JP2020108858A - Injection syringe and prefilled syringe - Google Patents

Abstract

To provide an injection syringe facilitating installing a plunger to a gasket, and having less risk of coming off of the gasket from the plunger after installation.SOLUTION: An injection syringe 10 comprises a gasket 3, an outer casing 2, and a plunger 4. The plunger 4 includes a spiral rib 44 installed on the external surface of a head part 42. The gasket includes a spiral dent part 33 to be screwed with the spiral rib, an annular rib 34 for stopping the plunger, and a spiral rib formation site housing part 32 of the plunger. The annular rib 34 includes a rib defective part 35 for guiding the spiral rib arriving in the annular rib to the housing part through advancement of screwing of the plunger with the gasket. The spiral rib has an approach regulation terminal part 46 for regulating approach of the spiral rib to the rib defective part after housing the spiral rib formation site of the plunger 4 into the housing part 32 of the gasket.SELECTED DRAWING: Figure 8

Description

The present invention relates to a syringe and a prefilled syringe prefilled with a drug solution.

In recent years, prefilled syringes that are pre-filled with a liquid such as a drug solution have been widely used. Some of such prefilled syringes are filled with a solution for dissolving the drug in the vial.
To insert a gasket in a prefilled syringe, place the gasket in the opening of the outer cylinder in a reduced pressure atmosphere (vacuum atmosphere) after filling the drug in the outer cylinder whose tip opening is sealed. It is general to use a so-called vacuum stoppering method in which the gasket is inserted into the outer cylinder by setting the state. Since it is difficult to dispose the gasket in the opening of the outer cylinder when the plunger is attached to the gasket, the above-mentioned plugging work is performed with the gasket alone. Therefore, the prefilled syringe generally requires subsequent plunger mounting work. Further, in order to facilitate the work of mounting the plunger on the gasket, and to prevent the occurrence of liquid leakage during the work of mounting and to suppress the rise in internal pressure to a minimum, the plunger is provided with a male screw portion and the gasket is provided with a female screw portion, It is common to have a mounting mechanism by screwing both.

Then, as described above, in the prefilled syringe filled with the dissolution liquid, the operation of pulling the plunger attached to the gasket in order to dissolve the drug in the vial with the dissolution liquid or to collect the dissolved drug To do. However, when the operation of pulling the plunger is performed, the plunger may come off the gasket, and the drug may not be dissolved, or the dissolved drug may not be collected.

There are JP 2009-142508 A (Patent Document 1) and JP 2011-72394 A (Patent Document 2) having a mechanism for preventing the gasket from coming off. Note that both Patent Document 1 and Patent Document 2 are proposals by the applicant of the present application.

The syringe 10 of Patent Document 1 includes a gasket 3, an outer cylinder 2, and a plunger 4. The plunger 4 is provided with a spiral rib 44 provided on the outer surface of the head portion 42, and the gasket is provided with a spiral valley portion 33 for screwing with the spiral rib and a vicinity of the spiral valley portion 33 and a tip thereof. An annular rib 34 for preventing the plunger from coming off is provided on the side, and a spiral rib forming portion housing portion 32 of the head portion of the plunger. The annular rib 34 includes a rib missing portion 35 for guiding the spiral rib that has reached the annular rib to the storage portion by the progress of screwing between the spiral rib of the plunger and the spiral trough of the gasket. The annular rib 34 holds the spiral rib 44 in the storage portion 32 to prevent the plunger from coming off the gasket. The syringe 10 of Patent Document 2 includes a gasket 3, an outer cylinder, and a plunger. The plunger includes a spiral rib provided on the head portion, and the gasket includes a spiral valley portion for screwing with the spiral rib, and a spiral rib forming portion housing portion 32 of the head portion of the plunger. The spiral valley portion is formed at the spiral mountain portion 36, the spiral valley portion 33 formed between the spiral mountain portions 36, and the terminal end portion of the spiral valley portion 33, and gradually extends toward the storage portion 32. It has a protruding portion 34 for preventing the plunger from coming off. When the ridge 34 reversely rotates the plunger after mounting it on the gasket, the spiral rib of the plunger 4 is less likely to enter the terminal end of the spiral valley 33, and the plunger is removed from the gasket. It is effective as a stop.

JP, 2009-142508, A JP, 2011-72394, A

In the ones described in Patent Documents 1 and 2, the plunger is less likely to come off from the gasket in the normal operation, but when the plunger is rotated with the plunger strongly pulled toward the base end side, the spiral rib There is a possibility that the terminal end may enter into the defect portion of the retaining rib.

An object of the present invention is to provide a syringe in which a plunger can be easily attached to a gasket and which is less likely to separate from the plunger after being attached, and a prefilled syringe using the same.

What achieves the above object is as follows.
(1) A gasket that is a tubular body having a closed distal end and an open proximal end and that includes a lumen portion that extends from the proximal end side toward the distal end side; and a gasket that includes a distal end opening portion and that can slidably accommodate the gasket. A syringe having an outer cylinder for holding and a plunger having a head part that can be housed in the inner cavity part of the gasket, wherein the plunger is provided in the head part and has a start end on a distal end side and a terminating end on a proximal end side. A spiral rib having a spiral rib that forms a spiral trough for screwing with the spiral rib of the plunger on the inner surface of the inner cavity portion; and A plunger retaining annular rib located on the tip side, and further, the inner cavity portion is located on the tip side with respect to the retaining annular rib, and the helical rib forming portion of the head portion of the plunger is formed. A retaining portion for accommodating is further provided, and the retaining ring-shaped rib guides the spiral rib that has reached the retaining ring-shaped rib to the storing portion by progress of screwing of the plunger and the gasket. The plunger includes a rib-defective portion for retaining the spiral rib at the end of the spiral rib after the spiral rib forming portion of the plunger is accommodated in the accommodating portion of the gasket. Syringe equipped with an entry restriction end portion that restricts the entry of the syringe.

What achieves the above object is as follows.
(2) A tubular body having a closed distal end and an open proximal end, and a gasket having an inner cavity extending from the proximal end to the distal end; and a gasket having a distal end opening and slidably accommodating the gasket. A syringe having an outer cylinder for holding and a plunger having a head part that can be housed in the inner cavity part of the gasket, wherein the plunger is provided in the head part and has a start end on a distal end side and a terminating end on a proximal end side. A spiral rib having a spiral rib that forms a spiral trough for screwing with the spiral rib of the plunger on the inner surface of the inner cavity portion; and The housing is located on the distal end side and has a housing portion for housing the spiral rib forming portion of the head portion of the plunger, and the spiral valley portion has a base end near an opening of the lumen portion. A predetermined length, extending in the distal direction, and having a terminal end on the proximal side from the storage portion, the plunger has a spiral rib forming portion in the storage portion of the gasket at the end of the spiral rib. A syringe having an entry restriction terminal part for restricting the entry of the spiral rib into the terminal end of the spiral valley after being stored.

What achieves the above object is as follows.
A prefilled syringe comprising the syringe of (1) or (2) above, a sealing member for sealing the distal end opening of the outer cylinder, and a drug contained in the outer cylinder.

FIG. 1 is a front view of a prefilled syringe using a syringe according to an embodiment of the present invention. FIG. 2 is a vertical cross-sectional view of the prefilled syringe shown in FIG. FIG. 3 is an enlarged front view of the gasket used in the syringe of the present invention. FIG. 4 is a cross-sectional view taken along the line AA of FIG. FIG. 5 is a sectional view taken along line BB of FIG. FIG. 6 is a front view of the plunger used in the syringe of the present invention. FIG. 7 is an enlarged right side view of the tip portion of the plunger shown in FIG. FIG. 8: is explanatory drawing for demonstrating the effect|action at the time of mounting|wearing with the gasket and plunger in the syringe of this invention. FIG. 9 is a front view of an example of an outer cylinder used in the syringe of the present invention. FIG. 10 is a cross-sectional view of an example of a seal cap used in the syringe of the present invention. FIG. 11 is an enlarged front view of the tip portion of another example of the plunger used in the syringe of the present invention. 12 is a right side view of the plunger shown in FIG. FIG. 13 is an explanatory diagram for explaining the action when the gasket and the plunger are attached in the syringe using the plunger shown in FIGS. 11 and 12. FIG. 14 is an enlarged front view of the tip portion of the plunger of another example used in the syringe of the present invention. FIG. 15 is a right side view of the plunger shown in FIG. FIG. 16 is an explanatory diagram for explaining the action when the gasket and the plunger are mounted in the syringe using the plunger shown in FIGS. 14 and 15. FIG. 17 is an enlarged front view of another example of the gasket used in the syringe of the present invention. FIG. 18 is a cross-sectional view taken along the line CC of FIG. 19 is a cross-sectional view taken along the line DD of FIG. FIG. 20 is a front view of another example of the plunger used in the syringe of the present invention. FIG. 21 is an enlarged front view of the tip portion of the plunger shown in FIG. 22 is a right side view of the plunger shown in FIG. FIG. 23 is an enlarged front view of another example of the gasket used in the syringe of the present invention. 24 is a cross-sectional view taken along the line EE of FIG. 25 is a cross-sectional view taken along the line FF of FIG. FIG. 26 is an explanatory view for explaining the action when the gasket and the plunger are mounted in the syringe using the plunger shown in FIGS. 20 to 22 and the gasket shown in FIGS. 23 to 25.

Hereinafter, a syringe and a prefilled syringe of the present invention will be described using the embodiments shown in the drawings.
The syringe 10 of the present invention is a tubular body having a closed distal end and an open proximal end as shown in FIGS. 1 and 2, and as shown in FIG. As shown in FIG. 2, a gasket 3 having a cavity portion 30, an outer cylinder 2 having a tip opening portion and slidably accommodating the gasket 3, and an inner cavity portion 30 of the gasket 3 as shown in FIG. And a plunger 4 having a head portion 42 that can be stored therein.
As shown in FIG. 6, the plunger 4 includes a spiral rib 44 provided on the head portion 42 and having a starting end on the tip end side and an ending end on the base end side.
As shown in FIG. 8, the gasket 3 includes a spiral mountain portion 36 that forms a spiral valley portion 33 for screwing with the spiral rib 44 of the plunger 4 on the inner surface of the inner cavity portion 30, and a spiral mountain portion. A plunger retaining annular rib 34 located on the tip side of the portion 36, and the inner cavity portion 30 is located on the tip side of the annular rib 34, and includes a spiral rib forming portion of the head portion 42 of the plunger 4. A storage section 32 for storing is provided. Further, the plunger retaining annular rib 34 reaches the retaining annular rib 34 by the progress of screwing between the spiral rib 44 of the head portion 42 of the plunger 4 and the spiral valley portion 33 of the gasket 3. A rib missing portion 35 for guiding the rib 44 to the storage portion 32 is provided.

Then, the plunger 4 regulates the entry of the spiral rib 44 into the rib missing portion 35 after the spiral rib forming portion of the plunger 4 is housed in the housing portion 32 of the gasket 3 at the end of the spiral rib 44. The entry restriction terminal portion 46 is provided.
With this syringe, even if the plunger is attached to the gasket and then rotated in the direction opposite to the direction in which the gasket and plunger are screwed (the direction in which screwing is released) with the plunger pulled in the proximal direction, the plunger does not It spins idle, and the proximal end side of the spiral rib of the plunger does not enter into the missing portion of the retaining annular rib. Therefore, the plunger is prevented from coming off the gasket.

In addition, as shown in FIGS. 1 and 2, the prefilled syringe 1 of the present invention includes a syringe 10 for a prefilled syringe, a sealing member 5 that seals the tip opening of the outer cylinder 2, and an outer cylinder 2. And the medicine 8 that has been applied. The syringe 10 of this embodiment includes an outer cylinder 2, a gasket 3 slidably accommodated in the outer cylinder, and a plunger 4 attached to or attachable to the gasket 3. The prefilled syringe 1 is composed of the above-described syringe 10, a sealing member 5 that seals the distal end opening of the outer cylinder 2, and a drug 8 stored in the syringe (in the outer cylinder). As shown in FIGS. 1 to 5, the gasket 3 of this embodiment is a tubular body having a closed distal end and an inner cavity portion 30 extending toward the distal end side from the proximal end opening. As shown in FIGS. 3 and 4, the tip end portion of the gasket 3 has a taper portion 31 that is tapered toward the tip end side.

The syringe gasket 3 includes an inner cavity portion 30, and the inner cavity portion 30 has a plunger attachment function. The inner cavity portion 30 has a spiral crest portion 36, which forms a spiral trough portion 33 for screwing with the spiral rib 44 of the plunger 4, on the inner surface thereof, and the spiral crest portion 36 (spiral trough portion 33). And a plunger retaining annular rib 34 located near the distal end of the plunger 4, and the inner cavity portion 30 further includes a spiral rib forming portion of the head portion 42 of the plunger 4 on the distal side of the retaining annular rib 34. The retaining annular rib 34 is provided with a retaining portion 32 for accommodating, and the retaining annular rib 34 is formed by the screwing of the spiral rib 44 of the head portion 42 of the plunger 4 and the spiral trough portion 33 of the gasket 3 in progress. The rib missing portion 35 is provided for guiding the spiral rib 44 reaching the rib 34 to the storage portion 32.

The spiral valley portion (screwed portion) 33 has a base end 33a near the opening of the inner cavity portion 30, extends for a predetermined length in the distal direction, and near the rib missing portion 35 of the retaining annular rib 34. It has a tip 33b. In this embodiment, the spiral valley portion 33 is a double-row (two) spiral valley portion 33 so as to correspond to the spiral rib 44 of the head portion 42 of the plunger 4 described later. The gasket 3 of this embodiment is provided with two spiral ridges 36a and 36b, as shown in FIGS. 4 and 5, in order to form two (two) spiral valleys. .. In addition, although it is preferable to provide a plurality of (specifically, two) spiral troughs as described above, the number of spiral crests (spiral crests) may be only one (one). ..
Further, in this embodiment, the spiral valley portion 33 is a groove-like portion formed between the spiral mountain portions 36 protruding from the inner wall surface of the inner cavity portion 30 of the gasket 3. The spiral valley portion 33 can be screwed into the spiral rib 44 of the plunger 4, and can guide the spiral rib 44 in the tip direction.

The gasket 3 is provided with an annular rib 34 for preventing the plunger from coming off, which is provided on the inner surface of a portion located near the spiral valley 33 and on the tip side of the spiral valley 33. In the gasket of this embodiment, the retaining annular rib 34 extends in a direction substantially orthogonal to the central axis of the gasket 3. The retaining ring-shaped rib 34 preferably extends in a direction orthogonal to the central axis of the gasket 3, but may be slightly inclined from the orthogonal state. Further, the gasket 3 is provided with a storage portion 32 for storing the spiral rib forming portion of the head portion 42 of the plunger 4 on the tip side of the retaining annular rib 34.

Further, the retaining ribs 34 reach the retaining rib 34 by the progress of screwing between the spiral ribs 44 of the head portion 42 of the plunger 4 and the spiral troughs 33 of the gasket 3. A rib missing portion 35 for guiding 44 to the storage portion 32 is provided. Particularly, in the gasket 3 of this embodiment, as described above, the spiral valley portion 33 is a double spiral spiral valley portion corresponding to the double spiral ribs. As shown in FIG. 5, the two defective portions are provided at positions substantially facing each other. In other words, the gasket 3 is provided with the retaining annular ribs 34a and 34b which are divided into two, and the two rib missing portions 35a and 35b located between the retaining ribs 34a and 34b. Further, as shown in FIG. 5, it is preferable that the retaining annular rib 34 (34a, 34b) has a gradually smaller rib (protrusion height) toward the rib missing portion 35 (35a, 35b). The retaining ribs 34 (34a, 34b) are gradually narrowed toward the rib-defective portion 35 (35a, 35b) or gradually lowered in height, and further gradually. The width may be narrowed and the height gradually decreased. By doing so, it becomes easier for the spiral rib 44 of the plunger 4 to pass through the retaining annular rib 34, in other words, to enter the storage portion 32. It should be noted that the rib-defective portion need only be defective to the extent that it has a function of guiding the spiral rib of the head portion, even if the retaining annular rib of that portion is not completely defective.

In the gasket 3 of this embodiment, the base end of the spiral mountain portion 36 is located near the opening of the inner cavity 32, and the tip 36c of the spiral mountain portion 36 is the rib of the retaining annular rib 34. It is connected to the portion adjacent to the defect portion 35. In other words, the tip 36c of the spiral mountain portion 36 is connected to the proximal side surface of one end of the retaining annular rib 34 formed by the rib defect portion 35. Further, the surface on the tip side of the tip of the spiral mountain portion 36 is adjacent to the base end of the rib missing portion 35. In other words, the tip-side surface of the tip portion of the spiral mountain portion 36 is close to the rib defect portion 35 and is located on the base end side. As a result, the starting end of the spiral rib 44 can be reliably guided to the rib missing portion 35. Furthermore, the spiral rib 44 can pass through the rib-defective portion 35 and pass over the slip-off preventing annular rib 34 without significantly deforming the slip-off preventing annular rib 34 near the rib-defective portion 35.

Then, as shown in FIG. 4, the distance between the spiral mountain portion 36 and the retaining annular rib 34 becomes narrower toward the rib missing portion 35 (in the same way, toward the tip 33b of the spiral valley portion 33). It has become. Therefore, the spiral rib 44 of the plunger 4 is reliably guided to the rib missing portion 35 of the retaining annular rib 34. Further, the protruding height of the spiral crest portion 36 for forming the spiral valley portion 33 of the gasket 3 is preferably higher than the protruding height of the retaining annular rib 34. When the plunger 4 is attached to the gasket 3, the spiral rib 44 of the plunger 4 which is rotated surely passes through the rib missing portion 35 of the retaining annular rib 34 to form the spiral rib 44 in the storage portion 32. This is because it becomes easy to reliably maintain the screwed state of the spiral mountain portion 36 and the spiral rib 44 in order to store the part.
The height (protruding length inward) of the retaining annular rib 34 varies depending on the size and hardness of the gasket, but is preferably 0.5 to 2.0 mm, and particularly 0.8 to 1. 5 mm is preferable. Further, the width of the rib missing portion 35 of the retaining annular rib 34 in the circumferential direction of the gasket 3 is preferably 0.5 to 3.0 mm, and particularly preferably 0.5 to 1.5 mm.
Moreover, the gasket 3 is provided with a small protrusion protruding toward the base end side at the center of the inner surface of the tip end. When the tip end of the gasket 3 is deformed to the base end side, this protrusion can come into contact with the tip end of the head part of the plunger 3, and prevents excessive deformation of the tip end of the gasket 3. .. It is preferable that the protrusion has a substantially hemispherical shape. The gasket 3 generally has a diameter of 5 to 30 mm and a total length of 5 to 30 mm.
Further, the outer peripheral surface of the gasket 3 is provided with a tip side annular rib 38 having an outer diameter larger than the inner diameter of the outer cylinder 2 and a base end side annular rib 39 having an outer diameter similarly larger than the inner diameter of the outer cylinder 2. .. The distal annular rib 38 is provided on the outer surface of the distal end of the tubular main body, and the proximal annular rib 39 is provided on the outer surface of the proximal end of the main body.

The distal annular rib 38 is provided on the outer surface of the distal end of the tubular main body, and the proximal annular rib 39 is provided on the outer surface of the proximal end of the main body. The outer diameter of the distal end side annular rib 38 and the outer diameter of the base end side annular rib 39 are preferably 0.5 to 1.5 mm larger than the inner diameter of the outer cylinder 2, and particularly, the inner diameter of the outer cylinder 2 is 8 to 10 mm. In this case, it is preferable that the inner diameter of the outer cylinder 2 is 0.5 to 0.8 mm larger. This makes it possible to keep the sliding resistance of the gasket 3 sliding in the outer cylinder 2 low while maintaining the liquid tightness between the gasket 3 and the inner peripheral surface of the outer cylinder 2. Further, the tip end side annular rib 38 and the base end side annular rib 39 have an apex portion that extends linearly in the axial direction of the gasket 3 and protrudes to the outermost side. As shown in FIG. 3, it is preferable that the apex of the distal annular rib 38 is formed to be wide in the axial direction. Further, the axial length of the apex of the distal annular rib 38 is preferably longer than the axial length of the proximal annular rib 39. The axial length of the tip-side annular rib 38 is preferably 0.8 to 2 mm, and particularly preferably 0.8 to 1.5 mm. The axial length of the proximal end annular rib 39 is preferably 0.1 to 1.0 mm, and particularly preferably 0.2 to 0.5 mm. With the above configuration, the contact area between the gasket 3 and the inner peripheral surface of the outer cylinder 2 is increased, so that the liquid tightness is increased and the chemical liquid is less likely to leak.

As a constituent material of the gasket 3, known materials conventionally used for gaskets can be used. For example, rubber, elastomer, polyolefin-based resin, fluorine-based resin, polyester-based resin can be used. As the rubber, for example, natural rubber, isoprene rubber, butyl rubber, chloroprene rubber, nitrile-butadiene rubber, styrene-butadiene rubber, and silicone rubber are preferable, and vulcanized rubber is particularly preferable. As the elastomer, for example, a polyvinyl chloride elastomer, a polyolefin elastomer, a styrene elastomer, a polyester elastomer, a polyamide elastomer, a polyurethane elastomer and a mixture thereof are preferable. Of the above rubbers and elastomers, styrene-butadiene rubber, butyl rubber, and styrene elastomers have suitable hardness and elastic properties, and various sterilization methods such as γ-ray sterilization, electron beam sterilization, and high-pressure steam sterilization can be adopted. Is preferred.

Further, the tip side portion of the gasket may be coated with a low drug adsorbing substance or the like. As the material of the low drug adsorption layer, known materials conventionally used for laminated gaskets can be used. Examples of the material of the low drug adsorption layer include polyolefin resin, fluorine resin, and polyester resin. Specifically, the polyolefin resin is preferably polypropylene, ultra-high molecular weight polyethylene, poly(4-methylpentene-1), cyclic polyolefin, or the like, and the fluorine resin is tetrafluoroethylene-perfluoroethoxyethylene copolymer. Coal, polytetrafluoroethylene, tetrafluoroethylene/perfluoroalkyl vinyl ether copolymer, tetrafluoroethylene/hexafluoropropylene copolymer and the like are preferable. Further, it is preferable to apply the lubricant to the outer surface of the gasket 3, at least the surfaces of the distal end annular rib 38 and the proximal end annular rib 39. Silicone oil is suitable as the lubricant.

As shown in FIGS. 1, 2, and 6 to 8, the plunger 4 includes a plunger main body portion 41 and a head portion 42 protruding from the plunger main body portion 41 in the distal direction. The plunger main body 41 includes a disk portion 48 located at the tip end, from which the head portion 42 projects, and a pressing portion 45 located at the base end. As shown in FIGS. 6 and 9, the plunger main body 41 includes a shaft portion having a cross-shaped cross section, a disc portion 48 is provided at the tip thereof, and a disc-shaped plunger pressing portion 45 is provided at the base end side thereof. Has been.
The head portion 42 is a protrusion provided on the tip of the plunger 4. The head section 42 projects forward from the vicinity of the center of a disk section 48 provided at the tip of the main body section 41. The head portion 42 has a rod shape. As shown in FIGS. 6 to 8, the head portion 42 includes a shaft portion 43 and a spiral rib 44 formed on the outer surface thereof. Further, the tip of the shaft portion 43 is flat. Further, the shaft portion 43 may have a cylindrical shape, a cylindrical shape, a polygonal shape such as a quadrangular shape, a pentagonal shape, a hexagonal shape, or a cross shape.

A spiral rib 44 is formed on the outer surface of the front end portion of the head portion 42 of the plunger 4, specifically, on the outer surface of the front end portion of the shaft portion 43. In the plunger 4 of this embodiment, as shown in FIGS. 6 to 8, two spiral ribs 44 are formed so as to correspond to the spiral valley 33 of the gasket 3 described above. The spiral rib 44 has a starting end at the tip end of the head portion 42 of the plunger 4, specifically, the tip end of the shaft portion 43, extends toward the base end side of a predetermined length, and has an end end at the base end side. ing. It is preferable to provide such a plurality of (specifically, two) spiral ribs, but the number of spiral ribs may be only one (one).
The height of the spiral ribs 44 of the plunger 4 (projection length toward the outside) is preferably 0.5 to 2.5 mm, and particularly preferably 1.0 to 2.0 mm. As a constituent material of the plunger 4, it is preferable to use a hard or semi-hard resin such as high-density polyethylene, polypropylene, polystyrene, or polyethylene terephthalate.

Then, the spiral rib 44 has an entry restriction end portion 46 that restricts the entry of the spiral rib 44 into the rib defect portion 35 after the spiral rib formation portion of the plunger 4 is housed in the housing portion 32 of the gasket 3. Have
In particular, in the plunger 4 of the embodiment shown in FIGS. 6 to 8, the entry restricting end portion of the spiral rib is formed at the end of the spiral rib 44, and the surface on the tip side of the spiral rib 44 is the spiral rib 44. An inclined terminal end surface 46 for restricting entry that is inclined at a predetermined angle with respect to the central axis of the shaft portion is provided so as to extend longer in the circumferential direction of the shaft portion than the surface on the base end side of.
Specifically, as shown in FIGS. 7 and 8, the inclined end surface 46 is inclined at a predetermined angle with respect to the central axis of the shaft portion 43 of the plunger 4 and faces the base end direction. For this reason, the proximal end side of the spiral rib 44 has a distal end surface facing the distal end direction of the plunger 4, a proximal end surface facing the proximal end direction (disk portion 48) direction of the plunger 4, and the distal end side. It has an inclined terminal surface 46 that is an inclined surface that connects the surface and the surface on the base end side and that faces the oblique base end direction.
The inclination angle of the inclined end surface 46 with respect to the central axis of the shaft portion 43 of the plunger 4 is preferably 30 to 60 degrees, and particularly preferably 40 to 70 degrees.

The inclined end surface 46 of the spiral rib 44 serves as a tip portion when the annular rib 34 enters the rib defect portion 35 when the plunger 4 is rotated in the direction opposite to the screwing advancing direction. By providing the inclined end surface 46 as described above at the end of the spiral rib 44, the inclined end surface 46 is adjacent to the rib missing portion 35 of the spiral mountain portion 36 even if the spiral rib 44 is reversely rotated. The end of the spiral rib 44 abuts on the side surface of the portion, and it is difficult for the end of the spiral rib 44 to enter the spiral trough 33 from within the rib missing portion 35. Further, since the inclined terminating surface 46 is an inclined surface that faces the oblique base end direction, when the inclined terminating surface 46 comes into contact with the side surface of the portion of the spiral mountain portion 36 adjacent to the rib defect portion 35, the spiral ribs are formed. A force is generated at 44 in the direction of the diagonal tip. Therefore, the plunger 4 is liable to idle, and the plunger 4 does not easily come off from the gasket 3.
Further, in the plunger 4 of this embodiment, the spiral rib 44 has a spiral end portion 47 (circumferentially extending portion) at the base end, which has a smaller spiral inclination than the tip end side portion of the spiral rib 44. There is. The spiral end portion is inclined very gently toward the end. Therefore, the base end surface of the spiral end portion 47 is nearly orthogonal to the central axis of the shaft portion 43. By providing the spiral end portion 47 having such a small inclination, the facing distance between the surface of the spiral rib 44 on the tip end side of the end portion 47 and the surface of the spiral rib 44 facing the base end side in the tip direction is reduced. , Is shorter than the facing distance in the other part of the spiral rib. Therefore, when the plunger 4 mounted on the gasket 3 is rotated, it becomes more difficult to enter the spiral trough 33 from the rib missing portion 35 at the terminal end of the spiral rib 44. The central angle of the spiral end portion 47 is preferably 30 to 150 degrees, and particularly preferably 80 to 100 degrees. The central angle of the spiral end portion (circumferentially extending portion) referred to here is two straight lines connecting the center end of the shaft portion and the end and the end of the spiral terminal portion (circumferentially extending portion). It is the angle you make.

Then, the plunger 4 is inserted into the gasket 3 with the spiral rib 44 of the plunger 4 at the base end of the spiral trough 33 of the gasket 3, and then the plunger 4 is rotated to form a spiral rib with the spiral rib 44. The screwing with the valley 33 progresses. When the plunger 4 is further rotated, the spiral rib 44 passes through the rib missing portion 35 of the retaining annular rib 34, enters the storage portion 32, and continues the rotation of the plunger, whereby the spiral rib 44 shown in FIG. Thus, the entire spiral rib 44 passes through the rib missing portion 35 of the retaining annular rib 34, and the spiral rib forming portion of the head portion 42 of the plunger 4 is housed in the housing portion 32 of the gasket 3. It will be in a state of being.

When the plunger 4 is mounted on the gasket 3, the base end surface of the spiral rib 44 (spiral end portion 47) of the plunger 4 comes into contact with the tip end surface of the retaining annular ring 34 of the gasket 3. Removal of the plunger 4 from the gasket 3 is restricted. Further, in the plunger 4, the spiral rib 44 has a spiral end portion 47 (circumferentially extending portion) at the base end. For this reason, the proximal end surface of the spiral rib 44 of the plunger 4 that abuts against the distal end surface of the retaining annular rib 34 becomes large, and the plunger 4 is detached from the gasket 3 when the plunger 4 is pulled to the proximal end side. More surely prevented. Further, the plunger 4 has an inclined end surface 46 at the end of the spiral rib 44. Therefore, when an operation that is not normally performed, such as pulling and rotating the plunger 4 toward the base end side, is performed, the inclined terminal surface 46 is formed on the side surface of the portion of the spiral mountain portion 36 adjacent to the rib defect portion 35. The ends of the spiral ribs 44 are brought into contact with each other, and it is difficult for the end portions of the spiral ribs 44 to enter the spiral troughs 33 from inside the rib defect portion 35. Therefore, even if the above-mentioned special operation is performed, the plunger 4 is prevented from being separated from the gasket 3.

Further, the entry restriction end portion of the spiral rib 44 may be of a type included in the plunger 4a of the embodiment shown in FIGS. 11 to 13. In this embodiment, the entry restricting end portion of the spiral rib is provided with a circumferential extending portion 47a that is substantially orthogonal to the central axis of the shaft portion 43 and extends for a predetermined length in the circumferential direction of the shaft portion 43.
Specifically, in the plunger 4a of this embodiment, the spiral rib 44 has a circumferentially extending portion 47a extending in the circumferential direction of the shaft portion 43 provided at the base end thereof. The circumferentially extending portion 47a extends in the predetermined circumferential direction so as to be substantially orthogonal to the central axis of the shaft portion 43. Therefore, the end portion of the spiral rib has substantially no spiral shape. The base end surface of the circumferentially extending portion 47a is substantially flat. Therefore, the base end surface of the circumferentially extending portion 47a is substantially parallel to the annular rib 34 of the gasket 3 when the plunger 4a is mounted on the gasket 3.
The circumferentially extending portion 47a can pass through the spiral valley portion 33 of the gasket 3 and the missing portion of the retaining annular rib 34. The central angle of the circumferentially extending portion 47a is preferably 30 to 150 degrees, and particularly preferably 80 to 100 degrees.

Then, in the plunger 4a, the spiral rib 44 of the plunger 4a is inserted into the proximal end of the spiral trough 33 of the gasket 3 and then the plunger 4a is rotated in the same manner as the plunger 4 described above. The screwing of the spiral rib 44 and the spiral valley 33 progresses. When the plunger 4a is further rotated, the spiral rib 44 passes through the rib missing portion 35 of the retaining ring-shaped rib 34, enters the storage portion 32, and continues the rotation of the plunger, as shown in FIG. As described above, the entire spiral rib 44 passes through the rib missing portion 35 of the retaining annular rib 34, and the spiral rib forming portion of the head portion 42a of the plunger 4a is housed in the housing portion 32 of the gasket 3. It will be in a state of being.
When the plunger 4a is attached to the gasket 3, the proximal end surface of the spiral rib 44 of the plunger 4a abuts on the distal end surface of the retaining annular rib 34 of the gasket 3. Is regulated. Further, in the plunger 4a of this embodiment, the spiral rib 44 has the circumferentially extending portion 47a at the base end. For this reason, the proximal end surface of the spiral rib 44 of the plunger 4a that abuts against the distal end surface of the retaining annular rib 34 becomes large, and the plunger 4a is detached from the gasket 3 when the plunger 4a is pulled to the proximal end side. More surely prevented. Further, in this embodiment, the terminal end surface of the circumferentially extending portion 47a is a standing terminal surface 46a extending substantially parallel to the central axis of the shaft portion 43. The standing end surface 46a of the spiral rib 44 serves as a tip portion when the annular rib 34 enters the rib defect portion 35 when the plunger 4 is rotated in the direction opposite to the screwing advancing direction. By providing the rising end surface 46a as described above at the end of the spiral rib 44, the rising end surface 46a is adjacent to the rib lacking portion 35 of the spiral mountain portion 36 even when the spiral rib 44 is reversely rotated. The end of the spiral rib 44 abuts on the side surface of the portion, and it is difficult for the end of the spiral rib 44 to enter the spiral trough 33 from within the rib missing portion 35. Therefore, even if the above-described special operation is performed, the plunger 4a is prevented from being separated from the gasket 3.

Further, the entry restricting end portion of the spiral rib 44 may be of a type provided in the plunger 4b of the embodiment shown in FIGS. 14 to 16. In this embodiment, the spiral rib has a constant inclination from the start end to the end, and the entry restriction end portion of the spiral rib is formed at the end of the spiral rib 44 and is located at the central axis of the shaft portion 43. The standing end surface 46b is provided so as to extend substantially parallel thereto.
The standing end surface 46b is formed substantially parallel to the central axis of the shaft portion 43, as shown in FIGS. 14 and 16. The spiral rib 44 is formed such that the thickness at the tip (starting end) becomes thinner toward the tip (starting end). However, on the proximal end side, the spiral rib is in a state of being cut with respect to the central axis of the shaft portion 43. That is, the terminal end of the spiral rib 44 has the same thickness and shape as the other parts of the spiral rib except for the tip. Therefore, the standing end surface 46b also has a sufficient area. Further, the standing end surface 46b is gradually thinned toward the outer end thereof, but has a sufficient height (thickness) at the outer end. The standing end surface 46b is preferably parallel to the central axis of the shaft portion 43, but may be slightly oblique to the central axis. In this case, it is preferable that the standing end surface 46b be inclined toward the base end side (the disk portion 48 side). Further, the standing end surface 46b is preferably a flat surface, but may be an uneven surface or a curved surface.

Then, in the plunger 4b, the spiral rib 44 of the plunger 4b is inserted into the proximal end of the spiral trough 33 of the gasket 3 and then the plunger 4b is rotated, as in the plunger 4 described above. The screwing of the spiral rib 44 and the spiral valley 33 progresses. When the plunger 4b is further rotated, the spiral rib 44 passes through the rib missing portion 35 of the retaining ring-shaped rib 34, enters the storage portion 32, and continues rotation of the plunger, whereby the spiral rib 44 shown in FIG. As described above, the entire spiral rib 44 passes through the rib missing portion 35 of the retaining annular rib 34, and the spiral rib forming portion of the head portion 42b of the plunger 4b is housed in the housing portion 32 of the gasket 3. It will be in a state of being.

When the plunger 4b is attached to the gasket 3, the proximal end surface of the spiral rib 44 of the plunger 4b contacts the distal end surface of the retaining annular rib 34 of the gasket 3, so that Is regulated. Further, in the plunger 4b of this embodiment, the spiral rib 44 has the standing end surface 46b. The standing end surface 46b of the spiral rib 44 serves as a tip portion when the annular rib 34 enters the rib defect portion 35 when the plunger 4 is rotated in the direction opposite to the screwing advancing direction. By providing the rising end surface 46b as described above at the end of the spiral rib 44, even if the spiral rib 44 is rotated in the reverse direction, the rising end surface 46b is adjacent to the rib missing portion 35 of the spiral mountain portion 36. It comes into contact with the side surface of the portion to be covered, and it is difficult for the spiral rib 44 to enter the rib lacking portion 35. Therefore, even if the above-described special operation is performed, the plunger 4b is prevented from being separated from the gasket 3.

In all of the above-mentioned embodiments, two spiral ribs 44 are provided, and each of the spiral ribs 44 is provided with an entry restriction end portion at the end thereof. Although such a structure is preferable, the entry restriction terminal portion may be provided only on one spiral rib 44.
Further, in the case where the entry restriction end portions are provided at the ends of the respective spiral ribs 44, it is desirable that the shapes of the entry restriction end portions are the same, but the shapes of the entry restriction end portions in all the above-described embodiments are arbitrary. May be combined.

Further, in all of the above-mentioned embodiments, the outer peripheral surface of the gasket is provided between the distal end side annular rib 38 and the proximal end side annular rib 39 like the gasket 3a of the embodiment shown in FIGS. The intermediate annular rib 37 may be provided.
The intermediate annular rib 37 is provided on the outer peripheral surface of the gasket 3a, and is formed between the distal annular rib 38 and the proximal annular rib 39. The intermediate annular rib 37 is circumferentially provided along the outer peripheral surface of the gasket 3a in a direction orthogonal to the central axis of the gasket 3a. Further, as shown in FIGS. 17 to 19, the intermediate annular rib 37 is formed so as to project from the outer peripheral surface of the gasket 3a substantially uniformly over the entire circumference of the gasket 3a.

As shown in FIG. 18, the intermediate annular rib 37 is provided on a side portion of the retaining annular rib. When the plunger 4 is strongly pulled toward the base end side, the deformation force toward the base end side given to the retaining annular rib 34 is a gasket located slightly closer to the base end side than the distal end surface of the retaining annular rib 34. It is transmitted to the outer peripheral surface of 3a. Therefore, it is preferable that the intermediate annular rib 37 is located closer to the base end side than the tip end surface of the retaining annular rib 34. As a result, the deformation of the retaining annular rib 34 is more reliably inhibited, and the contact state between the proximal end surface of the spiral rib 44 and the leading end surface of the retaining annular rib 34 is more reliably maintained, and the plunger 4 The detachment from the gasket 3a is more reliably prevented. In this embodiment, the intermediate annular rib 37 is provided on the base end side portion of the retaining annular rib 34 and the side portion of the tip end 36c of the spiral mountain portion 36. Specifically, it is formed on the outer surface of the side portion at a portion slightly closer to the base end side than the apex portion of the retaining annular rib 34 protruding inward. Therefore, the apex of the intermediate annular rib is located slightly closer to the base end side than the apex of the retaining annular rib. At least the tip end side portion of the intermediate portion annular rib 37 from the apex overlaps with the base end side portion of the retaining annular rib 34 in the axial direction.
Further, as shown in FIG. 18, the intermediate annular rib 37 is formed so as to axially overlap the tip end 36c of the spiral mountain portion 36. Further, in the gasket 3a of this embodiment, as shown in FIG. 18, the tip 36c of the spiral mountain portion 36 is connected to the portion of the retaining annular rib 34 facing the rib defect portion 35. The middle annular rib 37 is arranged so that its apex is located near the connecting portion (tip 36c). In the gasket 3a of this embodiment, the retaining annular rib 34 is orthogonal to the central axis of the gasket 3a, and correspondingly, the intermediate annular rib 37 is also the same. Has become.

As shown in FIG. 18, the outer diameter of the intermediate annular rib 37 is smaller than the outer diameter of the distal annular rib 38 and the outer diameter of the proximal annular rib 39. As a result, the sliding resistance of the gasket 3a that slides in the outer cylinder 2 can be kept low. The outer diameter of the intermediate annular rib 37 is larger than the inner diameter of the outer cylinder 2. Accordingly, when the plunger 4 is strongly pulled toward the base end side, the intermediate annular rib 37 surely comes into contact with the inner peripheral surface of the outer cylinder 2 and the deformation of the retaining annular rib 34 is reliably prevented. it can. The vertical cross-sectional shape of the intermediate annular rib 37 has a mountain-like shape with a sharp top facing in the horizontal direction, and the tip of the top can contact the inner surface of the outer cylinder 2. By being formed in a mountain shape having a top, the contact area of the intermediate annular rib 37 with the inner peripheral surface of the outer cylinder 2 can be reduced. In particular, the contact area between the intermediate annular rib 37 and the inner peripheral surface of the outer cylinder 2 is defined as the contact area between the distal annular rib 38 and the inner peripheral surface of the outer cylinder 2, and the contact area between the proximal end annular rib 39 and the outer cylinder 2. By making the area smaller than the contact area with the inner peripheral surface, the contact resistance (sliding resistance) of the gasket 3a to the outer cylinder 2 at the time of vacuum plugging the gasket 3a to the outer cylinder 2 or the operation of the plunger 4 is reduced. It can be suppressed, and liquid tightness to the medicine 8 to be filled can be secured by the distal end side annular rib 38 and the proximal end side annular rib 39. If the deformation of the retaining annular rib 34 is further hindered, the area of the contact portion of the intermediate annular rib that contacts the inner peripheral surface of the outer cylinder 2 can be increased and the intermediate annular rib can be sufficiently supported. Therefore, the intermediate annular rib may be modified so that its vertical cross-sectional shape is rectangular or hemispherical, for example.

The outer diameter of the intermediate annular rib 37 is preferably 0 to 1.0 mm larger than the inner diameter of the outer cylinder 2, and, in particular, when the inner diameter of the outer cylinder 2 is 8 to 10 mm, the inner diameter of the outer cylinder 2 is 0. It is preferably 1 to 0.5 mm larger. As a result, it is possible to suppress the sliding resistance of the gasket 3a that slides in the outer cylinder 2 while inhibiting the deformation of the retaining annular rib 34 when the plunger 4 is pulled toward the base end side. When the plunger 4 is strongly pulled toward the base end side, the intermediate annular rib 37 is in contact with the inner peripheral surface of the outer cylinder 2 to the extent that the deformation of the retaining annular rib 34 is hindered. The outer diameter may be smaller than the inner diameter of the outer cylinder 2.

Also in the gasket 3a of this embodiment, like the gasket 3 described above, the proximal end surface of the spiral rib 44 of the plunger 4 abuts against the distal end surface of the retaining annular rib 34 of the gasket 3a, and the gasket 3a of the plunger 4 is in contact. Withdrawal is regulated. Further, in this gasket 3a, when the plunger 4 is strongly pulled toward the base end side, the intermediate annular rib 37 abuts on the inner peripheral surface of the outer cylinder 2 so that the retaining annular rib 34 is expanded more than a predetermined amount. Regulate so that it is not allowed. This prevents the spiral ribs 44 from riding over the retaining annular rib 34.

Further, in all the above-mentioned embodiments, the height of the retaining annular ring of the gasket and the height of the spiral rib of the plunger differ depending on the size and hardness of the gasket, but are as follows. preferable. The height of the annular rib for preventing the gasket from coming off (protruding length inward) is preferably 0.5 to 2.0 mm, and particularly preferably 0.8 to 1.5 mm. The height of the spiral rib of the plunger (the protruding length to the outside) is preferably 0.5 to 2.5 mm, and particularly preferably 1.0 to 2.0 mm. As a constituent material of the plunger 4, it is preferable to use a hard or semi-hard resin such as high-density polyethylene, polypropylene, polystyrene, or polyethylene terephthalate.

Further, the syringe and the prefilled syringe of the present invention are not limited to the above-mentioned gasket having the retaining ribs.
The plunger 4c shown in FIGS. 20 to 22 may be used, and the gasket 3b shown in FIGS. 23 to 25 may be used.
Like the above-mentioned syringe, the syringe of this embodiment is a tubular body having a closed distal end and an open proximal end, and as shown in FIGS. 23 to 25, extends from the proximal end to the distal end. A gasket 3b having a cavity portion 30, an outer cylinder 2 having a tip opening portion and slidably accommodating the gasket as shown in FIG. 2, and an inner cavity of the gasket 3b as shown in FIGS. And a plunger 4c having a head portion 42c that can be stored in the portion 30. The plunger 4c is also provided on the head portion 42c and includes a spiral rib 44 having a starting end on the tip end side and an ending end on the base end side.

The gasket 3b is the same as the gasket 3 described above, except that the gasket 3b does not have the retaining ribs 34 and the rib missing portions 35. Therefore, the gasket 3b includes the inner cavity portion 30, and the inner cavity portion 30 has the plunger attachment function. The inner cavity portion 30 has a spiral mountain portion 36 on the inner surface thereof that forms a spiral valley portion 33 for screwing with the spiral rib 44 of the plunger 4c, and the plunger 4c of the plunger 4c on the tip side of the spiral mountain portion 36. A storage portion 32 for storing the spiral rib forming portion of the head portion 42c is provided. The spiral valley portion 33 has a starting end near the opening of the inner cavity portion 30, extends in the front end direction for a predetermined length, and has a terminating end on the base end side of the storage portion 32.
The spiral rib 44 of the plunger 4c prevents the spiral rib 44 from entering the tip 33b of the spiral valley 33 after the spiral rib forming portion of the plunger 4c is housed in the housing 32 of the gasket 3b. It has an entry regulation end portion 47b for regulating. The entry regulation terminal end portion 47b is a thicker terminal end portion 47b larger than the width of the tip end 33b of the spiral valley portion 33. Then, the thick end portion 47b can pass through the spiral valley portion 33 by pushing the spiral mountain portion 36 apart, and the penetration of the spiral valley portion 33 into the tip end 33b after the passage is substantially achieved. Has become impossible.

In this embodiment, as shown in FIGS. 20 to 22 and 26, the spiral rib 44 is formed so that the thickness thereof becomes thicker toward the end. Therefore, the end is the thickest. It should be noted that only the end portion may be thick, the tip portion may have a substantially uniform thickness, and the thickness may gradually increase from the central portion toward the end portion. Further, in this embodiment, the end face 46d of the thick end 47b of the spiral rib 44 is a standing end face 46d extending substantially parallel to the central axis of the shaft 43. Therefore, the end surface 46d has the same area as the thickness of the thick end portion 47b. The spiral rib 44 in this embodiment is gradually thinned toward the outer end on the tip side. However, the thick end portion 47b has a trapezoidal cross section with a sufficient width even at the outer end, as shown in FIG. Therefore, the end surface 46d also has a trapezoidal cross section with a sufficient width at the outer end. The thickness of the thick end portion 47b, in other words, the height of the end surface 46d (the axial length with respect to the central axis of the shaft portion 43) is the height of the tip 33b of the spiral valley portion 33 (the center of the gasket 3b). (Axial length with respect to the axis). Therefore, it prevents the spiral valley 33 at the end of the thick end 47b from entering the tip 33b.
The standing end surface 46d is preferably parallel to the central axis of the shaft portion 43, but may be slightly inclined with respect to the central axis. In this case, it is preferable that the standing end surface 46d be inclined toward the base end side (the disk portion 48 side). Further, the standing base end surface 46d is preferably a flat surface, but may be an uneven surface or a curved surface.

Also in the plunger 4c and the gasket 3b, the spiral rib 44 of the plunger 4c is inserted into the proximal end of the spiral trough 33 of the gasket 3b, and then the plunger 4c is rotated, as in the above-described embodiment. The screwing of the spiral rib 44 and the spiral trough 33 progresses. Then, the thick end portion 47b advances in the spiral valley portion 33 while slightly expanding the spiral mountain portion 36. By continuing the rotation of the plunger 4c, the spiral rib 44 passes through the spiral trough portion 33 and enters the storage portion 32, so that the spiral rib 44 as a whole, in other words, as shown in FIG. For example, the spiral rib forming portion of the head portion 42c of the plunger 4c is stored in the storage portion 32 of the gasket 3b.
When the plunger 4c is mounted on the gasket 3b, the proximal end surface 46d of the thick end 47b of the spiral rib 44 of the plunger 4c abuts on the distal end surface of the spiral crest 36. Detachment from the gasket 3b is restricted. Then, when an operation that is not normally performed such as pulling and rotating the plunger 4c toward the base end side is performed, the thick end portion 47b of the spiral rib 44 is located inside the base end 33b of the spiral valley portion 33. Do not enter. Therefore, even when the above-mentioned special operation is performed, the plunger is prevented from being separated from the gasket.

The outer cylinder 2 is a cylindrical body made of a transparent or translucent material, preferably a material having low oxygen permeability and water vapor permeability. As shown in FIGS. 2 and 9, the outer cylinder 2 includes a nozzle portion 22 and a collar 23. The nozzle portion 22 is provided at the tip of the outer cylinder 2 and is provided with a tip opening portion for discharging a chemical solution or the like in the outer cylinder and is formed so as to taper toward the tip. The collar 23 is formed in a cylindrical shape concentrically with the nozzle portion 22 so as to surround the nozzle portion 22. Further, the front end of the collar 23 is opened, and the inner diameter and the outer diameter of the collar 23 are substantially the same from the base end (outer cylinder front end surface 21) to the front end. The tip of the nozzle portion 22 projects from the tip opening of the collar 23. The tip of the nozzle portion 22 and the collar 23 accommodate the nozzle portion 22 and the collar 23 in the sealing member (seal cap) 5. Chamfered to make it easier.

On the inner peripheral surface of the collar 23, a screw groove (outer cylinder side spiral trough portion) for screwing with a screw thread (cap side spiral mountain portion) 54 formed in the nozzle housing portion 53 of the seal cap 5 described later. ) 25 is formed. As a result, the outer cylinder 2 and the seal cap 5 are screwed between the inner peripheral surface of the collar 23 and the outer peripheral surface of the nozzle housing portion 53. The thread groove (outer cylinder side spiral trough) 25 is a portion to which the injection needle (hub of the injection needle) is attached after the seal cap 5 is removed from the outer cylinder. The outer cylinder has a flange 24, as shown in FIGS. 1, 2, and 9. The flange 24 is an elliptical donut-shaped disc portion formed so as to project in the vertical direction from the entire circumference of the base end of the outer cylinder 2. The flange 24 is provided with two wide gripping portions 24a and 24b facing each other as shown in FIGS. 1, 2, and 9, and further, a plurality of ribs are formed on the tip end surface side of the gripping portion. ..

Examples of the material for forming the outer cylinder 2 include polypropylene, polyethylene, polystyrene, polyamide, polycarbonate, polyvinyl chloride, poly-(4-methylpentene-1), acrylic resin, acrylonitrile-butadiene-styrene copolymer, polyethylene terephthalate. Various resins such as polyesters and cyclic polyolefins are listed, and among them, resins such as polypropylene and cyclic polyolefins are preferable because they are easy to mold and have heat resistance. The seal cap 5, which is a sealing member, includes a closed end 51, a nozzle housing portion 53, and a collar housing portion 52, as shown in FIGS. 1, 2, and 10.

The nozzle accommodating portion 53 is provided in the central portion of the seal cap 5 and has a cylindrical shape with a closed tip. The inner diameter of the nozzle accommodating portion 53 is made slightly larger than that of the nozzle portion 22, and the diameter is slightly tapered from the distal end to the proximal end toward the proximal end, and the entire nozzle portion 22 is accommodated from the proximal end opening. Has become. A seal member 55 for liquid-tightly sealing the front end opening of the outer cylinder 2 is housed in the inner closed surface of the nozzle housing portion 53 (inner surface of the closed end 51). The seal member 55 is preferably an elastic member that can liquid-tightly seal the tip opening of the outer cylinder 2. As the material for forming the seal member, it is preferable to use, for example, synthetic rubber such as natural rubber, isoprene rubber, butadiene rubber, fluororubber, silicone rubber, or a thermoplastic elastomer such as olefin elastomer or styrene elastomer. Further, on the outer surface of the nozzle housing portion 53, a screw thread (cap side spiral mountain portion) for screwing with a screw groove (outer cylinder side spiral valley portion) 25 formed on the inner surface of the collar 23 of the outer cylinder 2. ) 54 is formed. As a result, the outer cylinder 2 and the seal cap 5 are screwed between the outer surface of the nozzle housing portion 53 and the inner surface of the collar 23.

The collar housing portion 52 is a cylindrical body that is formed so as to surround the nozzle housing portion 53 and has a closed tip, and houses the collar 23 between the inner surface of the collar housing portion 52 and the outer surface of the nozzle housing portion 53. Further, the cylindrical color storage portion 52 is concentric with the nozzle storage portion 53, and the inner diameter of the color storage portion 52 is substantially the same from the tip to the base end. In addition, as shown in FIG. 1, the outer surface of the seal cap 5 (the outer peripheral surface of the color accommodating portion 52) is notched in the vertical direction to prevent fingers from slipping when the seal cap 5 is rotated. It has been subjected. Examples of the material for forming the seal cap 5 include polypropylene, polyethylene, polystyrene, polyamide, polycarbonate, polyvinyl chloride, poly-(4-methylpentene-1), acrylic resin, acrylonitrile-butadiene-styrene copolymer, polyethylene terephthalate. Various resins such as polyesters and cyclic polyolefins are listed, and among them, resins such as polypropylene and cyclic polyolefins are preferable because they are easy to mold and have heat resistance.

As shown in FIGS. 1 and 2, the prefilled syringe 1 of the present invention is a space formed by the above-described syringe 10, a sealing member 5 that seals the distal end opening of the outer cylinder 2, and a gasket 3. And the medicine 8 filled in. The drug 8 may be any drug, for example, cyclosporine, a benzodiazepine drug, a sodium chloride injection, a vitamin drug, a drug such as minerals, a solution such as physiological saline, an antibiotic, a protein. A powdered or lyophilized drug such as a drug formulation or a liquid drug is used. The prefilled syringe of the present invention is particularly suitable for a prefilled syringe filled with a solution for dissolving a drug contained in a vial or the like. Examples of such a solution include physiological saline, water for injection, and glucose solution.

And the syringe of the present invention is as follows.
(1) A gasket that is a tubular body having a closed distal end and an open proximal end and that includes a lumen portion that extends from the proximal end side toward the distal end side; and a gasket that includes a distal end opening part and that is slidably accommodated. A syringe having an outer cylinder for holding and a plunger having a head part that can be housed in the inner cavity part of the gasket, wherein the plunger is provided in the head part, and has a starting end on a distal end side and a terminating end on a proximal end side. A spiral rib having a spiral rib that forms a spiral trough for screwing with the spiral rib of the plunger on the inner surface of the inner cavity portion; and A plunger retaining annular rib located on the tip side, and further, the inner cavity portion is located on the tip side with respect to the retaining annular rib, and the helical rib forming portion of the head portion of the plunger is formed. A retaining portion for accommodating is further provided, and the retaining ring-shaped rib guides the spiral rib that has reached the retaining ring-shaped rib to the storing portion by progress of screwing of the plunger and the gasket. The plunger includes a rib-defective portion for retaining the spiral rib at the end of the spiral rib after the spiral rib forming portion of the plunger is accommodated in the accommodating portion of the gasket. A syringe having an entry restriction terminal portion for restricting entry of the syringe.

And the embodiment of the said syringe may be the following (2) The front-end|tip of the said spiral mountain part is connecting with the part adjacent to the said rib defect part of the said retaining annular rib, The syringe according to (1) above, wherein the distal end side surface of the distal end portion of the spiral mountain portion is adjacent to the proximal end of the rib defect portion.
(3) The gasket has, on an outer peripheral surface thereof, a front end side annular rib having an outer diameter larger than an inner diameter of the outer cylinder, a base end side annular rib having an outer diameter larger than an inner diameter of the outer cylinder, and the front end. A side annular rib and an intermediate portion annular rib provided between the base end side annular ribs; and further, the intermediate portion annular rib is provided at a portion which becomes a side portion of the retaining annular rib. The syringe according to (1) or (2).
(4) The syringe according to (3), wherein the outer diameter of the intermediate annular rib is smaller than the outer diameter of the distal annular rib and the outer diameter of the proximal annular rib.
(5) The syringe according to (4), wherein the intermediate annular rib has an outer diameter larger than the inner diameter of the outer cylinder.
(6) The contact area between the intermediate annular rib and the inner peripheral surface of the outer cylinder is the contact area between the distal annular rib and the inner peripheral surface of the outer cylinder, and the proximal end annular rib and the outer cylinder. The syringe according to (5) above, which has a smaller contact area with the inner peripheral surface of the.
(7) The syringe according to any one of (3) to (6), wherein the vertical cross-sectional shape of the intermediate annular rib is a mountain shape having a top.
(8) The intermediate annular rib is provided such that an outermost apex of the intermediate annular rib is located at a side of a proximal end portion of the retaining annular rib. The syringe according to any one of 3) to (7).

The syringe of the present invention is as follows.
(9) A gasket that is a tubular body having a closed distal end and an open proximal end and that includes a lumen portion that extends from the proximal end side toward the distal end side; and a gasket that includes a distal end opening portion and that can slidably accommodate the gasket. A syringe having an outer cylinder for holding and a plunger having a head part that can be housed in the inner cavity part of the gasket, wherein the plunger is provided in the head part, and has a starting end on a distal end side and a terminating end on a proximal end side. A spiral rib having a spiral rib that forms a spiral trough for screwing with the spiral rib of the plunger on the inner surface of the inner cavity portion; and Positioned on the tip side, the storage part for storing the spiral rib forming part of the head part of the plunger is provided, and the spiral valley part has a starting end near the opening part of the lumen part, The plunger extends toward the front end for a predetermined length and has a terminal end on the proximal side from the housing portion, and the plunger has a spiral rib forming portion of the plunger in the housing portion of the gasket at the terminal end of the spiral rib. A syringe characterized in that it comprises an entry restriction terminal part for restricting entry of the spiral rib into the terminal end of the spiral trough after storage.

And the embodiment of the said syringe may be the following (10) The said head part has a shaft part which equips an outer surface with the said spiral rib, and the said entrance control termination|terminus part of the said spiral rib is. The syringe according to any one of (1) to (9) above, which has a standing end surface formed at an end of the spiral rib and extending substantially parallel to a central axis of the shaft portion.
(11) The head portion has a shaft portion provided with the spiral rib on an outer surface, and the entry restriction end portion of the spiral rib is formed at a terminal end of the spiral rib, and a tip of the spiral rib. A sloped end surface for entrance regulation inclined by a predetermined angle with respect to the central axis of the shaft so that the side surface extends longer in the circumferential direction of the shaft than the surface on the base end side of the spiral rib. The syringe according to any one of (1) to (9) above.
(12) The head portion has a shaft portion provided with the spiral rib on an outer surface,
The entry restriction terminal portion of the spiral rib is provided at the base end of the spiral rib so that the inclination of the spiral is smaller than that of the tip end side portion of the spiral rib, or the central axis of the shaft portion. The syringe according to any one of (1) to (11) above, comprising a circumferential extension extending in the circumferential direction of the shaft portion to the terminal end of the spiral rib so as to be substantially orthogonal to.
(13) The entry restriction end portion includes a thick-walled end portion having a larger width in the axial direction of the gasket than the end of the spiral valley portion, and the thick-walled end portion includes the spiral valley portion. The syringe according to any one of the above (9) to (12), which can be passed by being spread and is substantially incapable of entering the terminal end of the spiral valley after passing.
(14) The syringe according to any one of (1) to (13), which is a prefilled syringe.
Further, the prefilled syringe of the present invention is as follows.
(15) A prefilled device including the syringe according to any one of (1) to (14), a sealing member that seals the distal end opening portion of the outer cylinder, and a drug contained in the outer cylinder. Syringe.

What achieves the above object is as follows.
A tubular body having a closed distal end and an open proximal end, the gasket having an inner cavity extending from the proximal end toward the distal end, and an outer cylinder having a distal end opening and slidably accommodating the gasket. And a plunger having a head portion that can be housed in the inner cavity portion of the gasket, wherein the plunger is provided in the head portion, and has a starting end on a distal end side and a terminating end on a proximal end side. A spiral rib that forms a spiral trough that is screwed into the spiral rib of the plunger on the inner surface of the inner cavity, and the gasket is provided on the distal side of the spiral peak. A plunger retaining annular rib positioned, and further, the inner cavity portion is located on the tip side of the retaining annular rib, and accommodates the spiral rib forming portion of the head portion of the plunger. Further, the retaining ring-shaped annular rib is a rib for guiding the spiral rib that has reached the retaining ring-shaped annular rib to the storing section by the progress of screwing of the plunger and the gasket. With a missing part,
The head portion of the plunger has a shaft portion provided with the spiral rib on an outer surface, and the plunger has a spiral rib forming portion at the end of the spiral rib, the spiral rib forming portion of the plunger into the storage portion of the gasket. Of the spiral rib after the storage of the rib to restrict the entry of the entry restriction end portion, the entry restriction end portion is substantially orthogonal to the central axis of the shaft, and, A circumferential extending portion extending in a circumferential direction of the shaft portion is provided, and a terminal end portion of the spiral rib has substantially no spiral shape, and the circumferential extending portion and the circumferential portion are provided. The syringe wherein the distance between the spiral ribs located at the top of the directional extension narrows towards the end .

Further, the entry restriction end portion of the spiral rib 44 may be of a type included in the plunger 4a of the embodiment shown in FIGS. 11 to 13. In this embodiment, the entry restricting end portion of the spiral rib is provided with a circumferential extending portion 47a that is substantially orthogonal to the central axis of the shaft portion 43 and extends for a predetermined length in the circumferential direction of the shaft portion 43.
Specifically, in the plunger 4a of this embodiment, the spiral rib 44 has a circumferentially extending portion 47a extending in the circumferential direction of the shaft portion 43 provided at the base end thereof. The circumferentially extending portion 47a extends in the predetermined circumferential direction so as to be substantially orthogonal to the central axis of the shaft portion 43. Therefore, the end portion of the spiral rib has substantially no spiral shape. The base end surface of the circumferentially extending portion 47a is substantially flat. Therefore, the base end surface of the circumferentially extending portion 47a is substantially parallel to the annular rib 34 of the gasket 3 when the plunger 4a is mounted on the gasket 3. Then, as shown in FIG. 11, the distance between the circumferential extension portion 47a and the spiral rib located above the circumferential extension portion 47a becomes narrower toward the end of the circumferential extension portion 47a. There is.
The circumferentially extending portion 47a can pass through the spiral valley portion 33 of the gasket 3 and the missing portion of the retaining annular rib 34. The central angle of the circumferentially extending portion 47a is preferably 30 to 150 degrees, and particularly preferably 80 to 100 degrees.

The gasket 3b is the same as the gasket 3 described above, except that the gasket 3b does not have the retaining ribs 34 and the rib missing portions 35. Therefore, the gasket 3b includes the inner cavity portion 30, and the inner cavity portion 30 has the plunger attachment function. The inner cavity portion 30 has a spiral mountain portion 36 on the inner surface thereof that forms a spiral valley portion 33 for screwing with the spiral rib 44 of the plunger 4c, and the plunger 4c of the plunger 4c on the tip side of the spiral mountain portion 36. A storage portion 32 for storing the spiral rib forming portion of the head portion 42c is provided. The spiral valley portion 33 has a starting end near the opening of the inner cavity portion 30, extends in the front end direction for a predetermined length, and has a terminating end on the base end side of the storage portion 32.
The spiral rib 44 of the plunger 4c prevents the spiral rib 44 from entering the end 33b of the spiral valley 33 after the spiral rib forming portion of the plunger 4c is stored in the storage portion 32 of the gasket 3b. It has an entry regulation end portion 47b for regulating. Then, the entry restriction end portion 47b is a thick end portion 47b that is larger than the width of the end 33b of the spiral valley portion 33. Then, the thick end portion 47b can pass through the spiral valley portion 33 by expanding the spiral mountain portion 36, and the passage of the spiral valley portion 33 into the terminal end 33b after passing is substantially eliminated. Has become impossible.

In this embodiment, as shown in FIGS. 20 to 22 and 26, the spiral rib 44 is formed so that the thickness thereof becomes thicker toward the end. Therefore, the end is the thickest. It should be noted that only the end portion may be thick, the tip portion may have a substantially uniform thickness, and the thickness may gradually increase from the central portion toward the end portion. Further, in this embodiment, the end face 46d of the thick end 47b of the spiral rib 44 is a standing end face 46d extending substantially parallel to the central axis of the shaft 43. Therefore, the end surface 46d has the same area as the thickness of the thick end portion 47b. The spiral rib 44 in this embodiment is gradually thinned toward the outer end on the tip side. However, the thick end portion 47b has a trapezoidal cross section with a sufficient width even at the outer end, as shown in FIG. Therefore, the end surface 46d also has a trapezoidal cross section with a sufficient width at the outer end. The thickness of the thick end portion 47b, in other words, the height of the end surface 46d (the axial length with respect to the central axis of the shaft portion 43) is equal to the height of the end 33b of the spiral valley portion 33 (the center of the gasket 3b). (Axial length with respect to the axis). Therefore, the entry of the spiral valley 33 at the end of the thick end 47b into the end 33b is hindered.
The standing end surface 46d is preferably parallel to the central axis of the shaft portion 43, but may be slightly inclined with respect to the central axis. In this case, it is preferable that the standing end surface 46d be inclined toward the base end side (the disk portion 48 side). Further, the standing base end surface 46d is preferably a flat surface, but may be an uneven surface or a curved surface.

Then, also in the plunger 4c and the gasket 3b, as in the above-described embodiment, after inserting the spiral rib 44 of the plunger 4c into the starting end of the spiral trough 33 of the gasket 3b, the plunger 4c is rotated. The screwing of the spiral rib 44 and the spiral valley 33 progresses. Then, the thick end portion 47b advances in the spiral valley portion 33 while slightly expanding the spiral mountain portion 36. By continuing the rotation of the plunger 4c, the spiral rib 44 passes through the spiral trough portion 33 and enters the storage portion 32, so that the spiral rib 44 as a whole, in other words, as shown in FIG. For example, the spiral rib forming portion of the head portion 42c of the plunger 4c is stored in the storage portion 32 of the gasket 3b.
When the plunger 4c is mounted on the gasket 3b, the proximal end surface 46d of the thick end portion 47b of the spiral rib 44 of the plunger 4c abuts the end surface of the spiral mountain portion 36. Detachment from the gasket 3b is restricted. Then, when an unusual operation such as pulling and rotating the plunger 4c toward the base end side is performed, the thick end 47b of the spiral rib 44 enters the end 33b of the spiral valley 33. do not do. Therefore, even when the above-mentioned special operation is performed, the plunger is prevented from being separated from the gasket.

Claims (11)

A tubular body having a closed distal end and an open proximal end, the gasket having an inner cavity extending from the proximal end toward the distal end, and an outer cylinder having a distal end opening and slidably accommodating the gasket. And a plunger having a head portion that can be stored in the inner cavity portion of the gasket,
The plunger includes a spiral rib provided on the head portion, the spiral rib having a start end on a tip side and an end on a base end side,
The gasket has a spiral mountain portion on the inner surface of the inner cavity portion, which forms a spiral trough portion to be screwed with the spiral rib of the plunger, and a plunger disengagement stopper located on the tip side of the spiral mountain portion. An annular rib for use, and the inner cavity portion further includes a storage portion located on the tip side of the retaining annular rib for storing the spiral rib forming portion of the head portion of the plunger. Further, the retaining ring-shaped rib includes a rib defect portion for guiding the spiral rib that has reached the retaining ring-shaped rib by the progress of screwing of the plunger and the gasket to the storage portion.
The plunger has, at the end of the spiral rib, an entry restriction end that restricts the entry of the spiral rib into the rib defect portion after the spiral rib forming portion of the plunger is stored in the storage portion of the gasket. A syringe characterized by comprising a part. The tip of the spiral mountain portion is connected to a portion of the retaining annular rib adjacent to the rib defect portion, and the tip-side surface of the tip portion of the spiral mountain portion is the rib defect portion. The syringe of claim 1, adjacent the proximal end of the section. The gasket has, on the outer peripheral surface thereof, a distal end side annular rib having an outer diameter larger than the inner diameter of the outer cylinder, a proximal end side annular rib having an outer diameter larger than the inner diameter of the outer cylinder, and the distal end side annular rib. And an intermediate portion annular rib provided between the base end side annular rib, and further, the intermediate portion annular rib is provided at a portion which becomes a side portion of the retaining annular rib. The syringe described. The syringe according to claim 3, wherein the outer diameter of the intermediate annular rib is smaller than the outer diameter of the distal annular rib and the outer diameter of the proximal annular rib. A tubular body having a closed distal end and an open proximal end, the gasket having an inner cavity extending from the proximal end toward the distal end, and an outer cylinder having a distal end opening and slidably accommodating the gasket. And a plunger having a head portion that can be stored in the inner cavity portion of the gasket,
The plunger includes a spiral rib provided on the head portion, the spiral rib having a start end on a tip side and an end on a base end side,
The gasket is located on the inner surface of the inner cavity, and has a spiral crest forming a spiral trough that is screwed into the spiral rib of the plunger; and the gasket is located on the tip side of the spiral crest. A storage portion for storing the spiral rib forming portion of the head portion, wherein the spiral valley portion has a starting end near an opening of the inner cavity portion and extends in a predetermined length distal direction, and It has a terminal end on the proximal side from the storage part,
The plunger is configured to allow the spiral rib to enter the end of the spiral rib into the end of the spiral trough after the spiral rib forming portion of the plunger is housed in the housing of the gasket. A syringe having an entry restriction terminal portion for restricting. The head portion has a shaft portion provided with the spiral rib on an outer surface, and the entry restriction terminal end of the spiral rib is formed at a terminal end of the spiral rib, and with respect to a central axis of the shaft portion. The syringe of claim 1, having upstanding end surfaces that extend substantially parallel. The head portion has a shaft portion provided with the spiral rib on an outer surface thereof, and the entry restriction end portion of the spiral rib is formed at a terminal end of the spiral rib, and a surface on a tip side of the spiral rib. So as to extend in the circumferential direction of the shaft portion longer than the surface on the base end side of the spiral rib, has an inclined end surface for approach restriction which is inclined by a predetermined angle with respect to the central axis of the shaft portion. The syringe according to claim 1. The head portion has a shaft portion provided with the spiral rib on an outer surface,
The entry restriction terminal portion of the spiral rib is provided at the base end of the spiral rib so that the inclination of the spiral is smaller than that of the tip end side portion of the spiral rib, or the central axis of the shaft portion. The syringe according to claim 1, further comprising a circumferential extension portion extending to the end of the spiral rib in the circumferential direction of the shaft portion so as to be substantially orthogonal to the axial portion. The entry restriction end portion includes a thick end portion having a larger width in the axial direction of the gasket than the end of the spiral valley portion, and the thick end portion extends the spiral valley portion. 6. The syringe of claim 5, wherein the syringe is passable by and is substantially incapable of entering the terminal end of the spiral trough after passage. The syringe according to claim 1, wherein the syringe is a prefilled syringe. A prefilled syringe comprising: the syringe according to claim 1; a sealing member that seals the distal end opening of the outer cylinder; and a drug contained in the outer cylinder.

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