JP2015150222A - Container-cum-syringe - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize smooth distribution of sterilization gas for sterilization into a cap.SOLUTION: A container-cum-syringe 1 comprises: a glass cartridge 2 that extends along an axis line O and is formed into a cylindrical shape; and a front assembly 10 that is provided at a tip of the glass cartridge 2. The front assembly 10 includes: a hub lure lock 3 where an external collar 33 cylindrically extending toward a tip side from the glass cartridge 2 is formed; and a cap 6 that has a base end arranged in the form of being fitted to an inner peripheral surface of a tip of the external collar 33, is formed into a cylindrical shape and extends along the axis line. The external collar 33 is provided with a ring-like circular groove 33d that is recessed outward in a radial direction from the inner peripheral surface. The base end of the cap 6 is provided with a slit 65 that is formed at a position corresponding to the circular groove 33d and penetrates in the radial direction.

Description

  The present invention relates to a container-use syringe that can be filled and stored in advance with a chemical solution, removed from the package at the time of use, and used immediately.

  Since the container-use syringe is pre-filled with a chemical solution, it can be taken out of the package and used immediately without performing complicated operations in a medical institution. As described above, the container / syringe is excellent in convenience and has been adopted in many hospitals because it greatly contributes to the reduction of work for medical personnel such as doctors and nurses.

  As the container-use syringe, a glass cartridge, a front stopper and an end stopper that are fitted into the front end side and the rear end side of the glass cartridge and seal the liquid medicine filled in the glass cartridge, respectively, and the glass cartridge A finger grip fitted to the rear end of the glass cartridge and a plunger rod inserted into the glass cartridge from the rear end of the glass cartridge and connected to an end stopper have been proposed. Further, this container-use syringe is provided on the luer tip hub, which is fitted on the tip of the glass cartridge, is provided with a bypass chamber into which the front stopper is inserted, and a luer tip for attaching a syringe needle at the tip. A needle base, an injection needle provided at the tip of the needle base, and a protector (hereinafter referred to as a cap) provided so as to cover the injection needle (see Patent Document 1 below).

  In order to use such a syringe for both containers, the front stopper is pushed forward together with the drug solution by pushing the end stopper with the plunger rod. Then, when the front stopper is pushed out of the glass cartridge and enters the bypass chamber, the front end side sealing in the chemical solution sealed between the front stopper and the end stopper is released. Thereby, the said chemical | medical solution flows out in the bypass chamber from the inside of a glass cartridge, is guide | induced to the inner surface of a lure tip along the bypass groove | channel provided in the inner wall face of a bypass chamber, and is introduce | transduced into an injection needle.

JP 2007-111156 A

By the way, before using the above syringe for both containers and containers, the syringe for both containers is introduced into a sterilization apparatus filled with a sterilizing gas such as ethylene oxide or high-temperature and high-pressure steam for sterilization. Then, the sterilizing gas passes through the minute space formed between the cap and the luer tip hub and the bypass groove, and enters the inside of the cap. Thereby, the injection needle, the needle base, the inner peripheral surface of the luer tip hub, and the like are sterilized.
In such a syringe serving as a container, it is desired to sterilize the sterilization gas by smoothly circulating the sterilization gas from the outside to the inside of the cap.

  This invention is made | formed in view of the said situation, and provides the syringe used as a container which can distribute | circulate the sterilization gas for sterilization inside a cap smoothly.

The present invention employs the following means in order to solve the above problems.
That is, the container-use syringe according to the present invention includes a glass cartridge formed in a cylindrical shape extending along an axis, and a front assembly provided at a tip of the glass cartridge, and the front assembly is separated from the glass cartridge. A hub luer lock formed with an outer collar extending in a cylindrical shape along the axis, and a base end fitted and disposed on the inner peripheral surface of the distal end of the outer collar, and formed in a cylindrical shape and extending along the axis A cap, and the outer collar is formed with an annular annular groove that is recessed radially outward from the inner peripheral surface, and at the base end of the cap at a position corresponding to the annular groove, A slit penetrating in the radial direction is formed.

  In the container-combined syringe configured as described above, when the container-combined syringe is placed in a sterilization apparatus filled with sterilization gas for sterilization, the sterilization gas is absorbed by the cap and the external collar of the hub luer lock. It passes through a minute gap toward the rear end and enters an annular groove that is recessed radially outward from the inner peripheral surface of the outer collar. Then, the sterilizing gas passes through the slit formed at the base end of the cap from the radially outer side toward the inner side and reaches the inside of the cap. As described above, since the sterilizing gas can be introduced into the cap through the slit, the sterilizing gas for sterilization can be smoothly circulated inside the cap.

  Moreover, it is preferable that the container combined use syringe which concerns on this invention is a shape where the width | variety becomes large as the said slit opens toward the said base end of the said cap, and goes to the said base end side of the said cap.

  In the container / syringe configured as described above, the width of the slit is larger on the opening side than on the bottom side opposite to the opening. Therefore, a large amount of the sterilizing gas that travels to the rear end side through the gap between the cap and the outer collar of the hubble lock can be circulated inside the cap on the front side in the traveling direction of the sterilizing gas. Accordingly, the sterilization gas can be circulated inside the cap while suppressing the sterilization gas from staying.

  In the syringe for both containers according to the present invention, a plurality of the slits may be formed along the circumferential direction of the cap.

  In the container / syringe configured as described above, since a plurality of slits are formed in the circumferential direction of the cap, a large amount of sterilizing gas can be circulated inside the cap.

  Moreover, the container combined injector which concerns on this invention may be provided with the convex part which becomes convex toward the said radial direction outer side on the opposite side to the opening side of the said slit.

  In the container / syringe configured as described above, since the convex portion that protrudes radially outward is formed on the side opposite to the slit opening side of the cap, the entire outer peripheral surface of the cap is a hub luer lock. Can be prevented from contacting.

  Moreover, the container combined syringe which concerns on this invention WHEREIN: The protrusion engaged with the said annular groove may be formed in the said base end of the said cap.

  In the container / use syringe configured as described above, the annular groove formed in the outer collar of the hub lure lock serves as a flow path for guiding the sterilizing gas to the inside of the cap and engages with the protrusion of the cap. Also plays the role of the engaging portion.

  Further, in the container-use syringe according to the present invention, the front assembly is disposed along the inner peripheral surface of the cap, and has a needle base portion provided with an injection needle, and the inner peripheral surface of the cap A groove formed in a spiral shape along the axis may be formed.

  In the container / syringe configured as described above, the sterilized gas that has passed through the slit formed at the base end of the cap passes between the spiral groove formed on the inner peripheral surface of the cap and the needle base. The inside of the cap is distributed to the tip side. Therefore, sterilization gas can be circulated through the inside of the cap over the axial direction.

  According to the container and syringe according to the present invention, the sterilization gas for sterilization can be smoothly circulated inside the cap.

It is a sectional side view of the container combined syringe which concerns on 1st embodiment. It is an expanded sectional side view of the front-end | tip part of the syringe with a container which concerns on 1st embodiment. It is a perspective view which shows the structure of the exterior of the base end side of the cap which comprises the container combined use syringe which concerns on 1st embodiment. It is a perspective view which shows the structure inside the base end side of the cap which comprises the container combined use syringe which concerns on 1st embodiment. (A) The upper side of the cap which comprises the container combined use syringe which concerns on 1st embodiment is a side sectional view, the lower side is a side view, (b) It is the figure seen from the base end side, (c) Side view It is. It is a side view of the cap which comprises the container combined use syringe which concerns on 1st embodiment. It is a side view at the time of rotating the cap which comprises the container combined use syringe which concerns on 1st embodiment in the circumferential direction from the state shown in FIG. (A) It is an enlarged view of FIG.5 (c), (b) It is the A section enlarged view of (a). It is an expanded sectional side view in the position of P of FIG. 3 which shows the flow of the sterilization gas which passes between between the cap which comprises the container combined use syringe which concerns on 1st embodiment, and a hub lure lock. It is the side view of the (a) base end side of the cap which comprises the container combined injector which concerns on the modification 1 of 1st embodiment, (b) It is an enlarged view in the A section of (a). It is the side view of the (a) base end side of the cap which comprises the container combined syringe which concerns on the modification 2 of 1st embodiment, (b) It is an enlarged view in the A section of (a). It is a perspective view which shows the structure of the exterior of the base end side of the cap which comprises the container combined use syringe which concerns on 2nd embodiment. It is a perspective view which shows the structure inside the base end side of the cap which comprises the container combined use syringe which concerns on 2nd embodiment. (A) The upper side of the cap which comprises the container combined use syringe which concerns on 2nd embodiment is a side sectional view, the lower side is a side view, (b) It is the figure seen from the base end side, (c) Side view It is. It is a side view of the cap which comprises the container combined use syringe which concerns on 2nd embodiment. It is a side view at the time of rotating the cap which comprises the container combined use syringe which concerns on 2nd embodiment from the state shown in FIG. 15 in the circumferential direction. (A) It is an enlarged view of FIG.14 (c), (b) It is the A section enlarged view of (a). FIG. 13 is an enlarged side cross-sectional view at a position P in FIG. 12, showing a flow of sterilization gas passing between a cap and a hub lure lock constituting a container-cum-use syringe according to a second embodiment. It is the side view of the (a) base end side of the cap which comprises the container combined use syringe which concerns on the modification 1 of 2nd embodiment, It is an enlarged view in the A section of (b) (a). It is the side view of the (a) base end side of the cap which comprises the container combined injector which concerns on the modification 2 of 2nd embodiment, (b) It is an enlarged view in the A section of (a).

Hereinafter, with reference to an accompanying drawing, a container combined use syringe concerning a first embodiment of the present invention is explained.
FIG. 1 is a side cross-sectional view of the container-use syringe according to the first embodiment.
As shown in FIG. 1, the container-use syringe 1 includes a glass cartridge 2 that is cylindrical and extends along an axis O, and a front assembly 10 that is provided at the tip of the glass cartridge 2. The container-use syringe 1 is capable of reciprocating in the axis O direction (the extending direction of the axis O) in the glass cartridge 2 with a synthetic resin finger grip 7 fitted on the outer peripheral side of the rear end of the glass cartridge 2. A front stopper 8a and a rear stopper 8b for sealing a drug solution (medicine) inserted and filled in the glass cartridge 2, and a rear part inserted into the glass cartridge 2 from the rear end and connected to the rear stopper 8b. A plunger rod 9 for reciprocating the stopper 8b in the axial direction of the glass cartridge 2 is provided.
The front assembly 10 is provided at a hubble lock 3 fitted to the outer periphery of the tip of the glass cartridge 2, a needle base 4 provided at the tip of the hubble lock 3, and a tip of the needle base 4. An injection needle 5 and a protector (cap) 6 that covers the tip of the injection needle 5 are provided.
In the following description, the side (left side of the paper shown in FIG. 1) where the injection needle 5 is provided in the container / syringe 1 is the front side, and the side where the plunger rod 9 is provided in the container / syringe 1 (paper shown in FIG. 1). (Right side) may be referred to as the rear end side.

  The glass cartridge 2 is molded from transparent glass and has a cylindrical shape extending along the axis O.

FIG. 2 is an enlarged side cross-sectional view of the distal end portion of the container / use syringe 1 according to the present embodiment.
Hubble lock 3 is molded from a transparent or translucent synthetic resin. As shown in FIG. 2, the hub lure lock 3 is formed with a fitting portion 30 fitted to the tip of the glass cartridge 2 and an inner diameter equal to or larger than the outer diameter of the glass cartridge 2 on the tip side of the fitting portion 30. The bypass chamber 31 is provided with a bypass chamber 31a into which the front stopper 8a (see FIG. 1) enters, and a luer tip 32 and an external collar 33 extending from the tip of the bypass chamber 31 are provided.

  The luer tip 32 extends from the tip of the bypass chamber 31 in a tapered cylindrical shape with the axis O as the center. The luer tip 32 is formed in a tapered shape so that the length in the radial direction becomes shorter toward the tip side. The luer tip 32 has an inner hole 32a communicating with the bypass chamber 31a.

  The outer collar 33 extends in a cylindrical shape from the tip of the bypass chamber portion 31 with the axis O as the center, and is disposed at an interval outside the luer tip 32.

  In other words, the bypass chamber portion 31 is provided with a luer tip 32 that extends in a tapered cylindrical shape that decreases in diameter toward the distal end side, and an outer collar 33 that extends outside the luer tip 32 and extends in a cylindrical shape. The length of the external collar 33 in the direction of the axis O is shorter than the length of the luer tip 32 in the direction of the axis O.

  On the proximal end side of the inner peripheral surface of the outer collar 33, an annular engagement recess 33b that is recessed radially outward is formed along the circumferential direction. Further, on the inner end surface of the outer collar 33 on the inner peripheral surface, an engagement convex portion 33c that protrudes radially inward is formed along the circumferential direction. In addition, an annular ring groove 33d that is recessed radially outward from the inner peripheral surface is formed along the circumferential direction on the distal end side of the inner peripheral surface of the outer collar 33 with respect to the engaging convex portion 33c.

  The needle base portion 4 has an engagement tube portion 41 formed in a tapered cylindrical shape with the axis O as the center, and a needle attachment portion 42 provided at the tip of the engagement tube portion 41. The needle base 4 is disposed along the inner peripheral surface of the protector 6.

  The engagement tube portion 41 is formed in a tapered cylindrical shape so that the length in the radial direction becomes shorter toward the distal end side. A taper-shaped taper hole 41 a is formed in the engagement cylinder portion 41 along the axis O. The tapered hole 41a is formed in a tapered shape so that the length in the radial direction becomes shorter toward the distal end side. Further, the rear end side of the tapered hole 41 a has a shape corresponding to the outer peripheral shape on the front end side of the luer tip 32.

  At the rear end of the engagement tube portion 41, an annular engagement portion 41b that protrudes radially outward is formed. The annular engagement portion 41 b enters the engagement recess 33 b of the hub luer lock 3 and engages with the rear surface of the engagement projection 33 c of the hub luer lock 3. Thereby, the needle base portion 4 is engaged with the hub lure lock 3 in a state in which relative movement in the axis O direction and the circumferential direction around the axis O is restricted.

  An attachment hole 42 a is formed along the axis O at the tip of the needle attachment portion 42. The attachment hole 42a communicates with the tapered hole 41a of the engagement cylinder portion 41, the inner hole 32a of the hub lure lock 3, and the bypass chamber 31a. The injection needle 5 is fitted and attached to the attachment hole 42a.

  The protector 6 is made of a transparent or translucent synthetic resin material. The protector 6 includes a protector main body 61 that is formed in a cylindrical shape and covers the injection needle 5 from the outer peripheral side, a labyrinth cylindrical portion 62 and a ring-shaped portion 63 that extend in a cylindrical shape along the axis O from the rear end side of the protector main body 61. And a flange portion 64 provided on the outer periphery of the ring-shaped portion 63. The ring-shaped part 63 is arranged on the outer side of the labyrinth cylinder part 62 with an interval.

FIG. 3 is a perspective view showing an external configuration on the base end side of the protector 6 constituting the container-combined syringe 1, and FIG. It is a perspective view shown.
As shown in FIGS. 2 to 4, the labyrinth cylindrical portion 62 is formed with a tapered cylindrical hole 62 a along the axis O. The tapered hole 62a is formed in a tapered shape so that the length in the radial direction becomes shorter toward the distal end side. The tapered hole 62 a has a shape corresponding to the outer peripheral shape of the engagement tube portion 41 of the needle base portion 4. Thereby, the labyrinth cylinder part 62 is fitted to the outer peripheral side of the engagement cylinder part 41 of the needle base part 4. A spiral groove 62 b is formed in the tapered hole 62 a of the labyrinth cylinder portion 62.

  A plurality of protrusions 63b are formed at the rear end of the ring-shaped portion 63 so as to protrude outward in the radial direction and spaced apart in the circumferential direction. The protrusion 63b engages with an annular groove 33d formed in the hub lure lock 3. Thereby, the protector 6 is fitted and arranged on the hubble lock 3. In the present embodiment, six protrusions 63b are provided at intervals in the circumferential direction.

  In this state, the peak portion of the spiral groove 62b formed in the labyrinth cylinder portion 62 is in close contact with the outer peripheral surface of the engagement cylinder portion 41 of the needle base portion 4, and is engaged with the valley portion of the groove 62b of the labyrinth cylinder portion 62. A labyrinth mechanism composed of a spiral minute passage through which sterilization gas such as ethylene oxide, high-temperature and high-pressure steam, and other gases pass is formed between the outer peripheral surface of the combined cylinder portion 41.

FIG. 5: (a) upper side of the protector 6 which comprises the container combined use syringe 1 is a side sectional view, the lower side is a side view, (b) It is the figure seen from the base end side, (c) Side view FIG. 6 is a side view of the protector 6 constituting the container / use syringe 1. FIG. 7 is a side view when the protector 6 constituting the container-use syringe 1 is rotated in the circumferential direction from the state shown in FIG. 6, and FIG. 8 is an enlarged view of (a) FIG. 5 (c). (B) It is the A section enlarged view of (a).
As shown in FIGS. 5 to 8, a plurality of slits 65 penetrating in the radial direction are formed at intervals in the circumferential direction at the end of the ring-shaped portion 63 (the base end of the protector 6). The slit 65 is disposed at a position corresponding to the annular groove 33d of the outer collar 33 of the hub lure lock 3 shown in FIG. As shown in FIG. 5B, in the present embodiment, four slits 65 are provided at intervals in the circumferential direction. The number of slits 65 may be six, and can be set as appropriate.

As shown in FIG. 8, the slit 65 is a pair of inclined side portions that are arranged to face each other so as to approach each other from the end side of the ring-shaped portion 63 toward the side opposite to the end (the front end side of the protector 6). 65a and a connecting side portion 65b that connects the ends of the pair of inclined side portions 65a to each other. As described above, the slit 65 opens toward the end of the ring-shaped portion 63, and extends from the connecting side 65 b side (the side opposite to the base end of the protector 6) toward the opening side (the base end side of the protector 6). Accordingly, the trapezoidal shape gradually increases in width.
In addition, in the cross section orthogonal to the axis O shown in FIG. 5B, if the virtual plane along the axis O is the plane O1, the inclined side portion 65a of the slit 65 is formed in a direction orthogonal to the plane O1. . Thereby, when manufacturing the protector 6, after shape | molding the protector 6 using a pair of metal mold | die (not shown) opposingly arranged on both sides of the plane O1 along the axis line O, a metal mold | die is taken from the protector 6. FIG. The metal mold can be removed from the protector 6 by moving to both sides orthogonal to the plane O1.

In the present embodiment, the depth A of the slit 65 in the direction of the axis O is 0.25 mm. The intersecting portion between the inclined side portion 65a and the connecting side portion 65b is formed in an arc shape having a radius of 0.1 mm, and the opening side of the inclined side portion 65a is formed in an arc shape having a radius of 0.15 mm. The cross-sectional area of each slit 65 is 0.155 mm ² . The interval between the slits 65 is 3.88 mm.

Next, the flow of the sterilization gas J when the container / syringe 1 configured as described above is sterilized with the sterilization gas J will be described.
FIG. 9 is an enlarged side sectional view at a position P in FIG. 3, showing the flow of sterilization gas passing between the protector 6 and the hub luer lock 3 constituting the container / use syringe 1.

  The container / use syringe 1 is transported into the sterilization chamber and brought into contact with the sterilization gas J. Then, as shown in FIGS. 2 and 9, the sterilized gas J that has entered between the rear end of the flange portion 64 of the protector 6 and the front end of the external collar 33 of the hub luer lock 3 becomes the ring-shaped portion 63 of the protector 6. And the external collar 33 of the hub lure lock 3 are moved toward the rear end side. Next, the sterilizing gas J enters the annular groove 33 d that is recessed radially outward from the inner peripheral surface of the outer collar 33. The sterilized gas J that has entered the annular groove 33d passes through the slit 65 formed in the ring-shaped portion 63 from the radially outer side to the inner side, and the outer collar 33 of the hub luer lock 3 and the engagement cylinder portion of the needle base portion 4 41 invades the space G formed between them. Then, it distribute | circulates the inside of the protector 6 toward a front end side via a labyrinth mechanism. Then, it enters the bypass chamber 31a through the inside of the tube of the injection needle 5, the tapered hole 41a of the needle base 4 and the inner hole 32a of the hub luer lock 3, and on the front end surface of the front stopper 8a inserted into the front end of the glass cartridge 2. It reaches. In this way, the entire peripheral surface of the above-described path is sterilized by contacting the sterilizing gas J.

  According to the container / syringe 1 configured as described above, when the container / syringe 1 is placed in a sterilization apparatus filled with a sterilizing gas J for sterilization, the sterilizing gas J is formed at the proximal end of the protector 6. The slit 65 passes from the radially outer side toward the inner side and reaches the inside of the protector 6. Thus, since the sterilization gas J can be passed through the slit 65 and introduced into the protector 6, the sterilization gas J for sterilization can be smoothly circulated inside the protector 6.

  Further, the width of the slit 65 is larger on the opening side than on the connecting side 65b side. Therefore, the sterilization gas J that advances to the rear end side through the gap between the protector 6 and the external collar 33 of the hub lure lock 3 is moved toward the opening side of the slit 65, that is, on the front side in the traveling direction of the sterilization gas J. Many can be distributed inside. Therefore, the sterilization gas J can be circulated inside the protector 6 while the sterilization gas J is prevented from staying.

  In addition, since a plurality of slits 65 of the protector 6 are formed in the circumferential direction, a large amount of sterilizing gas J can be circulated inside the protector 6. Moreover, since the slit 65 is provided with the space | interval in the circumferential direction, the sterilization gas J can be introduce | transduced into the inside of the protector 6 equally from the circumferential direction. Therefore, the sterilization gas J can be smoothly circulated without disturbing the flow.

  Further, the annular groove 33d formed in the outer collar 33 of the hub lure lock 3 serves as a flow path for guiding the sterilizing gas J to the inside of the protector 6, and engages with the protrusion 63b of the protector 6. Also plays a part role. Therefore, it is possible to make the configuration simpler than when the flow path for guiding the sterilizing gas J to the inside of the protector 6 and the engaging portion that engages with the protrusion 63b of the protector 6 are provided separately.

  Further, the sterilized gas J that has passed through the slit 65 formed at the base end of the protector 6 passes between the spiral groove 62 b formed on the inner peripheral surface of the protector 6 and the engagement cylinder portion 41 of the needle base 4. Via, the inside of the protector 6 is distributed to the tip side. Therefore, the sterilization gas J can be circulated through the protector 6 over the axis O direction.

  Moreover, the intersection part of the inclined side part 65a and the connection side part 65b of the slit 65, and the opening side of the inclined side part 65a are each formed in circular arc shape. Therefore, in these portions, the sterilization gas J can be circulated while suppressing the loss of the flow rate of the sterilization gas J.

  Further, when the projection 63b formed on the ring-shaped portion 63 of the protector 6 is engaged with the annular groove 33d of the hub luer lock 3 and the protector 6 is attached to the hub luer lock 3, the ring-shaped portion 63 has a diameter. Since there is a slit 65 penetrating in the direction, the ring-shaped portion 63 is easily bent radially inward. Therefore, when mounting, the ring-shaped portion 63 is bent inward in the radial direction and is easy to mount. After the mounting, the ring-shaped portion 63 is elastically deformed radially outward, and the protrusion 63b can be reliably engaged with the annular groove 33d of the hub luer lock 3.

Next, Modifications 1 and 2 of the first embodiment described above will be described mainly with reference to FIGS.
FIG. 10: is the side view of the (a) base end side of the protector which comprises the container combined syringe which concerns on the modification 1 of 1st embodiment, and is an enlarged view in the A section of (b) (a). FIG. 11: is the side view of the (a) base end side of the cap which comprises the container combined use syringe which concerns on the modification 2 of 1st embodiment, and is an enlarged view in the A section of (b) (a).

  As shown in FIG. 10, the slit 165 formed in the protector 106 of the container-use syringe 101 according to Modification 1 has a semicircular shape that opens toward the end of the ring-shaped portion 63.

In the present embodiment, the depth 100A of the slit 165 in the direction of the axis O is 0.25 mm. The slit 165 is formed in a semicircular shape with a radius of 0.2 mm, and is chamfered in an arc shape with a radius of 0.2 mm on the opening side. The cross-sectional area of each slit 165 is 0.093 mm ² . The interval between the slits 165 is 3.88 mm.

  As shown in FIG. 11, the slit 265 formed in the protector 206 of the container-use syringe 201 according to Modification 2 has a V shape that opens toward the end of the ring-shaped portion 63.

  The slit 265 has a pair of inclined side portions 265a that are arranged to face each other so as to approach each other from the end side of the ring-shaped portion 63 toward the opposite side.

In this embodiment, the depth 200A of the slit 265 in the axis O direction is 0.25 mm. The inclined side portions 265a are formed so as to intersect at 90 °. The intersecting portion between the inclined side portions 265a has an arc shape with a radius of 0.1 mm, and the opening side of the inclined side portion 265a has an arc shape with a radius of 0.2 mm. The sectional area of each slit 265 is 0.085 mm ² . The interval between the slits 265 is 3.88 mm.

  In the container-use injectors 101 and 201 configured as described above, the sterilizing gas J passes through the slits 165 and 265 from the radially outer side to the inner side and reaches the inside of the protector 6.

Hereinafter, the container combined syringe 1X according to the second embodiment of the present invention will be described mainly with reference to FIGS.
In this embodiment, the same members as those used in the above-described embodiment are denoted by the same reference numerals, and the description thereof is omitted.

In the protector 6X that constitutes the container-use syringe 1X according to the present embodiment, a convex portion 71 that is convex outward in the radial direction is formed on the outer peripheral surface of the ring-shaped portion 63. The convex portion 71 is formed on the side opposite to the opening side of the slit 65. The convex portion 71 is formed along the axis O from the connecting side portion 65b that connects the inclined side portions 65a. In the present embodiment, four convex portions 71 are provided corresponding to the slits 65 with an interval in the circumferential direction.
The circumferential width of the convex portion 71 is 0.5 mm to 0.7 mm. The height of the convex portion 71 is 0.1 mm to 0.15 mm. In the present embodiment, the circumferential width of the convex portion 71 is 0.6 mm, and the height of the convex portion 71 is 0.1 mm.

The convex portion 71 has a pair of side wall portions 71 a that rise from the outer peripheral surface of the ring-shaped portion 63 and are spaced apart from each other in the circumferential direction. The side wall 71a extends in the direction of the axis O.
Further, a projecting piece 64X projecting along the axis O is formed at the rear end of the flange portion 64. The protruding piece 64X has a pair of side wall portions 64a that are spaced apart from each other in the circumferential direction. The side wall portion 64a extends in the radial direction.
The end portions of the side wall portions 71a of the convex portions 71 and the end portions of the side wall portions 64a of the flange portions 64 are continuous. Further, in the cross section orthogonal to the axis O shown in FIG. 14B, the side wall 71a and the side wall 64a are formed so that a virtual plane along the axis O is orthogonal to the plane O1. Thus, when the protector 6X is manufactured, after the protector 6X is molded using a pair of molds arranged to face each other across the plane O1 along the axis O, the mold is orthogonal to the plane O1 from the protector 6X. The mold can be removed from the protector 6X by moving it in the direction to perform.

  In the container and syringe 1 </ b> X configured as described above, a convex portion 71 is formed in the ring-shaped portion 63 along the connecting side portion 65 a of the slit 65. Therefore, it can suppress that the whole outer peripheral surface of the ring-shaped part 63 contacts the inner peripheral surface of the external collar 33 of the hub lure lock 3. Therefore, since the clearance gap between the outer peripheral surface of the ring-shaped part 63 and the external collar 33 can be ensured, the sterilization gas J can be distribute | circulated reliably.

Next, modified examples 1 and 2 of the second embodiment described above will be described mainly with reference to FIGS.
FIG. 19 is a side view of the protector constituting the container-combined syringe according to Modification 1 of the second embodiment on the (a) base end side, and is an enlarged view of part A in (b) and (a). FIG. 20 is a side view of (a) the base end side of the cap that constitutes the container-combined syringe according to Modification 2 of the second embodiment, and is an enlarged view of part A of (b) (a).

  As illustrated in FIG. 19, the protector 6Y of the container-use syringe 1Y according to Modification 1 is formed with a slit 165 shown in Modification 1 of the first embodiment. Moreover, the convex part 71 shown to 2nd embodiment is formed in the protector 6Y.

  As shown in FIG. 20, a slit 265 shown in Modification 2 of the first embodiment is formed in the protector 6Z of the container-use syringe 1Z according to Modification 2. Moreover, the convex part 71 shown in 2nd embodiment is formed in the protector 6Z.

  Even in the container-use injectors 1Y and 1Z configured as described above, the gap between the outer peripheral surface of the ring-shaped portion 63 and the external collar 33 can be secured, so that the sterilized gas J can be reliably circulated. .

  Further, the shapes, combinations, and the like of the respective constituent members shown in the above-described embodiments are merely examples, and various modifications can be made based on design requirements and the like without departing from the gist of the present invention.

  For example, in the embodiment shown above, the container-use syringe 1 has the injection needle 5, but the present invention is not limited to this. For example, the container / use syringe may not have the injection needle 5, but may be configured to have a cap that is attached to the lure tip of the hub lure lock and the outer collar and extends along the axis so as to cover the luer tip. .

Moreover, in embodiment shown above, although the slit 65 is formed so that it may open toward the base end of the protector 6, this invention is not limited to this. The slit only needs to be formed at the base end of the protector 6 so as to penetrate the protector 6 in the radial direction, and does not open toward the base end, for example, a circular or rectangular shape when viewed from the direction along the axis O. Etc. may be formed.
In this case, it is possible to introduce the sterilization gas J into the protector 6 by passing the sterilization gas J from the radially outer side to the inner side while ensuring the strength on the proximal end side of the protector 6.

DESCRIPTION OF SYMBOLS 1,101,201 ... Container combined syringe 2 ... Glass cartridge 3 ... Hubble lure lock 4 ... Needle base 5 ... Injection needle 6, 106, 206 ... Protector (cap)
10 ... Front assembly 33d ... Annular groove 62b ... Groove 63b ... Projection 65, 165, 265 ... Slit O ... Axis

Claims (6)

A glass cartridge formed in a cylindrical shape extending along an axis;
A front assembly provided at the tip of the glass cartridge,
The front assembly is
A hub lure lock formed with an outer collar extending in a cylindrical shape along the axis from the glass cartridge;
The base end is fitted and arranged on the inner peripheral surface of the distal end of the outer collar, and has a cap formed in a cylindrical shape and extending along the axis.
The outer collar is formed with an annular groove that is recessed radially outward from the inner peripheral surface,
The container-use syringe, wherein a slit penetrating in the radial direction is formed at a position corresponding to the annular groove at the base end of the cap.   2. The container-use syringe according to claim 1, wherein the slit has a shape that opens toward the base end of the cap and increases in width toward the base end of the cap.   The container-use syringe according to claim 1 or 2, wherein a plurality of the slits are formed along a circumferential direction of the cap.   The container-use syringe according to any one of claims 1 to 3, wherein a convex portion convex toward the radially outer side is formed on a side opposite to the opening side of the slit. .   5. The container-use syringe according to claim 1, wherein a protrusion that engages with the annular groove is formed at the proximal end of the cap. The front assembly is
It is disposed along the inner peripheral surface of the cap and has a needle base provided with an injection needle.
6. The container-use syringe according to claim 1, wherein a groove formed in a spiral shape along the axis is formed on an inner peripheral surface of the cap.

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