JP5817304B2 - Nasal administration container - Google Patents

Description

  The present invention relates to a nasal cavity container for administering a drug solution into the nasal cavity.

  As disclosed in Japanese Patent Laid-Open No. 2001-137344 (Patent Document 1), the nasal cavity administration container is used to administer a drug solution to the left and right nasal cavity. When a nasal cavity administration container is used, first, the nasal cavity administration container is inserted into one nasal cavity. In this state, a predetermined amount of drug solution is administered to one nasal cavity. The nasal administration container is then inserted into the other nasal cavity. In this state, the remaining drug solution is administered to the other nasal cavity.

  As a nasal cavity administration container, when a drug solution is administered to the left and right nasal cavities, it is desired to easily and appropriately administer a predetermined amount (for example, half) of the drug solution to each nasal cavity.

JP 2001-137344 A

  An object of the present invention is to provide a nasal cavity administration container capable of administering a drug solution to the left and right nasal cavity more simply and appropriately.

A nasal cavity administration container according to the present invention is formed in a cylindrical shape including a distal end and a proximal end, and a barrel having an abutting portion provided on the proximal end side and an opening provided on the inner side of the abutting portion; A plunger inserted from one end side into the barrel through the opening and movable forward and backward in the barrel; a stopper member provided on the other end side of the plunger and advanced and retracted together with the plunger; A locking member that is provided closer to the one end of the plunger than the stopper member and moves forward and backward together with the plunger, and the stopper member is disposed on the contact portion when the plunger moves forward. The first state, which is opposed to the abutting part, and is not opposed to the abutting part when the plunger is moved forward. And a second state arranged so as to enter with the plunger into the interior of each of the first and second states, wherein the lock member is arranged so as to be separated from the stopper member, and And a fourth state arranged close to the stopper member so as to be engageable with the stopper member forming the second state, respectively, and the plunger is used for the first administration. as it is pushed toward the inside of the barrel, the first state is formed to have the stopper member, the contact portion approaches the said locking member forming the third state, the opening When the stopper member comes into contact with the contact portion, the movement of the plunger stops and the first administration is completed. When the lock member is pressed against the inner peripheral surface, the lock member approaches the stopper member and transitions from the third state to the fourth state. When the stopper member transitions from the first state to the second state, the contact state between the stopper member and the contact portion is released, and the lock member is engaged with the stopper member. the second state of the stopper member is held, the plunger is in a state in which the second state of the stopper member is held further towards the inside of the barrel for the second dose The stopper member is pushed in , and extends so as to protrude from the main body portion to the plunger side from the main body portion, and is opposed to the plunger. And a leaf spring portion disposed so as to move the main body portion away from the plunger by the elasticity of the leaf spring portion when the stopper member transitions from the first state to the second state. As a result of this force acting on the stopper member, the transition from the first state to the second state is suppressed.

  Preferably, the stopper member includes a first leaf spring portion facing the plunger, and the stopper member is moved from the first state to the first state by the first leaf spring portion pressing the plunger. Transition to two states is suppressed.

  Preferably, the stopper member is configured to be rotatable around a portion connected to the plunger.

  Preferably, the lock member includes a second leaf spring portion facing the plunger, and the lock member is moved from the third state to the second state by the second leaf spring portion pressing the plunger. Transition to four states is suppressed.

  Preferably, a pressing portion is provided on the other end side of the plunger, a protrusion is provided on the surface of the pressing portion, and when the protrusion contacts the stopper member, the stopper member is Transition from the first state to the second state is suppressed.

  Preferably, the stopper member and the plunger are integrally formed with each other.

  Preferably, the lock member and the plunger are formed separately from each other.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to obtain the nasal cavity administration container which can administer a chemical | medical solution to a right and left nasal cavity more simply and appropriately.

It is the 1st sectional view (side view) which shows the nasal cavity administration container in an embodiment. It is an arrow line view from the arrow II direction in FIG. 1, and is the 2nd sectional view (front view) which shows the nasal cavity administration container in embodiment. It is a 1st side view which shows the plunger and stopper member which are used for the nasal cavity administration container in embodiment. It is arrow sectional drawing along the IV-IV line in FIG. It is a 2nd side view which shows the plunger and stopper member which are used for the nasal cavity administration container in embodiment. It is arrow sectional drawing along the VI-VI line in FIG. It is a 3rd side view which shows the plunger and stopper member which are used for the nasal cavity administration container in embodiment. It is arrow sectional drawing along the VIII-VIII line in FIG. It is a side view which shows a mode when a lock member is attached to the plunger used for the nasal cavity administration container in embodiment. It is a front view which shows a mode when a lock member is attached to the plunger used for the nasal cavity administration container in embodiment. It is the 1st sectional view (side view) which shows the initial state of the nasal cavity administration container in an embodiment. It is a 2nd sectional view (front view) which shows the initial state of the nasal cavity administration container in an embodiment. It is the 1st sectional view (side view) which shows the state at the time of the completion of suction of the nasal cavity administration container in an embodiment. It is the 2nd sectional view (front view) which shows the state at the time of completion of suction of the nasal cavity administration container in an embodiment. It is the 1st sectional view (side view) showing the state at the time of priming (completion) of the nasal cavity administration container in an embodiment. It is a 2nd sectional view (front view) which shows the state at the time of priming (completion) of the nasal cavity administration container in an embodiment. It is the 1st sectional view (side view) showing the state at the time of the 1st administration (completion) of the nasal cavity administration container in an embodiment. It is a 2nd sectional view (front view) which shows the state at the time of the 1st administration (completion) of the nasal cavity administration container in an embodiment. It is a 1st sectional view (side view) which shows the state at the time of the 2nd administration preparation (completion) of the nasal cavity administration container in an embodiment. It is a 2nd sectional view (front view) which shows the state at the time of the 2nd administration preparation (completion) of the nasal cavity administration container in an embodiment. It is a 1st sectional view (side view) which shows the state at the time of the 2nd administration (completion) of the nasal cavity administration container in an embodiment. It is a 2nd sectional view (front view) which shows the state at the time of the 2nd administration (completion) of the nasal cavity administration container in an embodiment.

  Embodiments based on the present invention will be described below with reference to the drawings. In the description of the embodiments, when referring to the number, amount, and the like, the scope of the present invention is not necessarily limited to the number, amount, or the like unless otherwise specified. In the description of the embodiments, the same parts and corresponding parts are denoted by the same reference numerals, and redundant description may not be repeated.

  With reference to FIG. 1 and FIG. 2, the nasal cavity administration container 100 in embodiment is demonstrated. FIG. 1 is a first cross-sectional view showing a nasal cavity administration container 100. In FIG. 1, the barrel 10, the gasket 27, and the spray nozzle 18 are illustrated as a cross-sectional view. In FIG. 1, the plunger 20, the stopper member 30, the lock member 40, and the like are illustrated as side views. The same applies to FIG. 11, FIG. 13, FIG. 15, FIG. 17, FIG.

  FIG. 2 is a second cross-sectional view showing the nasal cavity administration container 100 as viewed from the direction of arrow II in FIG. In FIG. 2, the barrel 10, the gasket 27, and the spray nozzle 18 are illustrated as a cross-sectional view. In FIG. 2, the plunger 20, the stopper member 30, the lock member 40, and the like are illustrated as a front view. The same applies to FIG. 12, FIG. 14, FIG. 16, FIG. 18, FIG.

  As shown in FIGS. 1 and 2, the nasal cavity administration container 100 includes a barrel 10, a plunger 20, a stopper member 30, and a lock member 40.

(Barrel 10)
The barrel 10 is formed in a substantially cylindrical shape. The barrel 10 includes a distal end 10a and a proximal end 10b. An opening 11 is provided on the tip 10a side. An opening 12 is provided on the base end 10b side. The opening 11 and the opening 12 communicate with each other through the interior 10 s of the barrel 10. The chemical solution is stored in the interior 10 s of the barrel 10. A spray nozzle 18 having a jet port 19 is provided on the tip 10a side of the barrel 10 (see arrow AR18).

  On the base end 10b side, a flange portion 14 (contact portion) that protrudes in an annular shape toward the outside is provided. As a contact part in this invention, the base end 10b does not need to protrude in the flange shape toward outward. An opening 12 is provided inside the flange portion 14. The inner peripheral surface 13 of the barrel 10 forming the opening 12 is formed in a tapered shape so that the inner diameter gradually decreases from the base end 10b side to the front end 10a side.

(Plunger 20)
FIG. 3 is a first side view showing the plunger 20 and the stopper member 30. FIG. 3 shows a state in which the lock member 40 (not shown) is removed from the plunger 20. Although details will be described later, the lock member 40 (see FIGS. 1 and 2) is attached to the plunger 20.

  As shown in FIG. 3, the plunger 20 has one end 20a and the other end 20b. The plunger 20 is formed in a substantially bar shape extending from the one end 20a side toward the other end 20b side. A gasket 27 is attached to one end 20 a of the plunger 20.

  The plunger 20 is inserted together with the gasket 27 from the one end 20a side of the plunger 20 into the interior 10s of the barrel 10 through the opening 12 of the barrel 10 (see FIGS. 1 and 2). The plunger 20 and the gasket 27 can move forward and backward in the direction of the arrow AR (see FIGS. 1 and 2) in the interior 10 s of the barrel 10.

  The other end 20 b of the plunger 20 is provided with a disk-shaped pressing portion 26. The pressing portion 26 is provided with a crescent-shaped recess 29 so as to be recessed from the surface 26 s of the pressing portion 26. A hemispherical minute protrusion 28 (protrusion part) is provided on the surface 26 s (near the recess 29) of the pressing part 26. Details of the functions of the microprojections 28 and the recesses 29 will be described later.

  The plunger 20 has four rib pieces 21 formed in a plate shape. The four rib pieces 21 extend from the one end 20 a side of the plunger 20 toward the pressing portion 26. The four rib pieces 21 are arranged at intervals of 90 °.

  One of the four rib pieces 21 is provided with a first cutout portion 24 and a second cutout portion 25. The first cutout 24 is formed in a substantially L shape. The first cutout 24 extends from the end face of the rib piece 21 in a direction perpendicular to the longitudinal direction of the plunger 20, and is provided so as to bend from the tip in the extending direction and hang down to the other end 20 b side.

  The second notch 25 is provided closer to the other end 20 b of the plunger 20 than the first notch 24. The second notch 25 is provided so as to extend from the end face of the rib piece 21 in a direction orthogonal to the longitudinal direction of the plunger 20. Although details will be described later, the lock member 40 is attached to the plunger 20 using the first cutout portion 24 and the second cutout portion 25.

  The plunger 20 is also provided with a first protrusion 22 and a second protrusion 23 (see FIGS. 1 to 3). The second protrusion 23 is located closer to the other end 20 b of the plunger 20 than the first protrusion 22. Each of the first protrusion 22 and the second protrusion 23 is provided so as to protrude in a direction orthogonal to the longitudinal direction of the plunger 20. Each of the first protrusion 22 and the second protrusion 23 is formed in a semicircular shape so as to straddle three of the four rib pieces 21.

  Although details will be described later with reference to FIGS. 15 and 16, the first protrusion 22 is used as a so-called stopper when a priming operation is performed on the nasal cavity administration container 100. The first protrusion 22 is also used to improve the pressing force on the plunger 20 when the first administration is started with respect to the nasal cavity administration container 100.

  The details will be described later with reference to FIG. 17 and FIG. 18, but the second projecting portion 23 applies a pressing force to the plunger 20 when the second administration to the nasal cavity administration container 100 is started. Used to improve.

(Stopper member 30)
FIG. 4 is a cross-sectional view taken along line IV-IV in FIG. 3 and 4, the stopper member 30 is provided on the other end 20 b side of the plunger 20. The stopper member 30 moves forward and backward with respect to the barrel 10 (in the direction of the arrow AR in FIGS. 1 and 2) together with the plunger 20.

  Specifically, the stopper member 30 includes a main body portion 31, a leaf spring portion 32, a notch portion 33, an engagement portion 34, a connection portion 36, and a rear end surface 38. In the present embodiment, the stopper member 30 and the plunger 20 are integrally formed with each other. The stopper member 30 and the plunger 20 may be integrated with each other by bonding or the like after being molded separately from each other.

  The main body 31 is composed of a plate-like member formed so as to be bent in a semicircular arc shape (see FIG. 4). The engaging portion 34 is formed at the end of the main body portion 31 on the upper side (near the one end 20a of the plunger 20). Although details will be described later, the engaging portion 34 can be engaged with an engaging portion 47 of the lock member 40 (see FIGS. 1 and 2).

  A U-shaped cutout 33 is provided so as to penetrate substantially the center of the main body 31. A leaf spring portion 32 (first leaf spring portion) is formed inside the notch 33. The leaf spring portion 32 extends so as to protrude from the main body portion 31 and is disposed so as to face the plunger 20. When pressed by the plunger 20, the leaf spring portion 32 is elastically deformed so as to be accommodated inside the main body portion 31.

  A connecting portion 36 is formed at the side end of the main body portion 31. The stopper member 30 and the plunger 20 are connected to each other with the connecting portion 36 interposed therebetween. The main body 31 can rotate around the connecting portion 36 (portion connected to the plunger 20) in the direction approaching the rib piece 21 and the direction away from the rib piece 21 (in FIG. 4). Arrow AR30).

  FIG. 5 is a second side view showing the plunger 20 and the stopper member 30. 6 is a cross-sectional view taken along the line VI-VI in FIG. 5 and 6, the stopper member 30 is shown rotating around the connecting portion 36 toward the rib piece 21. The leaf spring portion 32 is in contact with the rib piece 21.

  FIG. 7 is a third side view showing the plunger 20 and the stopper member 30. 8 is a cross-sectional view taken along the line VIII-VIII in FIG. 7 and 8, the stopper member 30 is further rotated toward the rib piece 21 around the connection portion 36. The leaf spring portion 32 (not shown) is housed inside the main body portion 31 (notch portion 33).

  As shown in FIGS. 3 to 8, when the stopper member 30 is rotated, the stopper member 30 selectively forms (alternatively) the first state and the second state. Hereinafter, the first state and the second state will be specifically described.

(First state)
In the first state, the stopper member 30 is disposed so as to be separated from the rib piece 21 of the plunger 20 (for example, the state shown in FIGS. 3 to 6). Although details will be described later, the plunger 20 moves forward so as to enter the inside of the barrel 10 in order to administer the drug solution or prepare for administration. When the plunger 20 enters the inside of the barrel 10 (see FIGS. 1 and 2) by the forward movement of the plunger 20, the stopper member 30 and the flange portion 14 face each other in the first state. The stopper member 30 is disposed so as to contact the flange portion 14.

(Second state)
On the other hand, in the second state, stopper member 30 is arranged along rib piece 21 of plunger 20 (for example, the state shown in FIGS. 7 and 8). When the plunger 20 enters the inside of the barrel 10 (see FIGS. 1 and 2) by the forward movement of the plunger 20, the stopper member 30 and the flange portion 14 do not face each other in the second state. The stopper member 30 is arranged so as to enter the interior 10 s of the barrel 10 together with the plunger 20.

(Function of leaf spring portion 32)
When the stopper member 30 (main body portion 31) rotates, the leaf spring portion 32 contacts the plunger 20 before the main body portion 31 (see FIG. 6). The leaf spring portion 32 acts to keep the main body portion 31 away from the rib piece 21 when the stopper member 30 (main body portion 31) rotates. When the leaf spring portion 32 presses the rib piece 21 of the plunger 20 with respect to the rotation of the stopper member 30, the stopper member 30 is moved from the first state (the state shown in FIGS. 5 and 6) to the second state ( Transition to the state shown in FIGS. 7 and 8 is suppressed (disturbed).

  When the stopper member 30 transitions to the second state, the leaf spring portion 32 is elastically deformed so as to be accommodated inside the main body portion 31. Although details will be described later, the state in which the stopper member 30 forms the second state is held by mutual engagement between the engaging portion 34 of the stopper member 30 and the engaging portion 47 of the lock member 40.

(Functions of the microprojections 28 and the recesses 29)
In the present embodiment, the rear end surface 38 of the main body portion 31 and the surface 26s of the pressing portion 26 are located on substantially the same plane. As described above, the depression portion 29 is provided in the pressing portion 26. In the region where the concave portion 29 is provided, the stopper member 30 rotates without contacting the pressing portion 26.

  As described above, the minute projections 28 are provided in the vicinity of the recesses 29 on the surface 26 s of the pressing portion 26. When the stopper member 30 (main body portion 31) rotates from the concave portion 29 toward the rib piece 21, the rear end surface 38 of the main body portion 31 is in sliding contact with the minute protrusions 28. The minute projections 28 act as resistance when the stopper member 30 (main body portion 31) rotates from the concave portion 29 side toward the rib piece 21. The microprojections 28 also prevent the stopper member 30 from changing from the first state (the state shown in FIGS. 3 and 4) to the second state (the state shown in FIGS. 7 and 8).

(Lock member 40)
FIG. 9 is a side view showing a state when the lock member 40 is attached to the plunger 20. FIG. 10 is a front view showing a state when the lock member 40 is attached to the plunger 20.

  With reference to FIG. 9 and FIG. 10, the lock member 40 is provided closer to the end 20 a of the plunger 20 than the stopper member 30. Similar to the stopper member 30, the lock member 40 moves forward and backward with respect to the barrel 10 (in the direction of arrow AR in FIGS. 1 and 2) together with the plunger 20.

  Specifically, the lock member 40 includes a right arm portion 41, a left arm portion 42 (see FIG. 10), a protrusion 43, a first attachment shaft 44, a second attachment shaft 45, a leaf spring portion 46, and an engagement portion 47. Including. In the present embodiment, the plunger 20 and the lock member 40 are molded separately from each other.

  Each of the right arm portion 41 and the left arm portion 42 is formed in a substantially rod shape. The right arm portion 41 and the left arm portion 42 are provided side by side in parallel with a space therebetween. A columnar first mounting shaft 44 is provided so as to connect between the upper end of the right arm portion 41 and the upper end of the left arm portion 42. A columnar second mounting shaft 45 is provided so as to connect the lower part of the right arm part 41 and the lower part of the left arm part 42.

  The leaf spring portion 46 (second leaf spring portion) extends in a direction away from the right arm portion 41 and the left arm portion 42. The leaf spring portion 46 is provided so as to protrude obliquely outward with the lower portions of the right arm portion 41 and the left arm portion 42 as the base point. An engaging portion 47 is provided at the tip end portion of the leaf spring portion 46 in the extending direction (the lower end portion of the leaf spring portion 46). As described above, the engaging portion 47 can engage with the engaging portion 34 provided on the main body 31 of the stopper member 30.

  The protruding portion 43 is provided on the surface of the leaf spring portion 46. Although details will be described later with reference to FIGS. 17 and 18, the protrusion 43 improves the pressing force to the plunger 20 when the second administration to the nasal cavity administration container 100 is started. Used for.

  When the lock member 40 is attached to the plunger 20, first, the first attachment shaft 44 of the lock member 40 is fitted into the first notch 24 of the plunger 20 (see arrow AR44). At this time, the right arm portion 41 and the left arm portion 42 are arranged so as to face each other with one rib piece 21 interposed therebetween. The first mounting shaft 44 is fitted in the first cutout portion 24 in a direction orthogonal to the plunger 20, and then dropped toward the other end 20 b of the plunger 20.

  Next, the second mounting shaft 45 of the lock member 40 is fitted into the second notch 25 of the plunger 20 (see arrow AR45). The second mounting shaft 45 and the second notch 25 are fitted to each other. By the fitting, the lock member 40 is fixed to the plunger 20 (see FIGS. 1 and 2). The lock member 40 may be formed so as to be integrated with the plunger 20 in advance.

  Referring to FIGS. 1 and 2 again, in a state where the lock member 40 is fixed to the plunger 20, the right arm portion 41 and the left arm portion 42 (see FIG. 2) are arranged so as to lean against the rib piece 21. . The leaf spring portion 46 stands obliquely so as to move away from the rib piece 21 (plunger 20). As described above, the lock member 40 also moves forward and backward with respect to the barrel 10 (in the direction of the arrow AR) together with the plunger 20.

  The plunger 20 moves forward so as to enter the inside of the barrel 10 in order to administer the drug solution or prepare for administration. When the plunger 20 enters the inside of the barrel 10 by the forward movement of the plunger 20, the surface of the leaf spring portion 46 approaches the inner peripheral surface 13 of the barrel 10 that forms the opening 12. As the plunger 20 further moves forward, the surface of the leaf spring portion 46 comes into contact with the inner peripheral surface 13.

  As the plunger 20 further moves forward, the surface of the leaf spring portion 46 is pressed by the inner peripheral surface 13. In the lock member 40, the right arm portion 41, the left arm portion 42, and the leaf spring portion 46 are elastically deformed. When the right arm portion 41, the left arm portion 42, and the leaf spring portion 46 are elastically deformed, the lock member 40 selectively forms (alternatively) the third state and the fourth state. Hereinafter, the third state and the fourth state will be specifically described.

(Third state)
In the third state, the lock member 40 (leaf spring portion 46) is disposed so as to be separated from the stopper member 30 (for example, the state shown in FIGS. 1 and 2). Specifically, the leaf spring portion 46 of the lock member 40 does not enter the interior 10 s of the barrel 10. The surface of the leaf spring portion 46 is not pressed by the inner peripheral surface 13 of the barrel 10. The leaf spring portion 46 stands obliquely so as to move away from the plunger 20 (rib piece 21).

(4th state)
On the other hand, in the fourth state, the lock member 40 (engaging portion 47) is disposed closer to the stopper member 30 so as to be engageable with the stopper member 30. Specifically, the leaf spring portion 46 of the lock member 40 enters the interior 10 s of the barrel 10. The lock member 40 is elastically deformed as a whole when the leaf spring portion 46 is pressed by the inner peripheral surface 13 of the barrel 10. The engaging portion 47 of the lock member 40 is disposed closer to the stopper member 30 so as to be engageable with the stopper member 30 (see FIGS. 7 and 8) forming the second state (see FIG. 17 for details). , Described later with reference to FIG. 18).

(Function of leaf spring portion 46)
As described above, the leaf spring portion 46 extends in a direction away from the right arm portion 41 and the left arm portion 42. The leaf spring portion 46 is provided so as to protrude obliquely outward with the lower portions of the right arm portion 41 and the left arm portion 42 as the base point.

  When the lock member 40 is about to transition from the third state to the fourth state (details will be described later), the leaf spring portion 46 presses the plunger 20. The leaf spring portion 46 prevents the lock member 40 from transitioning from the third state to the fourth state.

(Operation of nasal cavity administration container 100)
With reference to FIGS. 11-22, operation | movement of the nasal cavity administration container 100 comprised as mentioned above is demonstrated.

(Initial state S1)
FIG. 11 is a first cross-sectional view (side view) showing an initial state S1 of the nasal cavity administration container 100. FIG. FIG. 12 is a second cross-sectional view (front view) showing the initial state S1 of the nasal cavity administration container 100. FIG.

  As shown in FIG. 11 and FIG. 12, the initial state S1 of the nasal cavity administration container 100 is obtained by assembling the nasal cavity administration container 100. In the initial state S1, the plunger 20 is inserted deeply into the barrel 10.

  In the initial state, the stopper member 30 is arranged along the plunger 20. The stopper member 30 forms the second state. The lock member 40 is elastically deformed as a whole. The lock member 40 forms the fourth state. The engaging portion 47 of the lock member 40 and the engaging portion 34 of the stopper member 30 are engaged with each other.

  A container (not shown) in which a chemical solution is stored is fitted into the tip 10 a of the barrel 10. In order to put the drug solution (see the drug solution LQ in FIGS. 13 and 14) into the interior 10s of the nasal cavity administration container 100, the plunger 20 is pulled out in the direction of the arrow DR1 with respect to the barrel 10. In accordance with the operation of the plunger 20, the gasket 27 also moves in the direction of the arrow DR1.

(State S2 upon completion of suction)
FIG. 13 is a first cross-sectional view (side view) showing a state S2 when the suction of the nasal cavity administration container 100 is completed. FIG. 14 is a second cross-sectional view (front view) showing a state S2 when the suction of the nasal cavity administration container 100 is completed.

  The plunger 20 is pulled out in the direction of the arrow DR2 with respect to the barrel 10. The chemical liquid LQ is sucked through the opening 11 toward the inside 10 s of the barrel 10. In accordance with the backward movement of the plunger 20, the stopper member 30 and the lock member 40 are also moved backward in the direction of the arrow DR2 with respect to the barrel 10.

  As shown in FIGS. 13 and 14, when the lock member 40 moves backward, the mutual contact state between the lock member 40 and the inner peripheral surface 13 is released. The lock member 40 is not pressed by the inner peripheral surface 13 and is deformed in the direction of the arrow DR2a. The lock member 40 returns to a state where it is not elastically deformed. The lock member 40 transitions from the fourth state to the third state. The engaging portion 47 of the lock member 40 is disposed so as to be separated from the stopper member 30.

  The mutual engagement state between the engagement portion 34 and the engagement portion 47 is released by the deformation of the lock member 40. The leaf spring portion 32 of the stopper member 30 presses the rib piece 21 of the plunger 20. The stopper member 30 rotates in a direction away from the plunger 20 (see arrow DR2b). The stopper member 30 transitions from the second state to the first state. The stopper member 30 is disposed so as to be separated from the rib piece 21 of the plunger 20.

  As described above, the suction of the chemical liquid LQ is completed. Here, when the chemical liquid LQ is sucked into the interior 10s of the barrel 10, air SS may also enter the interior 10s of the barrel 10 (state shown in FIGS. 13 and 14).

(Priming state S3)
FIG. 15 is a first cross-sectional view (side view) showing a state S3 when the nasal cavity administration container 100 is primed (completed). FIG. 16 is a second cross-sectional view (front view) showing a state S3 when the nasal cavity administration container 100 is primed (completed).

  With reference to FIG. 15 and FIG. 16, the amount of the drug solution LQ to be administered to the nasal cavity is regulated to a predetermined value, and (if necessary) the air SS that has entered the interior 10s of the barrel 10 is extracted. For this purpose, an operation called priming (priming operation) is performed.

  Specifically, the plunger 20 is pushed into the barrel 10 (see arrow DR3). In accordance with the operation of the plunger 20, the gasket 27 also moves in the direction of the arrow DR3. The air SS is gradually discharged from the inside 10 s of the barrel 10. The first protrusion 22 provided on the plunger 20 gradually approaches the inner peripheral surface 13 of the barrel 10.

  As shown in FIGS. 15 and 16, the forward movement of the plunger 20 stops when the first protrusion 22 abuts against the inner peripheral surface 13 (the state shown in FIGS. 15 and 16). The air mixed in the inside 10 s of the barrel 10 is discharged to the outside of the barrel 10. The priming operation is completed. The amount of the drug solution LQ to be administered to the nasal cavity is defined as a predetermined value.

  When the forward movement of the plunger 20 stops, the surface of the leaf spring portion 46 and the inner peripheral surface 13 of the barrel 10 may be in contact with each other or may be separated from each other. The stopper member 30 continues to form the first state. The lock member 40 continues to form the third state.

(State S4 at the time of the first administration)
FIG. 17 is a first cross-sectional view (side view) showing a state S4 of the nasal cavity administration container 100 during the first administration (completion). FIG. 18 is a second cross-sectional view (front view) showing a state S4 of the nasal cavity administration container 100 at the time of the first administration (completion).

  Referring to FIGS. 17 and 18, after the amount of the drug LQ to be administered to the nasal cavity is defined to a predetermined value, the spray nozzle 18 (see FIG. 1) provided at the tip 10a of the barrel 10 Placed in the nasal cavity. In this state, using the pressing portion 26, the plunger 20 is strongly pressed into the barrel 10 for the first administration (see arrow DR4). The gasket 27 enters the inside of the barrel 10 in accordance with the operation of the plunger 20. The medicinal liquid LQ is ejected from the spray nozzle 18 and then administered into the nasal cavity.

  When the plunger 20 starts moving forward for the first administration, the mutual contact state between the first protrusion 22 of the plunger 20 and the inner peripheral surface 13 of the barrel 10 is released. Since the first protrusion 22 is provided on the plunger 20, the first protrusion 22 and the inner peripheral surface 13 are engaged with each other up to a predetermined pressing force. The medicinal liquid LQ can be stably sprayed into the nasal cavity at a high pressure from the start of spraying.

  When the plunger 20 is pushed into the barrel 10, the stopper member 30 that forms the first state and the lock member 40 that forms the third state also move in the direction of the arrow DR4. The stopper member 30 forming the first state gradually approaches the flange portion 14. The lock member 40 that forms the third state gradually approaches the inner peripheral surface 13 of the barrel 10 that forms the opening 12. Thereafter, the lock member 40 gradually enters the interior 10 s of the barrel 10.

  The lock member 40 is pressed against the inner peripheral surface 13 of the barrel 10 when entering the interior 10 s of the barrel 10. The lock member 40 enters the interior 10 s of the barrel 10 while being elastically deformed so that the right arm portion 41, the left arm portion 42 and the leaf spring portion 46 are arranged in a substantially straight line. The lock member 40 gradually transitions from the third state to the fourth state.

  When the distal end portion of the stopper member 30 comes into contact with the lower surface of the flange portion 14 (the base end 10b of the barrel 10), the movement of the plunger 20 is stopped. At this time, the second protrusion 23 of the plunger 20 and the protrusion 43 of the lock member 40 may also be configured to contact the inner peripheral surface 13 of the barrel 10. As described above, the first administration is completed (the state shown in FIGS. 17 and 18). The stroke amount of the plunger 20 with respect to the barrel 10 defines the dose of the first chemical LQ.

  At the time when the first administration is completed, the lock member 40 forms the fourth state. The lock member 40 (engagement portion 47) is disposed near the stopper member 30 so as to be engageable with the stopper member 30 (state shown in FIGS. 17 and 18).

(State S5 at the time of preparation for second administration)
FIG. 19 is a first cross-sectional view (side view) showing a state S5 of the nasal cavity administration container 100 during the second administration preparation (completion). FIG. 20 is a second cross-sectional view (front view) showing a state S5 of the nasal cavity administration container 100 at the time of second administration preparation (completion).

  Referring to FIGS. 19 and 20, after completion of the first administration, stopper member 30 is rotated in the direction of arrow DR5 by the user of nasal cavity administration container 100 or the like. The stopper member 30 gradually transitions from the first state to the second state in preparation for the second administration.

  At this time, the rear end surface 38 of the stopper member 30 gets over the minute protrusion 28 (the state shown in FIGS. 19 and 20). The microprojections 28 prevent the stopper member 30 from rotating unintentionally (unintentionally shifting from the first state to the second state). Further, the leaf spring portion 32 presses the rib piece 21. The leaf spring portion 32 also prevents the stopper member 30 from rotating unintentionally (unintentionally shifting from the first state to the second state).

  When the contact state between the stopper member 30 and the flange portion 14 is released, the stopper member 30 transitions to the second state. The stopper member 30 is disposed along the rib piece 21 of the plunger 20. The stopper member 30 and the flange portion 14 do not face each other. The stopper member 30 is arranged so as to enter the interior 10 s of the barrel 10 together with the plunger 20.

  After the stopper member 30 forms the second state, the engaging portion 34 of the stopper member 30 and the engaging portion 47 of the lock member 40 are engaged with each other (state shown in FIGS. 19 and 20). The engagement holds that the plunger 20 forms the second state. Even when the user of the nasal cavity administration container 100 releases his / her hand from the stopper member 30, the stopper member 30 remains arranged along the rib piece 21 of the plunger 20.

(State S6 at the time of the second administration)
FIG. 21 is a first cross-sectional view (side view) showing a state S6 of the nasal cavity administration container 100 during the second administration (completion). FIG. 22 is a second cross-sectional view (front view) showing a state S6 of the nasal cavity administration container 100 during the second administration preparation (completion).

  Referring to FIGS. 21 and 22, a spray nozzle 18 (see FIG. 1) provided at the tip 10a of the barrel 10 is disposed in the other nasal cavity. In this state, using the pressing portion 26, the plunger 20 is strongly pushed into the barrel 10 (see arrow DR6). The gasket 27 enters the inside of the barrel 10 in accordance with the operation of the plunger 20. The medicinal liquid LQ is ejected from the spray nozzle 18 and then administered into the nasal cavity.

  When the plunger 20 starts moving forward for the second administration, the mutual contact state between the second protrusion 23 of the plunger 20 and the inner peripheral surface 13 of the barrel 10 is released. The mutual contact state between the protrusion 43 of the lock member 40 and the inner peripheral surface 13 of the barrel 10 is also released. By providing the plunger 20 with the second protrusion 23, the second protrusion 23 and the inner peripheral surface 13 engage with each other up to a predetermined pressing force. The medicinal liquid LQ can be stably sprayed into the nasal cavity at a high pressure from the start of spraying. The same applies to the protrusion 43 of the lock member 40.

  The movement of the plunger 20 stops when the gasket 27 contacts the inner peripheral surface of the barrel 10. As described above, the second administration is completed. The stroke amount of the plunger 20 with respect to the barrel 10 defines the second dose of the liquid medicine LQ. The nasal cavity administration container 100 operates as described above, and the administration of the drug solution LQ by the nasal cavity administration container 100 is performed as described above.

(Action / Effect)
In the nasal cavity administration container 100, as described above, the stopper member 30 that selectively forms the first state and the second state and the lock member 40 that selectively forms the third state and the fourth state are the plungers. 20 respectively.

  In the first administration, the plunger 20 is stopped by these operations. According to the nasal cavity administration container 100, the drug solution can be administered to one nasal cavity simply and appropriately. The stopper member 30 and the lock member 40 can be engaged with each other only after the first administration is completed. The chemical solution to be administered in the second administration is reliably prevented from being erroneously administered at the first administration. Therefore, according to the nasal cavity administration container 100, the drug solution can be easily and appropriately administered to the other nasal cavity.

  Further, the transition of the stopper member 30 from the first state to the second state is suppressed not only by the leaf spring portion 32 but also by the minute protrusions 28. Transition of the lock member 40 from the third state to the fourth state is also suppressed by the leaf spring portion 46. Also in these points, in the nasal cavity administration container 100, the chemical solution to be administered in the second administration is reliably prevented from being erroneously administered during the first administration.

  As mentioned above, although embodiment based on this invention was described, embodiment disclosed this time is an illustration and restrictive at no points. The technical scope of the present invention is defined by the terms of the claims, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  10 barrel, 10a tip, 10b base end, 10s inside, 11, 12 opening, 13 inner peripheral surface, 14 flange portion (contact portion), 18 spray nozzle, 19 jet outlet, 20 plunger, 20a one end, 20b, etc. End, 21 Rib piece, 22 First protrusion, 23 Second protrusion, 24 First notch, 25 Second notch, 26 Pressing part, 26s Surface, 27 Gasket, 28 Micro protrusion (projection), 29 Recess , 30 Stopper member, 31 Main body portion, 32 Leaf spring portion (first leaf spring portion), 33 Notch portion, 34, 47 Engagement portion, 36 Connection portion, 38 Rear end surface, 40 Lock member, 41 Right arm portion, 42 Left arm Part, 43 protrusion part, 44 1st attachment axis, 45 2nd attachment axis, 46 leaf spring part (second leaf spring part), 100 nasal cavity administration container, LQ drug solution, SS air.

Claims (7)

A barrel formed in a cylindrical shape including a distal end and a proximal end, provided with a contact portion on the proximal end side, and provided with an opening on the inner side of the contact portion;
A plunger that is inserted from one end side into the barrel through the opening and is movable forward and backward in the barrel;
A stopper member provided on the other end side of the plunger and moving forward and backward together with the plunger;
A locking member that is provided closer to the one end of the plunger than the stopper member and moves forward and backward together with the plunger;
The stopper member is
When the plunger moves forward, a first state is arranged so as to face the contact portion and contact the contact portion;
When the plunger moves forward, a second state that is arranged so as not to face the contact portion and to enter the barrel together with the plunger is selectively formed.
The locking member is
A third state arranged to be separated from the stopper member;
A fourth state that is disposed closer to the stopper member so as to be engageable with the stopper member forming the second state, and selectively forming each;
As the plunger is pushed toward the inside of the barrel for the first administration, the stopper member that forms the first state, the closer the contact portion, forming the third state The locking member is approaching the inner peripheral surface of the barrel forming the opening,
When the stopper member abuts on the abutting portion, the movement of the plunger stops and the first administration is completed, and the lock member is pressed against the inner peripheral surface, whereby the lock member is While approaching the stopper member, transition from the third state to the fourth state,
When the stopper member is shifted from the first state to the second state for the second administration, the mutual contact state between the stopper member and the contact portion is released, and the lock member is By engaging the stopper member, the second state of the stopper member is maintained,
Said plunger is in a state in which the second state of the stopper member is held, the barrel said further pushed toward the inside of the for the second dose,
The stopper member includes a main body portion, and a leaf spring portion that extends from the main body portion so as to protrude toward the plunger and is disposed so as to face the plunger.
When the stopper member transitions from the first state to the second state, a force in a direction of moving the main body portion away from the plunger acts on the stopper member by the elasticity of the leaf spring portion. Transition from the first state to the second state is suppressed,
Nasal administration container. The stopper member includes a first leaf spring portion facing the plunger,
When the first leaf spring portion presses the plunger, the stopper member is suppressed from transitioning from the first state to the second state.
The nasal cavity administration container according to claim 1. The stopper member is configured to be rotatable around a portion connected to the plunger.
The nasal cavity administration container according to claim 1 or 2. The lock member includes a second leaf spring portion facing the plunger,
When the second leaf spring portion presses the plunger, the lock member is suppressed from transitioning from the third state to the fourth state.
The nasal cavity administration container according to any one of claims 1 to 3. A pressing portion is provided on the other end side of the plunger,
A protrusion is provided on the surface of the pressing portion,
When the protrusion comes into contact with the stopper member, the stopper member is suppressed from transitioning from the first state to the second state.
The nasal cavity administration container according to any one of claims 1 to 4. The stopper member and the plunger are integrally molded with each other,
The nasal cavity administration container according to any one of claims 1 to 5. The lock member and the plunger are molded separately from each other.
The nasal cavity administration container according to any one of claims 1 to 6.

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