JP2012016442A - Container - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a syringe type container which can be determined whether it is a first use or not by verifying only in a final phase.SOLUTION: The container includes a container body and a cap body that closes an opening of the container body. The cap body has a cap body section and a piston rod body, and the cap body section and the piston rod body are connected as one body through a thin part.

Description

  The present invention relates to a container.

  Syringe-type containers are used for drug injection or filling. For example, a syringe is used when injecting a drug solution into the body. This syringe is composed of an injection needle, a syringe main body, and a piston rod body for extruding a drug solution in the syringe main body from the tip.

JP 2010-125162 A

Reuse of syringes has been pointed out.
By the way, it is difficult for a user who has obtained the syringe for the first time to determine whether the syringe is used for the first time or whether the syringe is used for the second time or later.
Since it is difficult for the user to determine whether it is the first use or the second and subsequent uses, there arises a problem of repeated reuse. In other words, even if the doctor who performs the injection pays attention to the problem of reusing the syringe, it is not known whether or not the syringe is used for the second time or later when the prepared syringe filled with the liquid medicine is first seen. .

  For this reason, the present inventor is the first to use the syringe without verifying the preparation stage (for example, the drug solution filling stage) one by one but only at the final stage (stage immediately before injection). It came to think that it would be very convenient if it was understood.

  Therefore, the problem to be solved by the present invention is to provide a syringe-type container that can determine whether or not it is the first use only by verification at the final stage.

The above issues are
A container comprising a container body and a cap body for closing the opening of the container body,
The cap body includes a cap body portion and a piston rod body,
The cap main body and the piston rod body are solved by a container that is integrally connected through a thin portion.

  Preferably, the container main body includes a cylindrical portion with which the piston rod body is slidably contacted.

  Preferably, the piston rod body is solved by the container described above, characterized in that the piston rod body includes a sliding contact portion that slides on the inner wall of the container main body.

  Preferably, the position of the connecting thin wall portion between the cap body portion and the piston rod body is a position on the rear side of the sliding contact portion position between the piston rod body and the container body. The

  Preferably, the connection thin-walled portion is solved by the above-mentioned container, wherein a slit is provided.

  Preferably, the inner shape of the connecting thin wall portion is solved by the container described above, wherein the inner shape is smaller than the inner shape of the container body into which the piston rod body enters.

  Preferably, the piston rod body is provided with an expanding wall on the outer side, and the wall is configured to be slidable against the inner wall of the container body. The

  Preferably, in the state in which the connecting thin wall portion between the cap main body portion and the piston rod body is not cut, the tip end portion of the piston rod body is configured to be in sliding contact with the inner wall of the container main body. Solved.

  Preferably, the cap body is configured to be detachable from the container main body, and is solved by the container described above.

  Preferably, the container body has a convex portion on the side opposite to the side on which the cap body is disposed, the convex portion has a hole therein, and the convex portion at the position where the hole exists is a thin-walled portion. When the convex part is cut in the thin-walled part, the hole becomes a through hole.

  A fluid such as a liquid or a viscous body filled in the container body is pushed out of the container body by the operation of the piston rod body. In this extrusion (discharge), the piston rod body needs to be separated (cut) from the cap body. Therefore, it can be determined whether or not the container is used for the first time by checking whether or not the piston rod body is separated (cut) from the cap body.

  In order to separate the piston rod body from the cap body, it is necessary to cut the thin wall portion. This cutting requires some physical force. Therefore, it is possible to determine whether or not the piston rod body has been separated (cut) from the cap main body by the feeling of use. This is very convenient.

Sectional drawing of the container which becomes this invention in the stage before a cap main-body part and a piston rod body isolate | separate (cut | disconnect). Sectional drawing of the container which becomes this invention in the stage in which the piston rod body was isolate | separated (cut | disconnected) from the cap main-body part, and the piston rod body was pushed in somewhat.

  The present invention is a container. In particular, a syringe-type container (such as a syringe used when injecting a fluid such as a drug solution is not absolutely necessary. Of course, it may be a type equipped with an injection needle). It is. The container includes a container body and a cap body that closes an opening of the container body. The cap body includes a cap body portion and a piston rod body. The cap body part and the piston rod body are integrally connected via a thin part. According to this configuration, the fluid (liquid, fluid, chemical solution, agent) filled in the container body is pushed out of the container body by the operation of the piston rod body (pushing of the piston rod body). For example, it is extruded from an opening (hole) formed at the tip of the container body. During this extrusion, the piston rod body must first be separated (cut) from the cap body. Therefore, whether or not the container is used for the first time can be determined by checking whether or not the piston rod body is separated (cut) from the cap body. In order to separate the piston rod body from the cap body, it is necessary to cut the connecting thin portion. This cutting requires physical force. Therefore, separation (cutting) of the piston rod body from the cap main body by a touch in use (feeling of whether or not a large force is applied to the cutting of the connecting thin part (pushing of the piston rod body)). Can be judged. This is very convenient.

  As for the container of this invention, the container main body, Preferably, the cylindrical part which a piston rod body slidably contacts comprises. For example, when the thin connecting portion between the cap body portion and the piston rod body is cut and the piston rod body is pushed into the container body (for example, further pushed), the container body is in sliding contact with the piston rod body. A cylindrical portion is provided. When configured in this manner, the filled fluid is pushed out of the container body particularly efficiently. In the container of the present invention, the piston rod body preferably includes a sliding contact portion that is in sliding contact with the inner wall of the container main body. For example, when the thin connecting portion between the cap body and the piston rod body is cut and the piston rod body is pushed into the container body (for example, further pushed), the piston rod body (for example, the piston rod body) The tip portion includes a sliding contact portion that is in sliding contact with the inner wall of the container main body (for example, a cylindrical portion). When configured in this manner, the filled fluid is pushed out of the container body particularly efficiently. Particularly preferably, the container main body includes a cylindrical portion, and the piston rod body includes a sliding contact portion that slides on the inner wall of the cylindrical portion at the tip.

  In the container of the present invention, preferably, the position of the connecting thin wall portion between the cap body portion and the piston rod body is a position on the rear side of the sliding contact portion position between the piston rod body and the container body. For example, when the thin connecting portion between the cap main body portion and the piston rod body is cut and the piston rod body is pushed into the container main body (for example, further pushed), the thin connecting portion is connected to the container main body. It is provided at a position on the rear side of the tip end portion of the piston rod body that is in sliding contact with the inner wall. The cutting of the thin connecting portion between the cap main body and the piston rod body is not generally performed using a sharp knife. The connection thin-walled portion is usually cut, twisted, or shredded. As a result, the cut portion is uneven. If this unevenness is formed at the tip of the piston rod body, the fluid extrusion efficiency decreases. Or depending on the case, there is a possibility that chips generated by cutting may enter the liquid. However, if the connecting thin portion is provided at a position on the rear side of the sliding contact portion (for example, the front end portion of the piston rod body) that is in sliding contact with the inner wall of the container main body, the fear is greatly improved. . For example, even if chips are produced, the tip of the piston rod body is in sliding contact with the inner wall of the container main body (tubular portion), so that the chips do not enter the chemical liquid side.

  The container of the present invention is preferably provided with a slit (in the present specification, the slit also includes the concept of a hole) in the connecting thin part. This facilitates the cutting (separation) of the thin connection portion. Even if the connecting thin wall portion is provided with a slit, the container body is as if it is plugged by the piston rod body. In other words, since the portion located in front of the connecting thin portion of the piston rod body is in sliding contact with the container body, it is as if the rod is also plugged at this sliding contact portion. Therefore, there is no fear that the chemical liquid filled in the container body leaks from the slit.

  In the container of the present invention, preferably, the inner shape of the connecting thin portion is configured to be smaller than the inner shape of the container main body into which the piston rod body (sliding contact portion (for example, sliding end portion of the piston rod body)) enters. Yes. Since the cutting (separation) of the thin connecting portions is not performed with a sharp knife, as described above, the cut portions are uneven (jagged). Even if this unevenness (jaggedness) is made, the size of the piston rod body at the cut portion is smaller than the inner shape of the container main body (for example, the cylindrical portion). Therefore, the unevenness does not rub against the inner wall of the container main body (for example, the cylindrical portion). Therefore, the movement of the piston rod body is smooth.

  In the container of the present invention, preferably, a widened wall is provided on the outer side on the distal end side of the piston rod body. And the said wall can be slidably contacted with the inner wall of a container main body. In particular, the peripheral side surface of the wall is configured to be in sliding contact with the inner wall of the container body. By having such a configuration, the effect of pushing out the filled chemical liquid is high. The wall is formed integrally with the piston rod body. Of course, the wall and the piston rod body may be configured separately. In this case, the wall is only arranged on the front side of the piston rod body.

  The container of the present invention is preferably configured such that the tip end portion of the piston rod body is in sliding contact with the inner wall of the container body (tubular portion) in a state where the connecting thin portion between the cap body portion and the piston rod body is not cut. Has been. When configured in this way, the piston rod body operates smoothly because the piston rod body is regulated (guided) at the tip of the piston rod body by the inner wall of the container body (cylindrical portion). It is.

  In the container of the present invention, the cap body is preferably configured to be detachable from the container body. In such a configuration, if the cap body is removed, an opening with a large diameter can be formed in the container body. Therefore, the chemical solution can be filled into the container body from the opening having a large diameter, which is convenient.

Hereinafter, the present invention will be described more specifically.
FIG. 1 is a cross-sectional view of a container according to the present invention in a state before the chemical liquid filled in the container body is pushed out by a piston rod. FIG. 2 is a cross-sectional view of the container according to the present invention in a stage after the chemical liquid filled in the container body starts to be pushed out by the piston rod.

  In each figure, 1 is a container main body. The container body 1 is formed using, for example, a resin. Of course, instead of resin, it may be made of glass. It may be composed of other materials. The container body 1 has a cylindrical portion 2. As can be seen from FIGS. 1 and 2, the tubular portion 2 has a large-diameter portion 2 a on the rear end side. On the front side (right side in FIGS. 1 and 2) of the large-diameter portion 2a, there is a cylindrical portion 2b having a longer length than the large-diameter portion. The container body 1 has a tip 3 that is convex. A small-diameter hole (a hole whose front end is closed) 4 is provided at the center of the convex tip 3. A thin-walled portion 3 b is formed on the tip side 3 a of the convex tip portion 3. Then, by cutting the thin portion 3b, the hole 4 becomes a through-hole having an opening on the tip side, and the fluid in the container body 1 is pushed out through the through-hole. The rear end of the container body 1 is formed in an opening shape. The diameter of the open rear end 5 is much larger than the diameter of the through hole 4. A rib portion 6 having a flange shape or a stepped cross section is provided around the opening rear end portion 5.

  Reference numeral 10 denotes a cap body. The cap body 10 includes a cap main body 11 and a piston rod body 12. The cap body 11 and the piston rod body 12 are integrally connected by a thin portion 13. The thin portion 13 is provided along the periphery of the piston rod body 12. An appropriate number of slits (holes: notches) having an appropriate length are formed in the thin portion 13. That is, the cap body 11 and the piston rod body 12 are not connected via the thin-walled portion 13 over the entire circumference of the piston rod body 12. For example, the cap main body 11 and the piston rod body 12 are thin portions only at a plurality of positions, such as near 0 ° position, near 90 ° position, near 180 ° position, and near 270 ° position. 13 is connected. Of course, the cap main body 11 and the piston rod body 12 may be connected over the entire circumference. However, since it was only connected partially, when separating the cap main-body part 11 and the piston rod body 12, the force at the time of cutting the connection thin part 13 may be small. The cap body 10 having such a structure (shape) can be easily obtained by an appropriate molding means using a resin.

  As is apparent from FIGS. 1 and 2, the cap main body portion 11 has a hooking portion 14 that hooks on the rib portion 6 of the container main body 1. That is, when the cap body 10 is disposed at the open rear end portion 5 of the container body 1, the hook portion 14 is hooked on the rib portion 6, and the cap body 10 cannot be removed naturally. However, if a force larger than the locking force of the cap body 10 by the rib portion 6 and the latching portion 14 is applied to the cap body 10, the cap body 10 can of course be removed from the container body 1. Accordingly, since the diameter of the opening-shaped rear end portion 5 of the container body 1 is large, when the cap body 10 is removed, various kinds of chemicals are introduced into the container body 1 from the large-diameter opening rear end portion 5. Can be filled easily.

  The thin-walled portion 13 that connects the cap body 11 and the piston rod body 12 is a predetermined distance from the distal end portion of the piston rod body 12 (the distal end portion of the piston rod body 12 that is in sliding contact with the inner wall of the tubular portion 2). It is provided at a rear position. That is, when the cap body 10 is disposed at the open rear end portion 5 of the container main body 1 and the rib portion 6 and the locking portion 14 are locked, the tip portion 15 of the piston rod body 12 is connected to the container main body 1. One cylindrical portion 2b is inscribed. Since the front end portion 15 of the piston rod body 12 is inscribed in the cylindrical portion 2b of the container body 1, the chemical liquid filled in the cylindrical portion 2b leaks from the open rear end portion 5 of the container body 1. There is no. In particular, even if a slit (hole) is formed in the thin portion 13, the chemical solution does not leak into the slit (hole). When a pressing force is applied to the rear end of the piston rod body 12 to push the piston rod body 12 into the cylindrical portion 2, the side wall of the tip portion 15 of the piston rod body 12 is the cylindrical portion 2b. Since the inner wall is inscribed (slidably contacted), the traveling direction of the piston rod body 12 is guided. Therefore, the operation of the piston rod body 12 is smooth. Then, when the piston rod body 12 proceeds thereafter, the inner edge portion of the connecting thin portion 13 is in contact with the outer peripheral wall of the piston rod body 12. Therefore, when the piston rod body 12 operates (advances), the inner edge portion of the connecting thin portion 13 and the piston rod body 12 are in contact with each other, and the side wall of the tip portion 15 of the piston rod body 12 is the cylindrical portion 2b. Inscribed (sliding contact) with the inner wall. That is, in the axial direction (moving direction) of the piston rod body 12, the piston rod body 12 is always restricted at two different places (a plurality of places) in the axial direction. Therefore, when the piston rod body 12 moves, the piston rod body 12 is difficult to tilt.

  The piston rod body 12 is provided so as to be positioned at the center of the cap main body 11 in a plan view of the piston rod body 12 (the line-of-sight direction is the axial direction of the piston rod body 12).

  In the plan view of the piston rod body 12 (the line-of-sight direction is the axial center direction of the piston rod body 12), the thin-walled portion 13 connecting the cap body portion 11 and the piston rod body 12 is the cylindrical portion 2b of the container body 1. It is comprised so that it may exist in the position inside the internal diameter of. That is, (the outer diameter of the piston rod body 12 connected to the thin portion 13 (the inner diameter of the thin portion 13)) <(the inner diameter of the cylindrical portion 2b) is satisfied. As a result, even if the peripheral portion of the thin portion 13 is made uneven by cutting the thin portion 13, no major problem occurs.

  The distal end portion 15 of the piston rod body 12 that is in sliding contact with the inner wall of the cylindrical portion 2 of the container body 1 has an expanded standing wall 16 on the outer side. Here, when the pressure toward the expanded standing wall 16 acts on the outside, the standing wall 16 opens so as to further spread outward. Accordingly, the standing wall 16 is increasingly in sliding contact with the inner wall of the cylindrical portion 2 of the container body 1. And the chemical | medical solution in the cylindrical part 2 comes to be extruded reliably.

DESCRIPTION OF SYMBOLS 1 Container main body 2b Cylindrical part 3 Convex tip part 4 Through-hole 5 Open rear end part 6 Rib part 10 Cap body 11 Cap main body part 12 Piston rod body 13 Thin part 14 Latching part 15 Piston rod body front end part 16 Outer side Expanded standing wall

Claims (12)

A container comprising a container body and a cap body for closing the opening of the container body,
The cap body includes a cap body portion and a piston rod body,
The cap body part and the piston rod body are integrally connected through a thin part. The container according to claim 1, wherein the container body includes a cylindrical portion with which the piston rod body slides. The container according to claim 1 or 2, wherein the piston rod body includes a sliding contact portion that is in sliding contact with the inner wall of the container main body. 4. The position of the connecting thin wall portion between the cap main body portion and the piston rod body is a position on the rear side of the sliding contact portion position between the piston rod body and the container main body. That container. The container according to any one of claims 1 to 4, wherein the thin connecting portion is provided with a slit. The container according to any one of claims 1 to 5, wherein the inner shape of the connecting thin portion is configured to be smaller than the inner shape of the container main body into which the piston rod body enters. On the tip end side of the piston rod body, an expanded wall is provided outside,
The container according to any one of claims 1 to 6, wherein the wall is configured to be in sliding contact with the inner wall of the container main body. 8. A container according to claim 7, wherein the wall is constructed integrally with the piston rod body. 8. The container according to claim 7, wherein the wall is formed separately from the piston rod body. The front end portion of the piston rod body is configured to be in sliding contact with the inner wall of the container main body in a state where the thin connecting portion between the cap main body portion and the piston rod body is not cut. 9 Any container. The container according to any one of claims 1 to 10, wherein the cap body is configured to be detachable from the container body. The container body has a convex portion on the side opposite to the side where the cap body is arranged,
The convex part has a hole inside,
A thin-walled portion is formed on the convex portion at the position where the hole exists,
The container according to any one of claims 1 to 11, wherein when the convex portion is cut in the thin portion, the hole becomes a through hole.

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