be solved by the invention]
An object of the present invention is to attach a cylindrical member for discharging a liquid or introducing a liquid or other medicine to the peripheral edge of a liquid containing bag, and a cylindrical member to an opening for attaching the cylindrical member Can be inserted easily and smoothly with good operability, and there is no slip-out due to poor sealing at the opening to which the cylindrical member is attached, or pinholes due to extreme thinning, etc. It is providing the attachment method of a cylindrical member, and the liquid storage bag which attached the cylindrical member.
Furthermore, the object of the present invention is to form the bag body of the liquid storage bag from a polymer material containing a halogen such as soft polyvinyl chloride, and to provide elasticity, stretchability and flexibility compared to soft polyvinyl chloride. Is formed from an olefin polymer or polyester polymer that is slightly inferior but excellent in safety, and is also widely used in recent years. Styrenic thermoplastic elastomers, polyolefin thermoplastic elastomers, polyester thermoplastics Even when formed from a halogen-free thermoplastic elastomer such as an elastomer or a polyamide-based thermoplastic elastomer, the cylindrical member is satisfactorily inserted into and bonded to the non-sealed opening formed at the peripheral edge of the bag body. Provided is a method for attaching a cylindrical member, and a liquid storage bag having the cylindrical member attached thereto. It is.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the present inventors have made various studies. As a result, the shape of the non-seal-like opening for attaching the cylindrical member provided at the peripheral portion of the liquid containing bag body is such that the inner peripheral dimension is larger than the outer peripheral dimension of the cylindrical member at the outer edge of the bag main body. And a gradually decreasing portion that gradually decreases from the outer edge of the bag body toward the inside, and a narrow portion having an inner peripheral dimension substantially equal to the outer peripheral dimension of the cylindrical member provided continuously to the gradually decreasing part. When the shape is made, the opening of the opening (the insertion port of the tubular member) is wide open, so that the insertion of the tubular member into the opening becomes extremely easy, and the tubular member is inserted into the opening. After being done, it has been found that the tip can be easily arranged at a predetermined position by being guided by the inclined inner peripheral surface of the gradually decreasing portion and moving to the narrow portion of the opening.
Furthermore, the inventors of the present invention have made the shape of the opening for attaching the tubular member to the specific shape described above, and at the same time the tip of the tubular member is at the same position as the narrow portion in the opening or The cylindrical member is inserted into the opening so that it protrudes inward of the bag body from the narrow portion, and the cylindrical member is bonded to the opening at the location including the narrow portion in the opening in that state. This prevents pinholes from being extremely thinned at the mounting part of the cylindrical member and prevents slipping of the cylindrical member due to poor adhesion, resulting in good liquid tightness and strength at the mounting part of the cylindrical member. Has been found to be secured.
Moreover, when attaching the cylindrical member to the opening by the specific method described above, the present invention has the olefin polymer as an opening for attaching the cylindrical member as the specific shape described above. Even if the bag body is made of a polymer material that is slightly less elastic and flexible than soft polyvinyl chloride, such as a polyester polymer, and does not contain halogen, Even if it is formed from a thermoplastic elastomer that does not contain a pinhole due to extreme thinning of the cylindrical member in the non-sealed opening formed at a part of the periphery of the bag body, adhesion The present inventors have found that the tubular member can be satisfactorily attached without causing a slip-out of the cylindrical member due to a defect, and the present invention has been completed based on these various findings.
[0008]
That is, the present invention
(1) In an opening formed in a non-seal shape provided in a part of the peripheral seal portion of the bag body Preformed Insert the tubular member Concerned The cylindrical member In the opening A liquid storage bag having a cylindrical member formed by liquid-tight bonding, wherein the opening has an inner peripheral dimension larger than an outer peripheral dimension of the cylindrical member at an outer edge of the bag main body, and an outer edge of the bag main body. A gradually decreasing portion that gradually decreases from the inside toward the inside, and a narrow portion having an inner peripheral dimension substantially equal to the outer peripheral dimension of the cylindrical member provided continuously to the gradually decreasing part, Said The tip of the cylindrical member is at the same position as the narrow portion in the opening, or Concerned It protrudes inward of the bag body from the narrow part, The cylindrical member is Narrow part of opening The narrowest part of the opening or the narrow part of the opening and the outer part of the narrow part is the lower end of the heat seal part, and the opening is liquid-tight by heat sealing. A liquid storage bag that is bonded.
[0009]
And this invention,
( 2 ) The inner peripheral dimension of the outer edge of the bag body of the opening is 1.1 to 2.0 times the outer peripheral dimension of the tubular member, and Concerned The inner peripheral dimension of the narrow part in the opening is 0.98 to 1.1 times the outer peripheral dimension of the tubular member ( 1 ) Liquid storage bag;
( 3 ) The opening formed in the non-seal shape is The portion located inside the bag body from the narrow portion in the opening has an arc shape while forming an arc shape. Gradually Next enlarged opening Is (1) Or (2) Liquid storage bag;
( 4 (1) to (1), wherein the bag body is formed of a halogen-free polymer or a composition thereof. 3 ) Any liquid containing bag; and
( 5 ) Polymers containing no halogen are olefin polymers, polyester polymers, styrene thermoplastic elastomers, polyolefin thermoplastic elastomers, polyester thermoplastic elastomers. and Polyamide thermoplastic elastomer One or more of The above ( 4 ) Liquid storage bag;
Is included as a preferred embodiment.
[0010]
Furthermore, the present invention provides
( 6 ) In part of the peripheral seal part of the bag body, Preformed Provide a non-seal opening for inserting the tubular member, Concerned In the opening Said Insert the tubular member Heat seal A method of attaching a cylindrical member to a liquid storage bag that is liquid-tightly bonded, Non Formed into a seal Said At the outer edge of the bag body, the inner circumference of the opening Said A gradually decreasing portion that is larger than the outer peripheral dimension of the tubular member and gradually decreases from the outer edge of the bag body toward the inside; Concerned Provided continuously in the taper part Said A shape having a narrow portion having an inner peripheral dimension substantially equal to the outer peripheral dimension of the cylindrical member, Concerned In the opening Said The tip of the cylindrical member Concerned In the same position as the narrow part of the opening or Concerned After inserting so as to protrude inward of the bag body from the narrow part, The cylindrical member is Narrow part at opening The narrowest part of the opening, or the narrow part of the opening and the outer part of the narrow part of the narrow part, the lower end of the heat seal part, In the opening Liquid tight with heat seal It is the attachment method of the cylindrical member to the liquid storage bag characterized by adhering.
[0011]
And this invention,
( 7 ) The inner peripheral dimension of the opening at the outer edge of the bag body is 1.1 to 2.0 times the outer peripheral dimension of the tubular member, and Concerned The inner peripheral dimension of the narrow part in the opening is 0.98 to 1.1 times the outer peripheral dimension of the tubular member ( 6 ) Method of attaching the cylindrical member;
( 8 ) The non-sealing opening provided in the bag body is The inner circumferential dimension of the part located inside the bag body from the narrow part in the opening is arcuate. Gradually Next enlarged opening Is Said ( 6) or (7) tubular member Mounting method;
( 9 The bag body is formed of a halogen-free polymer or a composition thereof ( 6) to (8) A method of attaching any of the cylindrical members; and
( 10 The polymer containing no halogen is an olefin polymer, polyester polymer, styrene thermoplastic elastomer, polyolefin thermoplastic elastomer, polyester thermoplastic elastomer or polyamide thermoplastic elastomer. One or more of The above ( 9 ) Method of attaching the cylindrical member;
The It is included as a preferred embodiment.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
The present invention is described in detail below.
In the liquid storage bag of the present invention, a cylindrical member is inserted and bonded to an opening formed in a non-seal shape provided in a part of the seal portion at the periphery of the bag body. The opening formed by inserting and adhering the cylindrical member has a cylindrical inner peripheral dimension of a portion (inlet portion when the cylindrical member is inserted into the opening) located at the outer edge of the bag body in the opening. It is formed larger than the outer peripheral dimension of the member. Furthermore, in the liquid storage bag of the present invention, the inner peripheral dimension of the opening formed by inserting and bonding the cylindrical member gradually decreases from the outer edge of the bag body toward the inside at the gradually decreasing portion of the opening. That is, the inner peripheral surface of the opening has an inclined shape that narrows from the entrance having a large inner peripheral dimension toward the back of the opening (inward of the bag body) in the gradually decreasing portion.
Further, in the opening portion in the liquid storage bag of the present invention, a narrow portion is provided continuously to the gradually decreasing portion, and the inner peripheral dimension of the narrow portion is substantially equal to the outer peripheral dimension of the cylindrical member. . And, the cylindrical member is located at the same position as the narrow portion or a portion including the narrow portion in a state of projecting inward of the bag body from the narrow portion, That is, the narrowest part of the narrow part or the narrow part and a part outside the narrowest part of the narrow part is defined as a lower end of the heat seal part, and the opening is liquid-tight by heat sealing. It is glued.
As used herein, the “inner peripheral dimension of the opening” refers to the length of the inner periphery of the opening that is one round perpendicular to the axial direction, and the outer peripheral dimension of the cylindrical member is the length of the cylindrical member. This is the length of the outer circumference that goes around perpendicular to the axial direction.
In addition, the liquid storage bag of the present invention having the above-described specific cylindrical member mounting structure stores the liquid in the bag body before storing the liquid (bag for storing liquid) and the bag body. And a bag containing liquid (a bag containing liquid).
[0013]
In the liquid storage bag of the present invention, the type of liquid stored in the bag is not particularly limited, and for example, one or two types of nutrient components such as glucose, amino acids, peptides, vitamins, minerals, medicinal components, electrolytes, etc. Examples include various infusions containing the above, blood, liquid blood components, and distilled water.
Further, the shape, structure, size and the like of the liquid storage bag main body are not particularly limited, and may be any shape and structure conventionally known. For example, the liquid storage bag according to the present invention may be a single-chamber bag or a multi-chamber bag that is used by mixing the components housed in each room for communication between the rooms. But you can.
Further, the cylindrical member is a liquid discharge port in the bag body whose front end is sealed with rubber, elastomer, or other plug body before or after the cylindrical member is attached to the opening of the bag body. Alternatively, it may be a drug introduction port for injecting another drug into the bag main body with a syringe or the like, or a drug container in which the drug is sealed and can communicate with the liquid storage bag main body and mix components. It may also be one that also has these functions.
[0014]
The liquid storage bag of the present invention described above has a liquid storage bag main body (bag main body before storing liquid) 1 as illustrated in FIG. 1 (schematic diagram of an attachment portion of a cylindrical member in the liquid storage bag). A non-seal-like opening 3 for inserting the tubular member 4 is provided in a part of the peripheral seal portion 2 of the outer periphery, and the tubular tubular member 4 is inserted into the opening 3 so that the inner periphery of the opening 3 is inserted. Manufactured by bonding to a surface. At that time, the inner peripheral dimension of the portion (inlet) 5 located at the outer edge of the bag body 1 in the non-sealed opening 3 is designed to be larger than the outer peripheral dimension of the cylindrical member 4, and the opening 3 is opened. The gradually decreasing portion 6a has an inclined shape that gradually decreases from the outer edge of the bag body 1 (inlet of the opening 3) 5 toward the inside (back), and the gradually decreasing portion 6a. It is necessary to design so that the inner peripheral dimension continuously provided inward is composed of a narrow portion 6b substantially equal to the outer peripheral dimension of the cylindrical member 4 [(a) of FIG. 1]. . Then, the cylindrical member 4 is inserted into the opening 3 having the specific shape as described above, the tip 4a of the opening 4 is located at the same position as the narrow portion 6b in the opening 3, or the inner side of the bag body 1 than the narrow portion 6b. And inserted in a protruding state (preferably a protruding distance of 3 mm or less) [FIG. 1 (b)], and in this state, the tubular member 4 is bonded to the inner peripheral surface of the opening 3 at a location including the narrow portion 6b. [FIG. 1 (c)]. In FIG. 1C, reference numeral 8 denotes a heat seal portion when the cylindrical member 4 is bonded to the opening 3 by heat seal.
[0015]
In the present invention, in the non-sealing opening 3 for inserting and bonding the cylindrical member 4, the inner peripheral dimension of the inlet 5 portion is formed larger than the outer peripheral dimension of the cylindrical member 4, The entrance 5 of the opening 3 is wide open. Therefore, the operation of inserting the cylindrical member 4 into the opening 3 becomes extremely easy, and the cylindrical member 4 can be moved even if there is a slight misalignment between the cylindrical member 4 to be inserted and the opening 3. It can be smoothly inserted into the opening 3. In addition, as shown in FIG. 1, the inner circumferential dimension of the opening 3 has an inclined shape that gradually narrows from the inlet 5 of the opening 3 toward the back in the gradually decreasing portion 6 a. The cylindrical member 4 inserted into the guide 3 is guided to the inner peripheral surface gradually reduced in an inclined shape of the opening 3, smoothly enters the narrow portion 6 b at the back of the opening 3, and reaches a predetermined position in the opening 3. Easy to arrange.
In particular, in the liquid storage bag of the present invention, the opening 3 for attaching the tubular member 4 has the above-described specific shape, so that the bag body 1 is a non-polyvinyl chloride resin containing no halogen, particularly The cylindrical member 4 can be smoothly inserted into the opening 3 even when it is formed of an olefin polymer or a polyester polymer that is less elastic and stretchable than soft polyvinyl chloride. Is called.
[0016]
Furthermore, in the liquid storage bag of the present invention, since the cylindrical member 4 is bonded to the inner surface of the opening 3 at a location including the narrow portion 6b, the cylindrical member 4 inserted into the inner peripheral surface of the opening 3 is used. Since there is no gap between the outer peripheral surface of the cylindrical member 4 or the gap is very narrow even if there is a gap, the cylindrical member 4 is in a state of being in contact with or substantially in contact with the inner peripheral surface of the opening 3. The member 4 can be bonded to the inner peripheral surface of the opening 3. As a result, the sheet material or the like forming the opening 3 at the time of bonding is excessively stretched and thinned to generate pinholes, or troubles such as slipping of the cylindrical member 4 due to poor bonding are prevented. The cylindrical member 4 is bonded to the inner peripheral surface of the opening 3 while maintaining good liquid tightness and mechanical strength.
[0017]
The gradually narrowed inclined shape in the gradually decreasing portion 6a of the opening 3 may be a linear shape or a substantially linear shape as shown in FIG. 1, or inside the opening 2 as shown in FIG. The shape may be slightly curved.
[0018]
The inner peripheral dimension of the portion (that is, the inlet) 5 located at the outer edge of the bag body in the opening 3 depends on the depth dimension of the opening 3, the length and material of the tubular member 4, the material of the bag body 1, the flexibility, and the like. However, it is generally 1.1 to 2.0 times the outer peripheral dimension of the cylindrical member 4, the ease of insertion of the cylindrical member 4, the cylindrical member 4 is inserted. It is preferable from the point of subsequent adhesiveness, and more preferably 1.2 to 1.8 times.
Further, the inner peripheral dimension of the narrow portion (the part including the minimum inner peripheral dimension) 6b in the opening 3 is such that the cylindrical member 4 is bonded to the inner peripheral surface of the opening 3 so that the inner peripheral surface is extremely thin. It is 0.98 to 1.1 times the outer circumferential dimension of the cylindrical member from the viewpoint that it can be smoothly performed without generating pinholes due to the formation of, and without slipping of the cylindrical member 4 due to poor adhesion. Preferably, it is 1.0 to 1.05 times.
Furthermore, the distance L from the inlet 5 of the opening 3 to the narrow portion 6b can be adjusted according to the overall length and diameter of the tubular member 4, the material of the tubular member 4 and the bag body 1, etc. Is preferably about 5 to 30 mm, more preferably 10 to 20 mm.
[0019]
About the cylindrical member 4, the outer periphery dimension (outer diameter), an internal diameter, thickness, length, etc. can be suitably selected according to the kind of liquid storage bag, a size, a use, the material of the cylindrical member 4, etc. In general, however, the outer diameter is preferably 5 to 30 mm, the inner diameter is 4 to 29 mm, the wall thickness is 0.1 to 2 mm, and the length is preferably 10 to 100 mm.
[0020]
In the liquid storage bag of the present invention, the innermost portion of the opening 3 (the exit portion of the opening 3 viewed from the insertion direction of the tubular member 4) 7 may be sealed with a corner shape. An arc shape without a corner as illustrated in FIG. Gradually The liquid in the bag body 1 is sealed in the next enlarged state. Excessive It is preferable because the seal breakage in the seal portion 2 of the bag main body 1 is prevented when the pressure is applied.
[0021]
Adhesion of the cylindrical member 4 to the inner peripheral surface of the opening 3 is performed at a location including the narrow portion 6b as described above. At this time, if the cylindrical member 4 is bonded at a location including the narrow portion 6b, the cylindrical member 4 is slightly deviated from the narrowest portion of the narrow portion 6b even if it is bonded at the narrowest portion of the narrow portion 6b. In addition, it may be bonded at a slightly outside location (location near the entrance side of the opening 3). In particular, when the cylindrical member 4 is adhered to the inner peripheral surface of the opening 3 at a position slightly outside the narrowest portion in the narrow portion 6b, the narrowest portion receives the repulsion generated inside the bag, Since the generation | occurrence | production of the pinhole in the bag inner side edge part of an adhesion part can be suppressed effectively, it is preferable. This is particularly noticeable when adhesion by heat sealing described later is performed.
[0022]
Bonding of the cylindrical member 4 to the inner peripheral surface of the opening 3 may be performed by adhesive or solvent bonding, but is performed by heat sealing (fusion) to facilitate adhesion, operability, and hygiene. It is preferable from the viewpoint of sex. The inner surface of the material (sheet or the like) constituting the bag body forming the opening 3 is formed from at least a heat-sealable material, and if necessary, the outer peripheral surface of the tubular member 4 is also heat-sealable. In this way, the cylindrical member 4 can be heat-sealed well to the inner peripheral surface of the opening 3.
At this time, the heat seal width d in the depth direction and the heat seal width w in the lateral direction of the tubular member 4 (see FIG. 1C) are the inclination angle of the opening 3 and the outside of the tubular member 4. Although it can be adjusted according to the diameter, the inner peripheral size of the narrow portion 6b, etc., generally, d is about 2 to 20 mm, and w is about 6 to 50 mm. It is preferable in terms of liquid tightness.
[0023]
The heat sealing of the cylindrical member 4 to the inner peripheral surface of the opening 3 can be performed in the same manner as conventionally known methods. For example, as illustrated in FIG. 3, in a state where the cylindrical member 4 is inserted into the opening 3, the sheet portions 3 a and 3 b corresponding to the opening 3 with the insertion position of the cylindrical member 4 being the center, and This can be done by sandwiching the left and right bag body seal portions 9a, 9b between the upper and lower molds 10a, 10b and pressurizing them. At this time, in order to prevent the tubular member 4 from being deformed or crushed, a core pin (core metal) 11 may be inserted into the tubular member 4 as necessary to perform fusion.
The heating method for heat-sealing (fusing) the cylindrical member 4 in the opening 3 is not particularly limited, and the material of the sheet material that forms the bag body 1 including the opening 3, the cylindrical member 4. Depending on the material, for example, high-frequency dielectric heating, high-frequency induction heating, ultrasonic heating, direct heating with a heated mold, or the like can be performed.
[0024]
In manufacturing the liquid storage bag of the present invention, the peripheral edge other than the peripheral edge to which the cylindrical member is attached and the seal of the easy peelable partition are performed in advance before the cylindrical member is inserted and bonded to the opening. Alternatively, it may be performed after the cylindrical member is inserted and bonded to the opening. Sealing of the peripheral part of the bag body and the easy peelable partition provided as necessary may be done by adhesive or solvent bonding, but at least the inner surface of the sheet or hollow container forming the bag body is heat-sealable It is preferable that the material is formed from a material and is heat-sealed from the viewpoints of heat-sealability, productivity, hygiene, and the like.
[0025]
In the liquid storage bag of the present invention, the material of the bag body is not particularly limited, and may be made of a flexible and liquid-impermeable material. However, the flexible thermoplastic polymer material does not contain halogen. It is preferable that it is formed from. Examples of the thermoplastic polymer material for forming the bag body include polyolefins such as polyethylene, polypropylene, ethylene-propylene copolymer, ethylene-vinyl acetate copolymer, and cross-linked ethylene-vinyl acetate copolymer, Polyester such as polyethylene terephthalate and polybutylene terephthalate, polyurethane, polyamide, polyamide thermoplastic elastomer, polyester thermoplastic elastomer, styrene thermoplastic elastomer, natural rubber, isoprene rubber, butadiene rubber, styrene-butadiene rubber, silicone rubber, etc. The bag body can be formed from one or more of them.
Among them, the bag body is made of polyethylene, polypropylene, a mixture of polyethylene and polypropylene, polypropylene and , Styrene elastomer and Olefin elastomer With one or both of The cylindrical member 4 inserted into the opening 3 is that it is excellent in heat sealability in the peripheral part of the bag body or in the easy-peeling partition wall. It is preferable from the viewpoints that it can be easily attached to the inner peripheral surface of the opening 3 by thermal fusion, is excellent in safety and hygiene, and is transparent.
In particular, the present invention functions remarkably when the elasticity of the sheet constituting the bag body is low and the stress applied to the end portion of the fused portion increases due to deformation of the sheet.
[0026]
The bag body may be composed of a single layer of the above-described thermoplastic polymer material, a multilayer structure in which two or more of the above-mentioned thermoplastic polymer materials are laminated, or the above-mentioned thermoplastic polymer. You may consist of the multilayer structure of one layer or two or more layers of material, and other layers, such as metal foil and a metal vapor deposition layer, for example.
[0027]
When the liquid storage bag of the present invention is a multi-chamber bag, the bag body is made of polypropylene. , Styrene elastomer and Olefin elastomer With one or both of Or a mixture of two or more kinds of resins such as a mixture of polyethylene and polypropylene, the sheet material made of the above mixture is stacked up and down to form the peripheral portion of the bag body. By heat-sealing the part at a high temperature and heat-sealing the partition part for partitioning into multiple chambers at a lower temperature, the peripheral part is firmly heat-sealed and the isolated part is easily released by applying external force Thus, an easy peel multi-chamber bag that can be communicated with each other can be easily manufactured.
[0028]
The cylindrical member is preferably formed from a polymer material that is not easily deformed or crushed. Examples of such a polymer material include polyolefins such as polyethylene, polypropylene, poly 1,2-butadiene, polystyrene, Examples include poly- (4-methylpentene-1), polycarbonate, ABS resin, acrylic resin, polyacetal resin, polyarylate, polyacrylonitrile, polyethylene terephthalate, polybutylene terephthalate, and polyamide. Among them, the cylindrical member is preferably formed of polyethylene, polypropylene, polyester, or hard polyvinyl chloride from the viewpoint of fusion with the bag body, safety, and the like. and polypropylene One or both of More preferably, it is formed from.
[0029]
As long as the above-described method for attaching the tubular member of the present invention is adopted, the manufacturing method of the bag body is not particularly limited. For example, the sheet made of the thermoplastic polymer material described above is cut into an appropriate shape and size. A cylindrical molded body with a bottom by stacking all the peripheral edges and, if necessary, heat-sealing the easy-peeling partition walls excluding the port mounting opening, extrusion blow molding, injection blow molding, etc. A heat-sealed method of removing the opening except for the opening for attaching the port, and a cylindrical molded body that is open at the top and bottom by the inflation molding method. Examples of the method include heat sealing and the like.
[0030]
Similarly to the conventional liquid storage bag, the liquid storage bag of the present invention may have a hole for hanging the bag, a gripping part for facilitating transport of the bag, and the like as necessary.
[0031]
【Example】
EXAMPLES The present invention will be specifically described below with reference to examples and the like, but the present invention is not limited to the following examples.
[0032]
Example 1
(1) A polypropylene cylindrical sheet manufactured by extrusion molding (inner diameter 67 mm, sheet thickness 300 μm) is flattened, and a portion corresponding to the bottom 12 is heat-sealed to form a seal portion 12. After the heat-sealing of the open end portion, leaving a part of the opening 3 for inserting the tubular member 4, it was cut to a length of 29 cm to form the bag body 1 shown in FIG.
The shape and size of the opening 3 at that time are as follows: the inner peripheral size of the outer edge (inlet for inserting the tubular member 4) 5 of the bag body is 18 mm, the inner peripheral size of the narrow portion 6b is 13.5 mm, The distance L between the (inlet) 5 and the narrow portion 6b was 15 mm, and the curvature radius R of the lowermost portion (arc-shaped portion) 7 of the opening 3 was 5 mm.
(2) Polypropylene cylindrical member 4 [outer diameter 15 mm (outer dimension 47 mm), wall thickness 1.8 mm, length 47 mm] is inserted into the opening 3 of the bag body produced in (1) above. Is inserted so as to protrude inward of the bag body from the narrow portion 6b of the opening 3 [FIG. 4 (b)], and the mold temperature is determined using the heating mold having the structure shown in FIG. 200 ° C, surface pressure 25kg / cm ² Under the conditions, the width d and w of the heat seal portion 8 are 8 mm and 36 mm, respectively, in the portion including the narrow portion 6b (however, a portion slightly outside the narrowest portion in the narrow portion 6b). The cylindrical member 4 is heat-sealed across the cylindrical member 4 and on both sides thereof, and the cylindrical member 4 is heat-sealed (fused) to the opening 3 to provide an infusion bag with the cylindrical member. It produced [(c) of FIG. 4].
(3) In the mounting operation of the cylindrical member 4 of (2) above, the inner peripheral dimension of the inlet 5 of the opening 3 is larger than the outer peripheral dimension of the cylindrical member 4 and the inner peripheral surface of the opening 3 is By gradually narrowing inward, the first insertion operation of the cylindrical member 4 into the opening 3 can be performed very easily and smoothly, and the inserted cylindrical member 3 can be inserted into the opening 3. It was possible to make good entry to a predetermined position.
(4) Moreover, in the infusion bag with a cylindrical member obtained in the above (2), pinholes associated with ultrathinning are not generated in the mounting portion of the cylindrical member, and the cylindrical member mounting portion The liquid-tightness and mechanical strength of were kept good.
[0033]
【The invention's effect】
In the present invention, a portion (on the outer side of the bag body for inserting the cylindrical member into the opening) of the non-sealed opening for attaching the cylindrical member provided on a part of the peripheral seal portion of the liquid storage bag. The inner peripheral dimension of the inlet) is formed to be larger than the outer peripheral dimension of the cylindrical member, and the opening of the opening is greatly opened, so that the operation of inserting the cylindrical member into the opening becomes extremely easy. Even if there is a slight misalignment between the cylindrical member to be inserted and the opening, the cylindrical member can be smoothly inserted into the opening.
Moreover, in the present invention, since the inner circumferential dimension of the opening is an inclined shape that gradually decreases from the outer edge of the bag body toward the inside at the gradually decreasing portion, the cylindrical member inserted into the opening Is guided to the inclined inner peripheral surface of the gradually decreasing portion in the opening, smoothly enters the narrow portion at the back of the opening, and is easily disposed at a predetermined position in the opening.
Therefore, in the present invention, the bag body is made of an olefin polymer, a polyester polymer, a polyolefin thermoplastic elastomer, a styrene, which is less elastic and stretchable than soft polyvinyl chloride but does not contain halogen and is excellent in safety. Even when formed from a thermoplastic elastomer or the like, the cylindrical member can be inserted into the opening very smoothly.
[0034]
In addition, in the present invention, the cylindrical member has the above-described specific shape with the tip of the cylindrical member located at the same position as the narrow portion of the opening or protruding inward of the bag body from the narrow portion. Since the cylindrical member is bonded to the inner peripheral surface of the opening at the location including the narrow portion in the opening in that state, the outer peripheral surface of the inserted cylindrical member and the inner periphery of the opening Even if there is no gap between the surfaces, or there is a gap, the cylindrical member is adhered to the inner peripheral surface of the opening in a very narrow state. Therefore, troubles such as generation of pinholes accompanying thinning due to excessive thinning of the bag body material forming the opening at the time of bonding and slipping of the cylindrical member due to poor adhesion are prevented, and the cylindrical member The liquid-tightness and mechanical strength of the mounting portion of the are kept good.
[Brief description of the drawings]
FIG. 1 is a diagram showing an outline of a port mounting method according to the present invention.
FIG. 2 is a diagram showing an example of the shape of a port attachment opening in the liquid storage bag of the present invention.
FIG. 3 is a view showing an example of a mold used for bonding a cylindrical member inserted into a non-sealing opening for port attachment to the opening.
FIG. 4 is a diagram showing a method for manufacturing an infusion bag with a port according to Example 1 of the present specification.
FIG. 5 is a diagram illustrating a method of attaching a port to a conventional liquid storage bag.
[Explanation of symbols]
1 Bag body
2 Perimeter seal of bag body
3 Unsealed opening
4 Tubular member
5 Site located at the outermost side of the opening (inlet)
6a Gradually decreasing part at the opening
6b Narrow part at the opening
7 The innermost part of the opening
8 Heat seal part
9a Bag body seal
9b Bag body seal
10a Mold
10b Mold
10c Edge of mold
10d Mold edge
11 Core pins
12 Sealing part
13 Bottom

Claims (10)

The opening formed in the non-seal-like provided in a part of the peripheral seal portion of the bag body, by bonding the cylindrical member by inserting the tubular member which is preformed in a liquid-tight manner to the opening In the liquid storage bag having a cylindrical member, the inner peripheral dimension of the opening is larger than the outer peripheral dimension of the cylindrical member at the outer edge of the bag main body, and as it goes inward from the outer edge of the bag main body. and decreasing portions which gradually decreases, and a narrow portion having an inner peripheral dimension substantially equal to the outer peripheral dimension of the tubular member provided continuously to the tapering portion, the distal end of the tubular member is the opening It protrudes bag body side than or the narrow portion at the same position as the narrow part of the section, the cylindrical member, or the narrowest point of the narrow portion of the opening, or the narrow portion of the opening And the narrowest part of the narrow part Liquid storage bags a portion of the outboard as the lower end of the heat sealed portion, characterized in that it is bonded to the liquid-tight by thermal sealing to the opening than at. The inner peripheral dimension of the outer edge of the bag body of the opening is 1.1 to 2.0 times the outer peripheral dimension of the tubular member, and the inner peripheral dimension of the narrow portion of the opening portion of the outer peripheral dimension of the tubular member The liquid storage bag according to claim 1 , which is 0.98 to 1.1 times. The opening formed in the non-seal shape, site located bag body side from the narrow portion of the said opening is the opening where the inner peripheral dimensions while an arc shape is enlarged gradually following manner The liquid storage bag according to claim 1 or 2 . The liquid storage bag according to any one of claims 1 to 3 , wherein the bag body is formed of a polymer containing no halogen or a composition thereof. Polymers containing no halogen, olefinic polymers, polyester polymers, is a styrene-based thermoplastic elastomer, polyolefin thermoplastic elastomer, one polyester-based thermoplastic elastomer and polyamide thermoplastic elastomer or two or more The liquid storage bag according to claim 4 . Some of the peripheral seal portion of the bag body is provided with a non-seal-shaped opening for inserting a tubular member which is preformed in a liquid tight manner by inserting the tubular member into the opening by heat sealing large a method of mounting the tubular member into the liquid storage bag to adhere, the opening formed in the non-seal-like, than the outer peripheral dimension of the tubular member at the outer edge of the inner peripheral dimension bag body and has a narrow portion having an inner peripheral dimension substantially equal to the outer peripheral dimension of the tubular member provided continuously to the decreasing portion and the tapering portion which is gradually reduced in accordance with direction from the outer edge of the bag body inside Te a shape, after the leading end of the tubular member to the opening portion is inserted so as to protrude into the bag body side than or the narrow portion at the same position as the narrow portion of the opening, the cylindrical The part in front Or the narrowest point of the narrow portion at the opening, or as the lower end of the heat seal portion of the portion of the outboard than the narrowest point of and the narrow section a narrow portion of the opening, by thermal sealing to the opening A method for attaching a cylindrical member to a liquid storage bag, wherein the cylindrical member is adhered in a liquid-tight manner. The inner peripheral dimension of the outer edge of the bag body of the opening is 1.1 to 2.0 times the outer peripheral dimension of the tubular member, and the inner peripheral dimension of the narrow portion of the opening portion of the outer peripheral dimension of the tubular member The attachment method of the cylindrical member according to claim 6 which is 0.98 to 1.1 times. Wherein provided on the bag body unsealed shaped opening is the opening site located bag body side from the narrow portion of the opening portion inner peripheral dimensions while an arc shape is enlarged gradually following manner The attachment method of the cylindrical member of Claim 6 or 7 . The attachment method of the cylindrical member of any one of Claims 6-8 in which the said bag main body is formed from the polymer or its composition which does not contain a halogen. Polymers containing no halogen, olefinic polymers, polyester polymers, is a styrene-based thermoplastic elastomer, polyolefin thermoplastic elastomer, one polyester-based thermoplastic elastomer and polyamide thermoplastic elastomer or two or more The attachment method of the cylindrical member of Claim 9 .

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