JP5804613B2 - Medical cap and method for manufacturing the same - Google Patents

Description

  The present invention relates to a medical cap used for drug containers such as infusion containers, blood collection tubes and vials, and a method for producing the same. In particular, the present invention relates to a medical cap provided with an elastic stopper that can be inserted into a needle for medical use and a method for manufacturing the same.

  In order to be able to take out the drug solution with a needle, the drug container used in the medical field, such as a drug solution bottle or an infusion bottle for infusion, has a rubber plug or an elastic plug (for example, inside the outer frame). , Rubber, elastomer resin, etc.) are used. In the latter cap, the outer frame is attached by welding or the like to the mouth of the drug container. Then, at the time of use, an infusion needle in the container is taken out through the take-out tube by inserting an injection needle equipped with a take-out tube into the elastic plug, placing the drug container on the upper side, and placing the cap on the lower side. In addition, such a medical cap is required to have hermeticity in order to prevent leakage of chemicals and infusions and to prevent deterioration due to contact with air.

  As the medical cap, for example, the liquid contact surface of the elastic plug body and the upper portion of the bottom surface holding portion of the outer frame body are fused, and the side surface portion of the elastic plug body and the side periphery of the outer frame body The thing of the structure which contacts the inner wall of a part in the non-fusion | fusion state is proposed (refer the following patent document 1). According to Patent Document 1, it is disclosed that rubber characteristics are improved and resealability can be improved.

  However, in the case of a conventional medical cap, the close contact between the elastic plug body and the outer frame body may not be sufficient. In such a medical cap, the position of the elastic stopper body and the outer frame body shifts during needle sticking, and a gap is created between them. For this reason, the second needle is stuck, or needle sticking is performed again. There is a problem that it is difficult to do.

  In order to solve the above problem, Patent Document 2 discloses a medical cap in which the liquid contact surface of the elastic plug body has a convex slope toward the center of the circle. Since the medical cap is in a state where pressure is applied from the outer frame body to the horizontal component of the elastic plug body, it is possible to improve resealability and prevent needle removal.

  Patent Document 3 below discloses a method for manufacturing a composite material molded product in which a hard plastic is melt-injected and pressed so as to surround an outer edge of a thermoplastic elastomer molded product. According to the manufacturing method, it is described that the thermoplastic elastomer molded product is fitted in a state in which it is subjected to compressive stress from a hard plastic, thereby improving airtightness and liquid tightness.

  However, even the medical caps disclosed in Patent Documents 2 and 3 have a problem that the prevention of the occurrence of liquid leakage and needle dropout is insufficient.

JP-A-2005-118185 JP-A-8-317961 JP 2000-167865 A

  The present invention has been made in view of the above problems, and an object of the present invention is a medical cap having an elastic plug and a support that holds the elastic plug inside. In addition, the present invention is to provide a medical cap excellent in securing sealing properties, such as excellent retention force and restoring force against needle removal, and a method for manufacturing the same.

  The inventors of the present application have studied a medical cap and a manufacturing method thereof in order to solve the conventional problems. As a result, the inventors have found that the object can be achieved by adopting the following configuration, and have completed the present invention.

  That is, the medical cap according to the present invention is a medical cap that includes an elastic plug and a support that holds the elastic plug inside, in order to solve the above-described problems. An internal wall that surrounds and accommodates the elastic plug and an external wall that surrounds the internal wall, and an internal plug having an annular wall is press-fitted into the gap between the internal wall and the external wall. The elastic plug body is characterized in that pressure is applied from the inner wall by press-fitting the annular wall.

  According to the above configuration, since the annular wall of the inner plug is press-fitted into the gap between the outer wall and the inner wall of the support body, the elastic plug body surrounded and accommodated by the inner wall, Pressure is applied from the periphery. Thereby, the adhesiveness of an elastic stopper and an internal wall improves, for example, when performing needle stick, it can prevent that a liquid leak generate | occur | produces. In addition, the holding force and the restoring force against needle removal are excellent, and the resealability after needle removal can be improved. In the above configuration, since the annular wall of the inner plug is press-fitted without contacting the elastic plug, the elastic plug is not deformed by friction during press-fitting. As a result, the displacement of the elastic plug body can be prevented. The “press fit” means that the annular wall of the inner plug is forcibly inserted into the gap between the outer wall and the inner wall, and the annular wall is fitted while applying pressure to the outer wall and the inner wall.

  In the above-described configuration, it is preferable that at least one notch is provided on the inner wall of the support. With this configuration, the inner wall can be deformed in a direction in which the diameter is reduced by press-fitting the annular wall of the inner plug into the gap between the inner wall and the outer wall of the support. Thereby, it becomes possible to more effectively transmit the pressure due to the press-fitting of the annular wall to the elastic plug body through the inner wall, and to further improve the adhesion between the inner wall and the elastic plug body. it can.

  In the above-described configuration, it is preferable that a mounting portion for mounting the elastic plug is provided on the bottom of the inner wall of the support. With this structure, since the elastic plug is supported by the mounting portion, when the annular wall of the inner plug is press-fitted into the gap between the inner wall and the outer wall of the support, the elastic plug is Can be prevented from being pushed out of the support.

  In order to solve the above problems, a method for producing a medical cap according to the present invention is a method for producing a medical cap having an elastic plug and a support that holds the elastic plug inside. Producing the support comprising an inner wall for enclosing and housing the elastic plug and an outer wall surrounding the inner wall, and press-fitting into a gap between the inner wall and the outer wall of the support A step of producing an inner plug having an annular wall that can be made, a step of housing the elastic plug inside the inner wall of the support, and an inner wall and an outer wall of the support And a step of press-fitting an annular wall of the inner plug into the gap.

  In the above-described method, a support body including an inner wall for surrounding and housing the elastic plug body and an outer wall surrounding the inner wall is manufactured, while an inner plug including an annular wall is also manufactured. . Subsequently, the elastic plug is accommodated in the inner wall. In the present invention, the annular wall of the inner plug is forcibly inserted (press-fitted) into the gap between the outer wall and the inner wall of the support. . By this press-fitting, the annular wall of the inner plug applies pressure to the outer wall and the inner wall of the support, and for example, the inner wall can be deformed in a direction in which the diameter decreases. As a result, pressure can be applied to the elastic plug body accommodated in the inner wall via the inner wall. At this time, since the annular wall of the inner plug does not come into contact with the elastic plug body, the elastic plug body is not deformed by friction during press-fitting. As a result, the displacement of the elastic plug body can be prevented, and the production efficiency can be improved. Moreover, since the medical cap produced by the above method has excellent adhesion between the elastic plug and the inner wall, the occurrence of liquid leakage can be prevented even when needle sticking is performed. Furthermore, the holding force and the restoring force against needle removal are excellent, and the resealability after needle removal can be improved.

  The medical cap of the present invention includes an elastic plug and a support that holds the elastic plug inside. The support surrounds and houses the elastic plug, and the internal wall. And an inner plug having an annular wall is provided by press-fitting the annular wall into a gap between the inner wall and the outer wall. As a result, pressure is applied to the elastic plug body from the inner wall, so that the adhesion between the elastic plug body and the inner wall is improved. For example, liquid leakage also occurs when needle piercing the elastic plug body. Can be prevented. Moreover, it is excellent in holding force and restoring force against needle removal, and can further improve resealability after needle removal.

  Further, since the annular wall of the inner plug is press-fitted into the gap between the inner wall and the outer wall, it is not brought into contact with the elastic plug body. Therefore, since unnecessary friction and resistance are not given to the elastic plug body, it is possible to prevent deformation of the elastic plug body and displacement of the elastic plug body due to these.

BRIEF DESCRIPTION OF THE DRAWINGS It is a cross-sectional schematic diagram for demonstrating the medical cap which concerns on one Embodiment of this invention, Comprising: The figure (a) represents a support body, the same figure (b) is an elastic plug body inside the said support body. (C) shows a state in which an inner plug is press-fitted into the support. It is a cross-sectional schematic diagram for demonstrating the other medical cap of this invention, Comprising: The inner plug represents the medical cap provided with the diaphragm part. It is a cross-sectional schematic diagram for demonstrating the other medical cap of this invention. It is a cross-sectional schematic diagram for demonstrating the other medical cap of this invention. It is a cross-sectional schematic diagram for demonstrating the other medical cap of this invention. It is a cross-sectional schematic diagram for demonstrating the other medical cap of this invention, Comprising: The support body represents the medical cap provided with the diaphragm part.

(Medical cap)
An embodiment of the present invention will be described below with reference to FIG. However, parts that are not necessary for the description are omitted, and there are parts that are illustrated in an enlarged or reduced manner for easy explanation. FIG. 1 is a schematic cross-sectional view for explaining a medical cap according to the present embodiment. FIG. 1 (a) shows a support, and FIG. 1 (b) shows an elastic plug inside the support. The state which accommodated the body is represented, The figure (c) represents the state which press-fitted the inner plug into the said support body.

As shown in FIG. 1, the medical cap 10 according to the present embodiment includes at least a support body 1, an elastic plug body 2, and an inner plug 3.
The support 1 can hold the elastic plug 2 inside, specifically, an inner wall 12 that surrounds and accommodates the elastic plug 2, and an outer wall 11 that surrounds the inner wall 12. At least integrally.

  The inner wall 12 is preferably provided with a notch portion 14 as shown in FIG. Thereby, it becomes easy to deform the inner wall 12 in the direction in which the diameter decreases. It is sufficient that the cutout portion 14 is provided at least at one place on the inner wall 12. However, when a plurality of cutout portions 14 are provided, it is preferable to arrange the cutout portions 14 so as to form a pair on a diagonal line. Thereby, it is possible to uniformly deform the inner wall 12 in the same direction, and it is possible to prevent the pressure applied to the elastic plug body 2 from being biased. However, the present invention may be an annular inner wall in which the notch portion 14 is not provided. In this case, the inner wall 12 is preferably thinner than the outer wall 11. This facilitates the deformation of the inner wall in the direction in which the diameter decreases. Specifically, the thickness of the inner wall 12 in the case where the notch 14 is provided is preferably within a range of 0.1 mm to 2.5 mm, and more preferably within a range of 0.2 mm to 1 mm. Further, the thickness of the inner wall 12 when the notch 14 is not provided is preferably within a range of 0.1 mm to 2 mm, and more preferably within a range of 0.2 mm to 0.8 mm.

  Moreover, the depth of the notch of the notch 14 is not particularly limited, and may reach the bottom of the inner wall 12 as shown in FIG. Moreover, you may change to arbitrary depth corresponding to the thickness of the inner wall 12 suitably. Further, the notch shape of the notch portion 14 is a rectangular shape in FIG. 1A, but is not particularly limited as long as the inner wall 12 can be deformed in a direction in which the diameter decreases. Is not to be done.

  The height of the inner wall 12 is not particularly limited, but when the elastic plug body 2 is accommodated therein as shown in FIG. 1 (b), it is preferably the same as or higher than the height of the elastic plug body 2. . Thereby, the inner wall 12 can be accommodated so as to cover the entire side peripheral surface 23 of the elastic plug body 2, and pressure can be effectively applied to the elastic plug body 2. Specifically, the height of the inner wall 12 is preferably in the range of 2.5 mm to 14 mm, and more preferably in the range of 3 mm to 11 mm.

  Further, the shape of the inner wall 12 is not particularly limited. For example, as shown to Fig.1 (a), the shape where the cross-sectional shape of the internal wall 12 becomes taper toward the top part may be sufficient. As a result, the gap with the external wall 11 can be widened at the top and narrowed toward the bottom. As a result, it is possible to facilitate the press-fitting of the annular wall 31 of the inner plug 3 and to ensure the fitting into the gap. On the other hand, the thickness of the bottom of the inner wall 12 may be equal to or thinner than the top. As a result, the pressure applied to the elastic plug 2 can be increased even at the bottom of the inner wall 12. In addition, the thickness of the inner wall 12 shall be suitably set within the aforementioned numerical range.

  In addition, on the bottom portion of the inner wall 12, a mounting portion 13 that allows the elastic plug body 2 to be mounted is provided. Further, the mounting portion 13 is provided so as to project from the inner wall 12 in the center direction. Thereby, the peripheral part of the needle piercing surface 22 of the elastic stopper 2 can be supported. As a result, when the annular wall 31 of the inner plug 3 is press-fitted into the gap between the outer wall 11 and the inner wall 12, the elastic plug body 2 can be prevented from being pushed out of the support body 1. Furthermore, the mounting portion 13 may be provided with an annular ridge portion 15 that enables fitting with the elastic plug body 2. Thereby, position shift and dropping of the elastic plug body 2 can be further prevented. In the present embodiment, the case where the mounting portion 13 is annular is illustrated, but the present invention is not limited to this. For example, the aspect which provided the several mounting part with the predetermined space | interval may be sufficient. In this case, the separation distance between the adjacent placement portions is not particularly limited as long as the elastic plug body 2 can be supported to the extent that the annular plug wall is not pushed out from the support body 1 when the annular wall of the inner plug 3 is press-fitted. .

  A locking portion 16 for maintaining the inner plug 3 after press-fitting in that state may be provided on the top of the outer wall 11. Thereby, it is possible to prevent the inner plug 3 from being pushed out of the support 1. Further, in FIG. 1A, as the locking portion 16, a shape in which an annular shape protrudes in the direction toward the inside of the support 1 at the top of the outer wall 11 is illustrated. Is not limited to this. For example, the locking portion 16 may be one in which one or more convex shapes projecting in the direction toward the inside at the top of the outer wall 11 are arranged at a predetermined interval.

  Further, as shown in FIG. 1 (a), the outer wall 11 has an outer wall 11 at the top of the outer wall 11 for facilitating bonding with a mouth portion of a drug container such as an infusion container, a blood collection tube, or a vial. You may provide the flange part 17 projected on the outer side.

  The height of the outer wall 11 is preferably higher than the inner wall 12. This is because when it is lower than the inner wall 12, the inner wall 12 may obstruct the attachment when the medical cap 10 is attached to the mouth of the medicine container. Specifically, the height of the outer wall 11 is preferably in the range of 4 mm to 20 mm, and more preferably in the range of 5 mm to 18 mm. Although the thickness of the outer wall 11 is not particularly limited, it is preferably thicker than the inner wall 12 from the viewpoint of maintaining the shape of the support 1 even when the inner plug 3 is press-fitted. Specifically, the thickness of the outer wall 11 is preferably in the range of 0.3 mm to 3 mm, and more preferably in the range of 0.4 mm to 2 mm.

  The distance between the outer wall 11 and the inner wall 12 can be appropriately set according to the shape of the annular wall 31 of the inner plug 3 to be described later. Specifically, it is preferably in the range of 0.3 mm to 5 mm, and more preferably in the range of 0.5 mm to 2 mm. Further, the gap distance may be narrowed toward the bottom of the outer wall 11 and the inner wall 12 within the numerical range. Thereby, the press-fitting of the annular wall 31 can be facilitated.

  The material constituting the support 1 may be any synthetic resin that has established safety for medical use. Of these, a thermoplastic resin is generally used. Specifically, resins conventionally used for medical use such as polyethylene, polypropylene, and PET (polyethylene terephthalate) resin are preferable, but are not limited thereto.

  The elastic plug 2 is preferably accommodated in the inner wall 12 of the support 1 with the liquid contact surface 21 facing upward and the needle piercing surface 22 facing downward. The liquid contact surface 21 refers to a surface in contact with a chemical solution or the like. Further, the needle puncture surface 22 means a surface on which needle puncture is performed with an injection needle when the medical cap 10 according to the present embodiment is attached to a drug container and a drug solution or the like is taken out.

  Further, the overall shape of the elastic plug 2 is not particularly limited, but, for example, a cylindrical shape shown in FIG. Moreover, it is preferable that an annular groove 24 that can be fitted to the annular protrusion 15 is provided on the needle piercing surface 22 side of the elastic plug body 2. The diameter of the elastic plug 2 is not particularly limited as long as it can be accommodated in the inner wall 12 of the support 1. However, if the diameter of the elastic plug 2 is too small, the annular wall 31 of the inner plug 3 may be press-fitted into the gap between the outer wall 11 and the inner wall 12, and the inner wall 12 may be deformed in a direction in which the diameter decreases. Since it becomes difficult to make it contact | adhere with the side peripheral surface 23 of the elastic plug body 2, it is not preferable. The shape of the elastic plug body 2 is not limited to the form shown in FIG. 1B. For example, both the needle puncture surface and the liquid contact surface may be a flat elastic plug body. Good. In addition, an elastic stopper provided with at least one stepped stepped portion on the needle puncture surface side may be used to prevent the dropout.

  The characteristic of the elastic plug body 2 is not particularly limited as long as it has a hardness that allows a medical injection needle or the like to pass therethrough. Moreover, what has a shape retainability of the grade which does not deform | transform easily or break at the time of normal storage is preferable. The hardness of the elastic plug body 2 is preferably A5 to A50, more preferably A10 to A45, as measured by JIS K6253 method.

  Examples of the material used for the elastic plug 2 include rubber and thermoplastic elastomer. The rubber is not particularly limited, and examples thereof include natural rubber, isoprene rubber, butadiene rubber, styrene-butadiene rubber, and isoprene-isobutylene rubber. Moreover, it does not specifically limit as a thermoplastic elastomer, For example, an olefin type, a styrene type, a polyurethane type, a polyester type, a polyvinyl chloride type, a polybutadiene type etc. can be illustrated. Among them, thermoplastic elastomers (SEBS, SEPS, HSBR, SEBR, CEBC) obtained by hydrogenating conjugated diene-based thermoplastic elastomers are preferable.

  Moreover, the diameter of the elastic plug body 2 is not specifically limited, Usually, it sets within the range of 10 mm-30 mm. Furthermore, the diameter of the elastic plug body 2 is preferably set to be smaller than the inner diameter of the inner wall 12 of the support body 1 in the range of 0.03 mm to 1 mm. Thereby, the ease of insertion of the elastic plug 2 inside the inner wall 12 is ensured. Furthermore, the thickness of the elastic plug 2 is not particularly limited as long as it is the same as or smaller than the inner wall 12, but preferably 2.5 mm to 12 mm, more preferably 3 mm to 9 mm. The depth of the annular groove 24 provided on the side of the needle puncture surface 22 is not particularly limited, but is preferably in the range of 0.2 mm to 2 mm, more preferably 0.3 mm to 1.5 mm.

  The method for producing the elastic plug body 2 is not particularly limited, and for example, it can be produced by compression molding or injection molding performed while crushing the thermoplastic elastomer.

  The inner plug 3 may have at least an annular wall 31 for press-fitting into the gap between the outer wall 11 and the inner wall 12 in the support 1. Moreover, it is preferable that it is the shape and magnitude | size which can be accommodated in the inside of the support body 1. FIG. Further, the height of the annular wall 31 is preferably equal to or smaller than the depth of the gap between the outer wall 11 and the inner wall 12. When the height of the annular wall 31 is larger than the depth of the gap between the outer wall 11 and the inner wall 12, the inner plug 3 is accommodated in the support 1 when being pressed into the gap between the outer wall 11 and the inner wall 12. It becomes difficult. Specifically, the height of the annular wall 31 is preferably in the range of 2.5 mm to 14 mm, and more preferably in the range of 3 mm to 11 mm. In addition, the height of the annular wall 31 means the height from the support part 34 mentioned later.

  Moreover, it is preferable that the inner plug 3 is provided with a support portion 34 for preventing the elastic plug body 2 from dropping from the support body 1 or coming off. Thereby, it is possible to prevent the elastic plug body 2 from being pushed out toward the liquid contact surface 21 due to the press-fitting of the inner plug 3. The thickness and the inner diameter of the support portion 34 are not particularly limited as long as the elastic plug body 2 can be sufficiently supported. However, if the inner diameter is too small, the needle sticking area when needle sticking to the elastic plug body 2 becomes too small, which is not preferable. The support portion 34 is preferably provided in an annular shape on the inner surface of the annular wall 31, but the present invention is not limited to this. For example, a structure in which a plurality of support portions are provided at a predetermined interval may be used. In this case, the separation distance between the adjacent support portions is not particularly limited as long as the elastic plug body 2 can be supported to such an extent that it is not pushed out from the support body 1 when the annular wall of the inner plug 3 is press-fitted. The support portion 34 may be provided with an annular ridge portion that allows the elastic plug body 2 to be fitted. Thereby, position shift and dropping of the elastic plug body 2 can be further prevented.

  Furthermore, the thickness of the annular wall 31 is not particularly limited, but is appropriately set according to the size of the gap between the outer wall 11 and the inner wall 12, the compression characteristics of the elastic plug 2, and the like. Specifically, the thickness of the annular wall 31 is preferably in the range of 0.3 mm to 6 mm, and more preferably in the range of 0.5 mm to 3 mm.

  The shape of the annular wall 31 is not particularly limited. For example, as illustrated in FIG. 1C, the annular wall 31 may have a shape that tapers as the cross-sectional shape thereof approaches the top. As a result, the annular wall 31 can be easily pressed into the gap between the outer wall 11 and the inner wall 12. Further, the thickness may be uniform from the top to the bottom. In any case, the thickness of the annular wall 31 is set within the numerical range.

  Further, the inner plug 3 is provided with an annular stepped portion 33 at the periphery of the bottom portion of the annular wall 31 for enabling engagement with the engaging portion 16 in the support 1. Is preferred. Thereby, when the inner plug 3 is mounted inside the support 1, the inner plug 3 can be prevented from being pushed out of the support 1.

  The constituent material used for the inner plug 3 is not particularly limited. For example, the same material as that used for the support 1 can be used.

  In the present embodiment, as shown in FIG. 2, a medical cap 10 ′ having a configuration in which the inner plug 3 includes a diaphragm portion 32 may be used. The diaphragm part 32 is for covering the liquid contact surface 21 of the elastic plug body 2. The thermoplastic elastomer material constituting the elastic plug body 2 is an extremely hygienic material as compared with the rubber material, but depending on the chemical solution to be used, there are some which are not preferable in contact with the elastic plug body 2. Therefore, by providing the diaphragm portion 32, the portion in contact with the chemical solution can be made of the same or similar material as the container.

  Examples of the diaphragm portion 32 include a laminated film fused to the elastic plug 2, a film bonded to the inner plug 3, and a membrane portion integrally formed with the inner plug 3. The laminate film is not particularly limited, and a film that can be fused with the inner plug 3 made of the synthetic resin is used. Specifically, for example, a plastic film whose main component is a fluororesin, polyethylene, polypropylene, polyester, ethylene vinyl acetate resin, or a mixture thereof can be used. Although the thickness of the diaphragm part 32 is not specifically limited, The inside of the range of 0.01 mm-1 mm is preferable, and the inside of the range of 0.03 mm-0.5 mm is more preferable. By setting the thickness of the diaphragm part 32 to 1 mm or less, penetration at the time of needle stick is enabled. On the other hand, by setting the thickness of the diaphragm part 32 to 0.01 mm or more, the diaphragm part 32 can be prevented from being broken.

  By press-fitting the inner plug 3 into the gap between the outer wall 11 and the inner wall 12 in the support 1, the inner wall 12 can be deformed in a direction in which the diameter decreases. As a result, the elastic plug body 2 housed inside the inner wall 12 receives pressure from the inner wall 12. The pressure applied to the elastic plug 2 depends on the shape and thickness of the notch 14 provided on the inner wall 12, but is usually directed toward the needle puncture surface on the central axis of the elastic plug 2. It acts (in the direction of the arrow in FIG. 1C). Moreover, the pressure applied to the elastic plug body 2 becomes smaller toward the needle piercing surface 22 side. As a result of the action, the restoring force of the elastic plug body 2 itself acts in the direction of the side peripheral surface of the elastic plug body 2 and attempts to expand, so that the adhesion with the inner wall 12 is improved. Thereby, when needle sticking is performed on the needle stick surface 22 of the elastic stopper 2, it is possible to prevent the occurrence of liquid leakage and to improve the holding force and restoring force against needle removal. Furthermore, it can be excellent in resealability after needle removal. In addition, the liquid-contacting surface 21 side and the needle piercing surface 22 side of the elastic plug body 2 may each have a shape in which the central portion slightly protrudes in a convex shape.

  Further, the annular wall 31 of the inner plug 3 is press-fitted into the gap between the outer wall 11 and the inner wall 12. It is not performed for the gap between the outer wall 11 and the elastic plug 2. Therefore, the annular wall 31 does not cause deformation due to friction to the elastic plug 2 when the inner plug 3 is press-fitted. Thereby, the deformation | transformation of the elastic plug body 2 at the time of the press injection of the inner plug 3 can be prevented, and the position shift of the said elastic plug body 2 can be prevented.

(Manufacturing method of medical cap)
The manufacturing method of the medical cap according to the present embodiment includes the steps of manufacturing the support 1 having the outer wall 11 and the inner wall 12, the step of manufacturing the inner plug 3 having the annular wall 31, and the support. 1 includes at least a step of housing the elastic plug 2 inside the inner wall 12 and a step of press-fitting the annular wall 31 of the inner plug 3 into the gap between the inner wall 12 and the outer wall 11.

  The manufacturing process of the said support body 1 and the inner stopper 3 can be performed by a conventionally well-known injection molding, for example. That is, a mold capable of forming a cavity that enables the support 1 or the inner plug 3 to be formed when the mold is closed is prepared. Next, a resin that is a constituent material of the support 1 or the inner plug 3 is melted, and this molten resin is injected into the cavity. The injection pressure of the molten resin at this time is not particularly limited, and can be set as necessary. The injected molten resin is cooled for a predetermined time. After opening the mold, the support 1 or the inner plug 3 is obtained.

  Next, the elastic plug 2 is accommodated inside the inner wall 12 of the support 1. At this time, it arrange | positions so that the needle piercing surface 22 side of the elastic plug body 2 may become a lower side. Further, the annular groove 24 provided on the needle puncture surface 22 side is in a state of being fitted to the protrusion 15 of the mounting portion 13 provided at the bottom of the inner wall 12. Thereby, when the annular wall 31 of the inner plug 3 is press-fitted into the gap between the outer wall 11 and the inner wall 12, it can be prevented from being pushed out from the support 1.

  Subsequently, the annular wall 31 of the inner plug 3 is press-fitted into the gap between the inner wall 12 and the outer wall 11. The press-fitting is performed until the locking portion 16 in the outer wall 11 and the stepped portion 33 of the inner plug 3 are locked. By this press-fitting, the annular wall 31 of the inner plug 3 can apply pressure to the outer wall 11 and the inner wall 12 of the support body 1, and the internal wall 12 has an inner portion against the elastic plug body 2 accommodated inside the inner wall 12. Pressure can be applied through the wall 12. At this time, since the annular wall 31 of the inner plug 3 does not come into contact with the elastic plug body 2, unnecessary friction and resistance are not caused to the elastic plug body 2 when the annular wall 31 is press-fitted. As a result, it is possible to prevent the displacement of the elastic plug body 2 and improve the manufacturing efficiency. Moreover, since the adhesiveness between the elastic plug 2 and the inner wall 12 is excellent, it is possible to prevent the occurrence of liquid leakage when needle sticking is performed. In addition, the holding force and the restoring force against needle removal are excellent, and the resealability after needle removal can be improved.

(Other embodiments)
The present invention is not limited to the embodiment of the medical cap 10. For example, as shown in FIG. 3, the medical cap 20 in the case where the distal end portion of the port 41 used for the back for infusion or the like is the inner plug 42 or the distal end of the mouth portion 51 in the bottle 50 as shown in FIG. The medical cap 30 when the inner plug 52 is provided may be used. The port 41 and the inner plug 42 may be a combination of mutually independent members, or may be integrally formed. Further, the mouth part 51 and the inner stopper 52 in the bottle 50 may be formed by combining mutually independent members, or may be formed integrally.

  Even if it is these aspects, the adhesiveness of the elastic stopper 2 and the inner wall 12 can be improved, for example, generation | occurrence | production of a liquid leak can also be prevented in the case of a needle stick. Moreover, it is excellent in holding force and restoring force against needle removal, and can improve resealability after needle removal. Furthermore, since the annular walls 43 and 53 of the inner plugs 42 and 52 are press-fitted without contacting the elastic plug body 2, the elastic plug body 2 may be deformed by friction during the press-fitting. Absent. As a result, displacement of the elastic plug body 2 can also be prevented.

  Moreover, the medical cap 40 of the aspect shown in FIG. 5 may be sufficient as the medical cap which concerns on this invention. This figure is a schematic cross-sectional view for explaining a medical cap 40 according to another embodiment of the present invention.

  Compared to the medical cap 10, the medical cap 40 shown in the figure has an annular wall 72 of the inner plug 71 that is connected to the outer wall 61 and the inner wall of the support 60 from the needle piercing surface 22 side of the elastic plug body 2. The most different point is that the wall 62 is press-fitted into the gap.

  The support body 60 can hold the elastic plug body 2 inside, specifically, an internal wall 62 that surrounds and accommodates the elastic plug body 2, and an external wall 61 that surrounds the internal wall 62. At least integrally.

  Although not shown, the inner wall 62 is preferably provided with a notch as described above. However, it may be an annular inner wall that is not provided with a notch. In this case, the inner wall is preferably thinner than the outer wall 61. The constituent material, dimensions, and shape of the inner wall 62 are not particularly limited as in the case described above.

  On the bottom of the inner wall 62, a mounting portion 68 that allows the elastic plug body 2 to be mounted is provided. The mounting portion 68 is provided so as to project from the inner wall 62 in a ring shape in the center direction. Thereby, the peripheral part of the liquid-contacting surface 21 of the elastic plug body 2 can be supported. As a result, when the annular wall 72 of the inner plug 71 is press-fitted into the gap between the outer wall 61 and the inner wall 62, the elastic plug body 2 can be prevented from being pushed out from the support body 60. Further, the mounting portion 68 may be provided with an annular ridge 67 that allows fitting with the annular groove 24 on the liquid contact surface 21 side of the elastic plug body 2. Thereby, position shift and dropping of the elastic plug body 2 can be further prevented. In addition, the aspect provided with two or more mounting parts by the predetermined space | interval may be sufficient. In this case, the separation distance between the adjacent mounting portions is not particularly limited as long as the elastic plug body 2 can be supported to such an extent that the annular plug wall is not pushed out from the support body 1 when the annular wall of the inner plug 71 is press-fitted. .

  It is preferable that an annular groove 63 is provided at the top of the inner surface of the outer wall 61 for maintaining the press-fitted inner plug 71 in that state. The annular groove 63 may be any shape and size that can be fitted to the protrusion 73 (details will be described later) of the annular wall 72 in the inner plug 71. Thereby, it is possible to prevent the inner plug 71 from being pushed out of the support body 60.

  Further, as shown in FIG. 5, the bottom of the outer wall 61 is provided outside the outer wall 61 so as to be easily joined to the mouth of a drug container such as an infusion container, a blood collection tube, or a vial. An overhanging flange portion 64 may be provided. The constituent material, dimensions, and shape of the external wall 61 are the same as those described above. The distance between the outer wall 61 and the inner wall 62 is the same as that described above.

  The inner plug 71 has a flat plate shape and an annular base 72 having an annular wall 72 for press-fitting into a gap between the outer wall 61 and the inner wall 62 of the support body 60 on an annular base 74. However, the base 74 may be an arbitrary curved surface such as a concave shape or a convex shape. Further, the outer side of the formation position of the annular wall 72 in the base portion 74 is for covering the upper surface 66 of the outer wall 61 when the annular wall 72 of the inner plug 71 is press-fitted into the gap between the outer wall 61 and the inner wall 62. It functions as the flange portion 75. On the other hand, a support portion 76 for supporting the elastic plug body 2 from the side of the needle piercing surface 22 is provided inside the formation position of the annular wall 72 in the base portion 74. The thickness of the base 74 is not particularly limited as long as at least the shape can be maintained, and may be set as necessary. Further, the outer diameter of the base portion 74 is particularly limited as long as the flange portion 75 covers the upper surface 66 of the outer wall 61 when the annular wall 72 of the inner plug 71 is press-fitted into the gap between the outer wall 61 and the inner wall 62. It is not limited and can be set as needed. On the other hand, the inner diameter of the base portion 74 is not particularly limited as long as the support portion 76 can support the elastic plug body 2 from the needle piercing surface 22 side, and can be set as necessary. The height, thickness and shape of the annular wall 72 are the same as described above.

  An annular groove 63 in the support 60 can be fitted to the peripheral edge of the bottom portion of the annular wall 72 of the inner plug 71, and an annular protrusion for locking the inner plug 71. A portion 73 is preferably provided. Thereby, when the inner plug 71 is attached to the support body 60, the inner plug 71 can be prevented from being pushed out of the support body 60.

  Further, the support portion 76 of the inner plug 71 may be provided with an annular ridge 77 that allows fitting with the annular groove 24 on the needle piercing surface 22 side of the elastic plug 2. Thereby, position shift and dropping of the elastic plug body 2 can be further prevented.

  The constituent material of the inner plug 71 is the same as that described above. In addition, it is preferable that the inner plug 71 has an opening from the viewpoint that the needle plug surface 22 of the elastic plug body 2 can be easily stuck.

  Further, as shown in FIG. 6, the present invention may be a medical cap 40 'in a mode in which a diaphragm 65 is provided at the bottom of the inner wall 62 of the support 60'. The diaphragm portion 65 covers the liquid contact surface 21 of the elastic plug body 2. The diaphragm 65 is not particularly limited, and examples thereof include a laminate film fused to the elastic plug 2, a film bonded to the support 60 ', and a membrane integrally formed with the support 60'. . The laminate film is the same as described above. Further, the thickness of the diaphragm 65 is the same as that of the diaphragm 32. In the medical cap 40 ′ shown in FIG. 6, the support body 60 ′ without the protrusion 67, the inner plug 71 ′ without the protrusion 77, and the elastic plug 2 without the annular groove 24. The case where is used is shown.

DESCRIPTION OF SYMBOLS 1, 60 Support body 2 Elastic plug bodies 3, 42, 52, 71, 71 'Inner plug 10, 10', 20, 30, 40 Medical cap 11, 61 External wall 12, 62 Internal wall 13 Placement part 15 Projection Thread part 16 Locking part 17, 64, 75 Flange part 21 Liquid contact surface 22 Needle stick surface 23 Side peripheral surface 24 Annular groove 31, 43, 72 Annular wall 32, 65 Diaphragm part 33 Step part 34, 76 Support part 41 Port 50 bottle 51 mouth 63 annular groove 66 upper surface 73 ridge 74 base

Claims (6)

A medical cap having an elastic plug and a support for holding the elastic plug inside;
The support includes an inner wall that surrounds and accommodates the elastic plug, and an outer wall that surrounds the inner wall,
A gap between the inner wall and the outer wall is narrowed toward the bottom of the outer wall and the inner wall, and an inner plug having an annular wall that tapers toward the top is provided in the gap. It is provided by press-fitting a wall,
Pressure is applied to the elastic plug body from the inner wall by press-fitting the annular wall,
The medical cap provided with the latching | locking part for maintaining the state in which the said inner plug was press-fit in the top part of the said external wall. The medical cap according to claim 1 , wherein a height of the outer wall is higher than the inner wall . 3. The medical cap according to claim 1 , wherein the locking portion is provided to project in an annular shape or a convex shape in a direction toward the inside of the support body at a top portion of the outer wall . The medical cap according to any one of claims 1 to 3 , wherein a mounting portion for mounting the elastic plug is provided on a bottom portion of the inner wall of the support . An annular groove is provided on the needle puncture surface side of the elastic plug,
  The medical cap according to claim 4, wherein the placement portion is provided with an annular protrusion that fits into the annular groove of the elastic plug. The medical cap according to any one of claims 1 to 5, wherein a height of the inner wall is higher than a height of the elastic plug body accommodated in the inner wall.

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