JPWO2014123140A1 - Eye drops container - Google Patents

Abstract

The ophthalmic container includes a liquid reservoir for storing ophthalmic solution, a pouring nozzle that is provided so as to protrude above the liquid reservoir, and that drops the ophthalmic solution, and is provided on a distal end side of the pouring nozzle. A needle portion.

Description

The present invention relates to an eye drop container used for dropping a small amount of eye drop.
This application claims priority in February 08, 2013 based on Japanese Patent Application No. 2013-023875 for which it applied to Japan, and uses the content for it here.

In general, ophthalmic solutions such as eye drops have various usage purposes such as, for example, exerting a medicinal effect of removing itching and hyperemia of the eyes and a relaxing effect that also eliminates dry eyes and tired eyes. ing. The user drops a sufficient amount of ophthalmic solution that overflows from the eye or adheres to the eye around the eye according to the efficacy and preference within the range of usage specified for each purpose of use. The ophthalmic solution is used in various forms such as dropping while taking care not to do so.
As the eye drop container, a container designed so that the amount of one drop is 40 to 50 μL is widely used so that the eye drop can be stably dropped onto the eye. However, the volume of the conjunctival sac on the eyeball surface is about 30 μL. Of the capacity of the conjunctival sac, it is estimated that 5 to 10 μL of tear fluid is present. Therefore, the stagnation capacity of the ophthalmic solution on the surface of the eyeball is about 20 to 25 μL. If the eye drop exceeding the storable capacity is dropped onto the eye, the eye drop may overflow from the eye and adhere to the periphery of the eye.
Therefore, the ophthalmic solution overflowing from the eye may cause makeup collapse. Therefore, there is a demand for an eye drop container capable of instilling in an amount that can surely fit in the eye in a smaller amount than conventional eye drops.
In view of this, conventionally, as an eye drop container for dripping a small amount of eye drops into the eye, a container for reducing the drop amount of one drop as much as possible has been developed (for example, see Patent Document 1 below).
Patent Document 1 below discloses a chemical solution container that is particularly preferable for eye drops. In this chemical solution container, a water-repellent substance is applied to the nozzle tip sealing portion inside the cap. The water-repellent substance is transferred to the nozzle tip side by the cap closing operation. As a result, water repellency is imparted to the tip of the nozzle, making it possible to reduce the amount of liquid dripping and control the amount of one drop.

Japanese Unexamined Patent Publication No. 2011-105339

  By the way, in the chemical solution container of Patent Document 1 in which a water-repellent substance is transferred to the tip of the nozzle, there is a possibility that the water-repellent substance is mixed in the ophthalmic solution discharged from the nozzle tip at the time of instillation. In particular, when a small amount of ophthalmic solution is instilled, there is a possibility that the water repellent substance is mixed with the ophthalmic solution to affect safety and sensory characteristics. Therefore, there is room for improvement in applying the technique described in Patent Document 1 to an eye drop container for the purpose of dropping a small amount.

The present invention has been made in view of the above circumstances, and without using a water-repellent substance, the amount of eyedrops discharged from a nozzle is about 5 μL to 25 μL, which is smaller than that of conventional eyedrop containers. It is an object of the present invention to provide an ophthalmic container that can be easily operated by many users.

The present invention employs the following means in order to solve the above problems and achieve the object.
(1) An ophthalmic container according to an aspect of the present invention includes a liquid reservoir that stores ophthalmic solution, a dispensing nozzle that is provided so as to protrude above the liquid reservoir and that drops the ophthalmic solution, and And a needle portion provided on the tip side of the dispensing nozzle.
According to the said aspect, since an ophthalmic solution is dripped from a needle part, a small amount of eyedrops can be dripped.

(2) In the eye drop container described in the above (1), the outer diameter of the needle part may be 0.5 mm or more and 2.5 mm or less.
According to this, the amount per one drop (hereinafter referred to as the dropping amount) of the eye drop discharged from the needle part can be reduced. Specifically, the drop amount of the ophthalmic solution can be set to 5 μL to 25 μL, which corresponds to approximately half or less of the drop amount of the conventional eye drop container.

(3) In the eye drop container described in (1) or (2) above, the axial length of the needle part is set to be 1 to 5 times the outer diameter of the needle part. It may be.
According to this, even if an ophthalmic solution is dropped from the needle portion in a state where the needle portion is tilted, the dropping amount can be 5 μL to 25 μL, which is smaller than that of a conventional eye drop container. Further, before the ophthalmic solution hangs down to the proximal end side of the needle portion, an amount of the ophthalmic solution set according to the outer diameter of the needle portion tip can be dropped from the needle portion tip. Specifically, when the tip of the needle part is directed downward (or directed to the eye), the inclination angle between the axis of the needle part and the vertical direction is in the range of 0 ° to 80 °, more preferably If the posture of the ophthalmic container is maintained so as to be included in the range of 0 ° to 45 °, the amount of the ophthalmic solution dropped can be set to 5 μL to 25 μL. Furthermore, this inclination angle is also effective in that the ophthalmic solution is less likely to drip on the proximal end side of the needle portion.

(4) The eye drop container according to any one of the above (1) to (3) is disposed at an outer peripheral position with a gap in a radial direction of the needle portion from the outer peripheral surface of the needle portion. There may be further provided an outer wall portion provided so as to stand up in the protruding direction.
According to this, since the needle part is surrounded by the outer wall part, the user can confirm that the tip of the needle part is difficult to directly contact the eye. Therefore, the user can use the eye drop container with peace of mind, and the needle portion can also be prevented from coming into contact with the user's eyes or hands.

(5) In the ophthalmic container described in (4) above, the outer wall portion may be continuous with a part or the entire periphery of the outer peripheral position, or may be cut out or spaced apart from a part of the entire periphery. It may be provided and surround the needle part.
According to this, since an outer wall part is provided so that a needle part may be surrounded, it can avoid that a user's hand etc. contact a needle part. Moreover, since the needle part is surrounded by the outer wall part, the user can visually recognize that the needle part is difficult to contact the eye. In addition, when the outer wall portion is notched at a part of the outer peripheral position of the needle portion, or is provided in plural or a part of the outer peripheral position with an interval in the outer peripheral position, Even when the ophthalmic solution adheres and flows to the proximal end side of the needle portion, the ophthalmic solution can be discharged from the edge of the outer wall portion provided at a part of the outer peripheral position or between the outer wall portions. .

(6) In the eye drop container described in the above (4) or (5), the outer wall portion may be provided in the dispensing nozzle.
According to this, an outer wall part can be provided, without increasing the number of parts of the container for eye drops.

(7) In the eye drop container described in the above (4) or (5), the outer wall portion may be provided in the liquid reservoir. The outer wall portion can be provided in parallel so as to rise in the protruding direction of the needle portion from the outer peripheral surface of the needle portion at an outer peripheral position with a gap in the radial direction of the needle portion.
According to this, the outer wall portion can be easily and as large as possible. Further, since the outer wall portion is erected on the liquid reservoir, the degree of freedom of the installation position and the installation interval of the outer wall portion is increased. In addition, the visibility of the nozzle at the time of instillation is further improved, and user operability is improved.

(8) The eye drop container according to any one of (4) to (6) may further include a shoulder part fixed to the liquid reservoir, wherein the shoulder part is the liquid reservoir. A peripheral wall portion that is erected above the container and accommodates the dispensing nozzle; and a top wall portion that projects the needle portion and covers an upper end of the peripheral wall portion, and the outer wall portion includes the shoulder part. May be erected.
According to this, since the outer wall portion is formed on the top wall portion that is formed to be larger than the pouring nozzle, the degree of freedom in setting the installation position, size, and distance from the needle portion of the outer wall portion is increased.

(9) The container for eye drops according to any one of (1) to (8) is provided on a mouth-and-neck portion provided in the liquid reservoir, and on a proximal end side of the dispensing nozzle, An inner plug portion inserted into the mouth-and-neck portion may be further provided, and the needle portion may be different in color from the inner plug portion.
According to this, it becomes easy to visually recognize the position of the needle part in the dispensing nozzle, that is, the position where the ophthalmic solution is dropped.

(10) In the eye drop container described in any one of (4) to (8) above, the needle portion may be different in color from the outer wall portion.
According to this, the visibility of the position of the needle part (dropping position of the ophthalmic solution) with respect to the outer wall part or the shoulder part is further improved.

(11) In the eye drop container described in any one of (1) to (10), the needle part may be formed of a material that can be elastically deformed.
According to this, even if a needle part contacts an external thing, since a needle part elastically deforms, damage to a needle part can be avoided.

  According to the above aspect, the needle portion is provided on the tip side of the dispensing nozzle, and the eyedrops are dropped from the needle portion, so that a small amount of eyedrops can be dropped, It is possible to prevent the liquid from getting wet or overflowing.

It is sectional drawing (sectional drawing which looked at FIG. 1C at the X1-X1 line | wire) of the eye drop container which concerns on 1st Embodiment of this invention. It is a front view of the container for eye drops concerning a 1st embodiment of the present invention. It is a side view of the container for eye drops concerning a 1st embodiment of the present invention. It is a principal part expanded sectional view (cross-sectional view which looked at FIG. 2B by the X2-X2 line) of the eye drop container which concerns on 2nd Embodiment of this invention. It is a principal part enlarged plan view of the container for eyedrops concerning 2nd Embodiment of this invention. It is a principal part enlarged front view of the container for eyedrops concerning 2nd Embodiment of this invention. It is a principal part enlarged side view of the container for eyedrops concerning 2nd Embodiment of this invention. It is a principal part expanded sectional view (cross-sectional view which looked at FIG. 3C by the X3-X3 line | wire) of the eyedrops container which concerns on 3rd Embodiment of this invention. It is a principal part enlarged front view of the container for eye drops which concerns on 3rd Embodiment of this invention. It is a principal part enlarged side view of the container for eyedrops concerning 3rd Embodiment of this invention. It is a principal part expanded sectional view (cross-sectional view which looked at FIG. 4C by the X4-X4 line | wire) of the eye drop container (eye drop container in the state where the cap was removed) which concerns on the 4th Embodiment of this invention. It is a principal part enlarged front view of the container for eyedrops (eyedrop container in the state where the cap was removed) which concerns on 4th Embodiment of this invention. It is a principal part enlarged side view of the container for eyedrops (eyedrop container in the state where the cap was removed) which concerns on 4th Embodiment of this invention. It is a principal part expanded sectional view (lateral cross-sectional view) of the eye drop container (eye drop container in the state with which the cap was mounted | worn) which concerns on 4th Embodiment of this invention. It is a principal part expanded sectional view (longitudinal sectional view) of the eye drop container (eye drop container with the cap attached) according to the fourth embodiment of the present invention. It is sectional drawing (sectional drawing which looked at FIG. 6C at the X1-X1 line | wire) of the modification of the container for eyedrops concerning 1st Embodiment of this invention. It is a front view of the modification of the container for eyedrops concerning 1st Embodiment of this invention. It is a side view of the modification of the container for eyedrops concerning 1st Embodiment of this invention.

Hereinafter, an eye drop container according to each embodiment of the present invention will be described with reference to the drawings.

(First embodiment)
First, a first embodiment of the present invention will be described. FIG. 1A is a cross-sectional view (cross-sectional view of FIG. 1C taken along the line X1-X1) of the eye drop container 1A according to the first embodiment of the present invention. FIG. 1B is a front view of the eye drop container 1A. FIG. 1C is a side view of the eye drop container 1A. As shown in FIGS. 1A to 1C, in the eye drop container 1 </ b> A, a liquid reservoir (also referred to as a container main body) 2 is provided with a dispensing nozzle 6 </ b> A. 1A to 1C show a state where the cap 3 is attached to the liquid reservoir 2 (a state where the liquid reservoir 2 is closed).
The liquid reservoir 2 includes a storage unit (also referred to as a liquid storage unit) 4 that stores ophthalmic solution therein, and a mouth-and-neck unit 5 that protrudes in a cylindrical shape upward from the upper end of the storage unit 4.

As shown in FIG. 1A, the storage portion 4 includes a lower wall portion 7, a side wall portion 8 that rises in a cylindrical shape from the periphery of the lower wall portion 7, and an opening portion 9 a that communicates the upper end of the side wall portion 8 with the mouth neck portion 5. And an upper wall portion 9 that is closed to leave a gap. The storage unit 4 forms a space S1 for storing ophthalmic solution therein. As shown in FIGS. 1B and 1C, the side wall portion 8 is formed in a flat cylindrical shape and has a pair of flat plate portions 8T and 8T facing each other. The pair of flat plate portions 8T are portions that allow the user to hold the storage portion 4.

As shown in FIG. 1A, the mouth-and-neck portion 5 rises in a cylindrical shape from the periphery of the opening 9 a formed in the upper wall portion 9. The inner hole 5a of the mouth / neck portion 5 communicates with the space S1 in the storage portion 4. The upper end of the mouth / neck portion 5 is open.
As shown in FIGS. 1A to 1C, a protrusion 10 extending in the circumferential direction is formed at a position facing each other at a lower portion of the outer peripheral surface 5 p of the mouth and neck portion 5. The protrusion 10 is a locked portion that locks a cap 3 described later.

The reservoir 4 accommodates eye drops (eye drops) therein. The eye drop container 1A can also be applied to a highly viscous eye drop.

As shown in FIG. 1A, the dispensing nozzle 6A is a cylindrical member having a substantially circular cross section in which an ophthalmic solution dispensing passage 11 penetrating in one direction is formed. The pouring nozzle 6A is formed in an inner plug portion 12 to be inserted into the mouth and neck portion 5 and an upper end of the inner plug portion 12 that is formed in an annular shape so as to engage with the upper end surface of the mouth and neck portion 5. The protruding wall portion 13 and the needle portion 14 that protrudes upward from the center of the plate surface of the overhanging wall portion 13 and drops the ophthalmic solution in the storage portion 4 (that is, discharges the ophthalmic solution to the outside) are provided. The dispensing nozzle 6A is obtained by integrally molding the inner plug portion 12, the overhanging wall portion 13, and the needle portion.

The outer diameter of the inner plug portion 12 is substantially the same as the inner diameter of the mouth and neck portion 5. The outer wall surface of the inner plug portion 12 is in close contact with the inner wall surface of the mouth and neck portion 5.
As shown in FIGS. 1B and 1C, the diameter of the overhanging wall portion 13 is substantially the same as the outer diameter of the mouth-and-neck portion 5. The lower surface 13 b of the overhanging wall portion 13 is in close contact with the upper end surface 19 of the mouth and neck portion 5.
The overhanging wall portion 13 is formed with a needle portion 14 that protrudes upward in the vertical direction from the center of the upper surface in plan view.

Although the outer diameter of the needle part 14 is not specifically limited, In this embodiment, it is set in the range of 0.5 mm-2.5 mm. The shape of the needle portion 14 may be a substantially cylindrical shape, but is formed in a slightly tapered shape in consideration of giving the needle portion 14 strength.
Moreover, although the length dimension of the axial direction of the needle part 14 is not specifically limited, In this embodiment, it is set in the range of 3 mm-10 mm. The length of the needle portion 14 in the axial direction is preferably set to be 1 to 5 times the outer diameter of the needle portion 14, and particularly 2.5 to the outer diameter of the needle portion 14. It is more preferable that the ratio is set to be 4 to 4 times.
The upper end surface 14a at the tip of the needle portion 14 is formed to be a substantially flat surface or curved.

As shown in FIG. 1A, the extraction path 11 of the extraction nozzle 6 </ b> A is formed so as to penetrate from the inner plug portion 12 to the needle portion 14 along the central axis L thereof. Further, the pouring path 11 is formed in a large diameter in the inner plug portion 12 and is formed in a taper shape so that the diameter gradually decreases from the protruding wall portion 13 toward the tip of the needle portion 14. From the viewpoint of the molding method, the inner diameter of the extraction channel 11 is set in the range of 0.15 mm to 2 mm in the needle portion 14. The shape of the extraction channel 11 in the needle portion 14 is formed to be slightly reversely tapered.
However, the surface tension of the material of the nozzle member itself and the specific gravity, viscosity, and surface tension of the eye drops contained in the container can take various values. Therefore, in order to adjust the amount of one droplet discharged from the needle portion 14 to about 5 μL to 25 μL, which is a smaller amount than the conventional eye drop container, and to stably discharge such a small amount of droplet from the needle portion 14. For this reason, it is desirable that the area of contact between the dispensing channel 11 near the dropping port and the ophthalmic solution is as small as possible. Specifically, it is more preferable that the inner diameter of the extraction channel 11 near the dropping port is constant.

The cap 3 includes a top plate portion 21, a side plate portion 22 that is formed in a flat cylindrical shape that hangs down from the periphery of the top plate portion 21 and opens downward, and the top plate portion 21 inside the side plate portion 22. A holding wall portion 23 formed so as to hang down from the opposite sides and a fitting wall 27 that protrudes downward from the center of the plate surface of the top plate portion 21 and into which the needle portion 14 is fitted. The closure part 24 provided with.
The gripping wall portion 23 is formed in a circular arc shape with a flat plate aligned with the outer peripheral surface of the mouth neck portion 5. At the lower part of the inner side surface of the gripping wall portion 23, a groove-like locking portion 25 that is locked to the locked portion made of the protrusion 10 of the mouth and neck portion 5 is formed.

Each structure shown above is mutually related as follows. In a state where the cap 3 is attached to the liquid reservoir 2, the locking portion 25 provided on the gripping wall portion 23 is locked to the locked portion including the protrusion 10. In the above state, the mouth-and-neck part 5 is gripped by the gripping wall part 23. Further, the tip end of the needle portion 14 is inserted into the insertion hole 27 of the plugging portion 24, and the inner peripheral surface of the insertion hole 27 comes into liquid-tight contact with the tip end of the needle portion 14. Thus, in the state where the cap 3 is attached to the liquid reservoir 2, the opening of the dispensing nozzle 6A is sealed in a liquid-tight manner.

In the above configuration, the liquid reservoir 2 is made of a synthetic resin material such as a polyester resin, a polyolefin resin, or a polystyrene resin. In particular, it is preferable to use polyethylene terephthalate, polypropylene, polyethylene or the like as the material of the liquid reservoir 2 from the viewpoint of ease of handling. Moreover, it is preferable from the viewpoint of easy handling that polyethylene, polybutylene terephthalate, or the like is used as the material of the pouring nozzle 6A.

In addition, the needle part 14 may be formed with resin which has the softness | flexibility which can be elastically deformed. The flexible material that can be elastically deformed is not particularly limited as long as it is a material having elasticity and flexibility, but preferably has moldability, chemical resistance, and heat resistance and does not cause odor. Moreover, you may provide antibacterial activity to the needle part 14 as needed. Furthermore, in consideration of safety, a material that conforms to the 2011 Ministry of Health, Labor and Welfare Notification No. 65, the 16th revised Japanese Pharmacopoeia general test method is preferable as the material of the needle portion 14.

Specifically, the material of the needle part 14 includes thermoplastic resin, silicone resin, thermoplastic elastomer, natural rubber, urethane rubber, or the like. The needle portion 14 may be formed by combining these materials. Specifically, as a material of the needle part 14, for example, Tuftec (registered trademark) series H1052, manufactured by Asahi Kasei Co., Ltd., H1053, Septon (registered trademark) series CJ001, CJ002, CJ101, or CJ102 manufactured by Kuraray Co., Ltd. may be mentioned. In addition, examples of the material of the needle portion 14 include a Rheostomer series manufactured by Riken Techno Co., and a Sarlink (registered trademark) series 3140, 3160, 4155, and 4165 (olefin type) manufactured by Toyobo Co., Ltd.

The hardness of the needle part 14 is preferably 50 to 80 as measured by JIS K6253 (durometer type A). The tensile strength and elongation of the needle portion 14 is preferably 5 to 20 MPa as measured by JIS K6253 (No. 3 dumbbell tensile speed 500 mm / min), and the 300% tensile stress of the needle portion 14 is about 1.5 to 5 MPa. It is preferable to be in the range.

In addition, when the needle portion 14 is formed of a flexible resin that can be elastically deformed, as shown in FIGS. 6A to 6C, the base end portion 15 of the needle portion 14 is formed with a large diameter. A configuration in which the closing portion 24 of the cap 3 is in close contact with the peripheral surface of the needle portion 14 and the proximal end portion 15 may be employed.
By forming the needle part 14 and the capping part 24 of the cap 3 in this way, even if the needle part 14 is formed of a flexible material, the dispensing nozzle 6A is clogged in a liquid-tight manner at the tip part of the capping part 24. can do.

In consideration of user portability, a more compact container structure is required as the structure of the eye drop container 1A. Therefore, specifically, the capacity of the liquid reservoir 2 in the present embodiment is preferably 30 mL or less, and more preferably 5 to 20 mL. Furthermore, the capacity of the liquid reservoir 2 is most preferably 5 to 10 mL.

Next, a method of using the eye drop container 1A having the above-described configuration, and an operation and a function when instilled with the eye drop container 1A will be described.
As shown in FIGS. 1B and 1C, the cap 3 is removed from the liquid reservoir 2 when the eye drop container 1 </ b> A is used by the user. Then, in a state where the flat plate portions 8T and 8T of the side wall portion 8 of the liquid reservoir 2 are gripped by the user, the tip of the dispensing nozzle 6A is directed to the user's eye located below. As a result, the ophthalmic solution in the reservoir 4 flows into the mouth-and-neck portion 5 and enters the extraction channel 11 of the extraction nozzle 6A shown in FIG. 1A. The extraction channel 11 is formed to have a large diameter at the inner plug portion 12, but has a reduced diameter at the overhanging wall portion 13, and is further formed to be extremely thin at the needle portion 14. Accordingly, the ophthalmic solution is dispensed in small amounts from the needle portion 14 without being dispensed in large quantities from the needle portion 14 of the dispensing nozzle 6A at a time.

And while the outer diameter of the needle part 14 is set to the range of 0.5 mm-2.5 mm, the length dimension of the axis L direction of the needle part 14 is set to the range of 3 mm-10 mm. Therefore, when the tip of the needle portion 14 is slightly downward, the inclination angle between the central axis L of the dispensing nozzle 6A and the vertical direction is 0 ° to 80 ° (preferably 0 ° to 45 °). If it is a range, before an ophthalmic solution drips in the base end part direction of the needle part 14, a droplet of 5-25 microliters per drop can be dripped at an eye.

As described above, according to the eye drop container 1A, when the tip of the needle portion 14 is tilted downward, the eye drop drops when it reaches 5 μL to 25 μL. Therefore, the ophthalmic solution can be dropped within a suitable amount range that does not overflow from the user's eyes, for example. In addition, since the periphery of the eyes is difficult to get wet with the ophthalmic solution, it is possible to prevent the user from feeling uncomfortable. Further, according to the eye drop container 1A, it is possible to prevent the makeup from collapsing around the eyes. Therefore, according to the eye drop container 1 </ b> A, it is possible to avoid an inconvenience that can occur when the amount of the ophthalmic solution dropped is larger than a predetermined amount.

Further, the length of the needle portion 14 in the direction of the axis L is set in a range of 3 mm to 10 mm, and the inner diameter of the needle portion 14 is set in a range of 0.15 mm to 2 mm. In particular, when the inner diameter of the needle portion 14 is in the range of 0.15 to 1 mm, the ophthalmic solution can flow only in small amounts, and it is difficult for the ophthalmic solution of a predetermined amount or more to be rapidly poured out. In addition, if the inner diameter of the needle portion 14 is in the range of 1 mm to 2 mm, it is possible to add an orifice structure, and it is also possible to effectively prevent the ophthalmic solution over a predetermined amount from being inadvertently dispensed. can do. Therefore, it is possible to prevent the ophthalmic solution from adhering to the needle portion 14 as much as possible, and a small amount of the ophthalmic solution adhering to the peripheral surface of the needle portion 14 can be easily dried. Can be prevented from being deposited at the needle portion 14.

In addition, when the ophthalmic solution is put into the liquid reservoir 2, it is necessary to sterilize the entire eye drop container 1A. The sterilization treatment is generally performed by electron beam, gas (ethylene oxide, hydrogen peroxide, etc.), ozone, and heat. However, depending on the sterilization conditions, the surface tension of the material used as the ophthalmic solution dispensing path 11 including the reservoir 4 and the needle 14 may change, and the wettability of the liquid may change. As a result, the dropability of the ophthalmic solution is affected, and the amount of one drop may change. Therefore, it is necessary to appropriately examine the sterilization conditions. In particular, this phenomenon tends to appear in sterilization using an electron beam. Therefore, in the present invention, it is desirable to select a method other than the electron beam as the sterilization treatment of the eye drop container 1A.

Next, second to fourth embodiments of the present invention will be described with reference to FIGS. 2A to 5B. As shown in the drawings, the ophthalmic containers 1B to 1D according to the second to fourth embodiments respectively have a part or the entire circumference of the needle part 14 at an outer peripheral position with a gap from the outer peripheral surface 14p of the needle part 14. Outer wall portions 30B to 30D are provided so as to surround.
Hereinafter, for the eye drops containers 1B to 1D of the respective embodiments, the same configurations as those of the above-described first embodiment and the respective embodiments described later are denoted by the same reference numerals, and the description thereof is omitted. Alternatively, only differences from the other embodiments will be described.

(Second Embodiment)
FIG. 2A is an enlarged cross-sectional view of a main part of an eye drop container 1B according to a second embodiment of the present invention (transverse cross-sectional view taken along the line X2-X2 in FIG. 2B). FIG. 2B is an enlarged plan view of a main part of the eye drop container 1B. FIG. 2C is an enlarged front view of a main part of the eye drop container 1B. FIG. 2D is an enlarged side view of a main part of the eye drop container 1B.
As shown in FIGS. 2A to 2D, the pouring nozzle 6 </ b> B of the eye drop container 1 </ b> B according to the second embodiment has a smaller diameter than the projecting wall portion 13 on the upper surface 13 a of the projecting wall portion 13 that is circular in plan view. The peripheral wall part 32 which stands | starts up cyclically | annularly, and the upper wall part 33 which covers the upper end of the peripheral wall part 32 are provided. The needle portion 14 protrudes from the center of the plate surface of the upper wall portion 33, and the outer wall portion 30B is erected in parallel with the protruding direction of the needle portion 14 along the outer edge of the upper wall portion 33 of the dispensing nozzle 6B. Has been.
The inner hole of the needle portion 14 communicates with the space S <b> 2 surrounded by the peripheral wall portion 32 and the upper wall portion 33, and forms the extraction path 11.

The outer wall portion 30 </ b> B is annularly arranged along the outer edge of the upper wall portion 33 with an interval from the outer peripheral surface 14 p of the needle portion 14. A notch 34 is provided between the adjacent outer wall portions 30B.
The height dimension of the outer wall portion 30 </ b> B is set to be equal to or slightly higher than the projecting dimension of the needle portion 14 from the upper wall portion 33.

The needle portion 14 is configured to be conspicuous with respect to the upper wall portion 33 and the outer wall portion 30B in a color different from that of the upper wall portion 33 and the outer wall portion 30B.
In a state in which the cap 3 is mounted on the upper part of the liquid reservoir 2, the cap portion 24 of the cap 3 is located inside the outer wall portion 30 </ b> B, and the needle portion 14 protruding from the upper wall portion 33 on the inner wall surface of the fitting hole 27. The needle portion 14 is inserted into the insertion hole 27 so that the entirety thereof is in close contact. Thus, in a state where the cap 3 is attached to the liquid reservoir 2, substantially the entire needle portion 14 is liquid-tightly covered with the plugging portion 24.

As described above, the eye drop container 1 </ b> B has the three outer wall portions 30 </ b> B, 30 </ b> B, 30 </ b> B having a height equal to or higher than the needle portion 14 at the outer peripheral position of the needle portion 14. Thereby, it can prevent that an eye, a hand, or another thing contacts the needle part 14 carelessly. As a result, the needle part 14 can be held in a sanitary manner, and the effect that the needle part 14 can be prevented from being damaged is obtained.

Moreover, since the needle part 14 is covered with the outer wall part 30B, the user can confirm that the needle part 14 is difficult to contact an eye directly. Therefore, when the user drops the ophthalmic solution onto the eye with the needle portion 14 facing downward, even if the tip of the needle portion 14 protrudes toward the eye, an effect can be obtained that can be instilled without anxiety.

Further, in the eye drop container 1B, the needle portion 14 is configured in a color different from that of the upper wall portion 33 and the outer wall portion 30B. For this reason, when the user drops the ophthalmic solution from the needle unit 14 toward the eye using the eye drop container 1B, an effect that it is easy to determine the position where the ophthalmic solution is dropped is obtained.

Further, when the cap 3 is attached, the outer peripheral surface 14p of the needle portion 14 is covered with the plugging portion 24, and the needle portion 14 is plugged. For this reason, even when ophthalmic solution adheres to the outer peripheral surface 14p of the needle portion 14 during instillation, the inner wall surface of the capping portion 24 is in contact with the outer peripheral surface 14p of the needle portion 14 when the cap 3 is attached. By moving toward the end side, the ophthalmic solution adhering to the outer peripheral surface 14 p of the needle portion 14 can be pushed away toward the proximal end side of the needle portion 14. Then, after the plug portion 24 comes into contact with the upper wall portion 33, the ophthalmic solution can be efficiently discharged from the notch portion 34 between the outer wall portions 30 </ b> B and 30 </ b> B to the outer periphery of the upper wall portion 33.

Therefore, according to the eye drop container 1B, it is possible to prevent the eye drop from staying in the outer wall portion 30B on the upper wall portion 33. As a result, when the user again instills using the eye drop container 1B, the ophthalmic solution adhering to the outer peripheral surface 14p of the needle portion 14 at the previous instillation is applied to the tip of the needle portion 14 along the outer peripheral surface 14p. The amount of ophthalmic solution dropped on the eye is prevented from flowing due to being added to the ophthalmic solution dropped from the needle portion 14 through the extraction channel 11 (see FIG. 1A). The effect that it can do is acquired.
Further, since the outer wall portion 30B is provided integrally with the dispensing nozzle 6B, the outer wall portion 30B can be provided without increasing the number of parts of the eye drop container 1B.

(Third embodiment)
Next, a third embodiment of the present invention will be described with reference to FIGS. 3A to 3C.
FIG. 3A is an enlarged cross-sectional view of a main part of an eye drop container 1C according to a third embodiment of the present invention (that is, a cross-sectional view taken along the line X3-X3 in FIG. 3C). FIG. 3B is an enlarged front view of a main part of the eye drop container 1C. FIG. 3C is an enlarged side view of a main part of the eye drop container 1C.
As shown in FIGS. 3A to 3C, in the eye drop container 1 </ b> C according to the third embodiment, the outer wall portion 30 </ b> C is continuous from the outer peripheral surface 14 p of the needle portion 14 along the outer edge of the upper wall portion 33. It has stood up so as to be a semi-circular shape. Specifically, the outer wall 30C is provided in substantially half of the outer edge of the upper wall 33 with the center line between the pair of flat plates 8T and 8T as a boundary, and the outer wall is provided in the other half of the outer edge of the upper wall 33. The part 30C is not provided. Thus, the portion where the outer wall portion 30 </ b> C is not provided constitutes an outlet for the ophthalmic solution staying on the upper wall portion 33.
The height dimension of the outer wall portion 30 </ b> C is set to be greater than or equal to the projecting dimension of the needle portion 14 from the upper wall portion 33.

With the above-described configuration, the same operation and effect as the dispensing nozzle 6B of the second embodiment can be obtained, and the ophthalmic solution outlet that has flowed down on the upper wall portion 33 is provided with a large outlet, so that it is more efficient. In addition, the ophthalmic solution can be discharged out of the upper wall portion 33. Therefore, according to the eye drop container 1 </ b> C, it is more effective that the ophthalmic solution adhering to the outer peripheral surface 14 p of the needle portion 14 is dripped in addition to the ophthalmic solution dropped from the needle portion 14 through the extraction path 11. The effect that it can prevent automatically is acquired.

Further, when the outer wall portion 30C is viewed in plan, the outer wall portion 30C is formed in a semicircular shape. Therefore, the user unconsciously adjusts the posture of the eye drop container 1C so that the portion where the outer wall portion 30C is not formed faces downward. As a result, the ophthalmic solution dropped from the tip of the needle portion 14 can be suitably dropped on the eye without transmitting the outer wall portion 30C.
Further, since the outer wall portion 30C is provided integrally with the dispensing nozzle 6C, the outer wall portion 30C can be provided without increasing the number of parts of the eye drop container 1C.

In addition, in the said 2nd and 3rd embodiment, although the needle part 14 becomes the structure integrally formed in the upper wall part 33 of the extraction nozzles 6B and 6C, the needle part 14 is the extraction nozzle. It may be configured separately from 6B and 6C.
In the second and third embodiments, the outer wall portions 30B and 30C are formed continuously or intermittently at a part of the outer peripheral position of the needle portion 14, but the outer wall portions 30B and 30C are at the outer peripheral position. It may be formed continuously in an annular shape around the entire circumference. Even in this case, the same effects as the eye drops containers 1A and 1B of the first and second embodiments can be obtained except that the eye drops can be discharged from the outer wall portions 30B and 30C. In addition, the shape which provided the notch in part of the perimeter of needle parts, such as U shape and C shape, may be sufficient.

(Fourth embodiment)
Next, a fourth embodiment of the present invention will be described with reference to FIGS. 4A to 4C and FIGS. 5A and 5B.
FIG. 4A is an enlarged cross-sectional view of a main part of an eye drop container 1D (with a cap removed) according to a fourth embodiment of the present invention (transverse cross-sectional view taken along line X4-X4 in FIG. 4C). . FIG. 4B is an enlarged front view of a main part of the eye drop container 1D (with the cap removed). FIG. 4C is an enlarged side view of the main part of the eye drop container 1D (with the cap removed).
FIG. 5A is an enlarged cross-sectional view (transverse cross-sectional view) of a main part of an eye drop container 1D (with a cap attached). FIG. 5B is an enlarged cross-sectional view (longitudinal cross-sectional view) of the main part of the eye drop container 1D (with the cap attached).
In the eye drop container 1D according to the fourth embodiment, the outer wall portion 30D is formed not on the pouring nozzle 6D but on the shoulder part 35 that is attached and fixed to the upper end portion of the liquid reservoir 2.

As shown in FIGS. 4A and 4B, the shoulder part 35 is formed on the upper part of the liquid reservoir 2 and connected to the upper part of the liquid reservoir 2, and is formed on the upper part of the connecting part 36. Formed in the upper part of the pouring nozzle holding portion 37, the holding wall portion 37 that is held by the mouth neck portion 5 in a state where the mouth neck portion 5 is held, and the pouring nozzle holding portion 37. And an outer wall portion 30D.
The connecting portion 36 is connected to the side wall portion 8 of the storage portion 4 and is erected so as to completely cover the upper end portion of the storage portion 4.

The dispensing nozzle holding portion 37 includes a peripheral wall portion 37b that rises from the upper end of the connecting portion 36 so as to enclose the mouth-and-neck portion 5, and a flat top wall portion 37a that covers the upper end of the peripheral wall portion 37b. The needle portion 14 protrudes from the top wall portion 37a.
As shown in FIG. 4C, the peripheral wall portion 37b has a pair of flat wall portions 37T and 37T connected to the flat plate portions 8T and 8T of the storage portion 4 that face each other. The dimension in the width direction of the flat wall portion 37T of the dispensing nozzle holding portion 37 is gradually reduced upward when the flat wall portion 37T is viewed from the front as shown in FIG. 4B. That is, the wall portion 37T has a shape narrowed upward.

The outer wall portion 30 </ b> D is formed on an extended surface of the flat wall portion 37 </ b> T of the dispensing nozzle holding portion 37. This outer wall portion 30 </ b> D is provided at each of both ends of the storage portion 4 in the thickness direction. Each outer wall portion 30D is provided such that the dimension between the pair of outer wall portions 30D and 30D (that is, the distance in the thickness direction of the storage portion 4) is maximized.
As shown in FIGS. 4A to 4C, when the eye drop container 1 </ b> D is viewed from the front, the width dimension of each outer wall portion 30 </ b> D gradually decreases as it goes upward. The top 40 of each outer wall 30D is formed in a smoothly curved arch shape. Moreover, the edge 40a of each outer wall part 30D is processed so that it may become a smooth round shape.
As shown in FIGS. 4A and 5B, a protrusion 41 is formed in the horizontal direction at the lower part of the inner wall surfaces of the outer wall portion 30D facing each other.
Thus, the pair of outer wall portions 30D are formed so as to face each other. When the pair of outer wall portions 30D is viewed from the direction between the outer wall portions 30D and 30D, each of the pair of outer wall portions 30D has a width and a height dimension in which the needle portion 14 is completely hidden. Arranged between them.

As shown in FIG. 5A, the gripping wall portion 38 formed inside the shoulder part 35 is formed so as to hang from the lower surface of the top wall portion 37a so as to sandwich the outer peripheral surface of the mouth-and-neck portion 5 from a direction facing each other. ing. A groove 39 is formed in the inner wall surface of the gripping wall portion 38 in the circumferential direction so that the gripping wall portion 38 can be firmly fixed to the mouth-and-neck portion 5 by being fitted to the protrusion 10 of the mouth-and-neck portion 5. .

The inner plug portion 12 of the dispensing nozzle 6D is formed in a cylindrical shape, and the outer diameter of the inner plug portion 12 is set to be substantially the same as the inner diameter of the mouth and neck portion 5. A second overhanging wall portion 26 is formed above the overhanging wall portion 13, and the needle portion 14 is formed in the center of the upper surface of the second overhanging wall portion 26.
The pouring nozzle 6 </ b> D is fixed to the mouth / neck portion 5 with a portion below the second overhanging wall portion 26 being fixed inside the shoulder part 35.

According to the eye drop container 1D having the above-described configuration, when the liquid reservoir 2 is tilted by the user so that the outer wall portion 30D and the upper edge portion and the lower edge portion are parallel to each other at the time of instillation, Even if the dispensing nozzle 6D is brought close to the eye, the outer wall portion 30D first contacts the periphery of the eye, so that the tip of the needle portion 14 does not directly contact the eye. That is, according to the eye drop container 1D, the needle part 14 can be kept in a hygienic and good state, and the user's anxiety that the needle 14 is in contact with the eye can be eliminated.
Further, the cap 3 has a side plate portion 22 formed so as to be substantially flush with the connecting portion 36 of the shoulder part 35, and the upper end of the side plate portion 22 in the same manner as the cap 3 of the first embodiment shown in FIG. 1A. The top plate part 21 to cover and the capping part 24 formed in the center of the lower surface of the top plate part 21 are provided. As shown in FIG. 5B, the flat plate portion of the side plate portion 22 is formed with a fitting recess 43 that is formed in accordance with the shape of the outer wall portion 30D so as to fit the outer wall portion 30D.
A ridge 42 is formed in the horizontal direction on the surface of the wall 44 that faces the outer wall 30D and that forms the fitting recess 43, on the side facing the outer wall 30D.

In the above configuration, when the cap 3 is attached to the shoulder part 35, the ridge 42 formed in the fitting recess 43 of the cap 3 abuts on the ridge 41 formed on the inner wall surface of the outer wall portion 30D, Further, when the ridge 41 is overcome, a click sound is generated. The cap 3 is locked to the shoulder part 35 at a height position on the proximal end side of the needle portion 14.

In the eye drop container 1D, the outer wall portion 30D is not formed on the overhanging wall portion 13 of the pouring nozzle 6D, but is attached to the liquid reservoir 2 as shown in FIG. It is formed in a shoulder part 35 having a portion 37a. Therefore, the dimension M between the outer wall part 30D and the needle part 14 can be set to be as large as possible in accordance with the dimension between the flat plate parts 8T, 8T of the storage part 4 facing each other.

Further, in the eye drop container 1D, a pair of flat outer wall portions 30D are formed on the shoulder part 35 with the needle portion 14 interposed therebetween. Accordingly, when the ophthalmic solution drips from the tip of the needle portion 14 when the gap between the outer wall portions 30D and 30D penetrating in one direction becomes a flow path, the ophthalmic solution accumulates around the proximal end portion 15 of the needle portion 14. Can be prevented. As a result, as shown by arrows Y1 and Y2 in FIG. 4A, the ophthalmic solution dripping from the tip of the needle portion 14 is discharged to the edge side of the top wall portion 37a of the dispensing nozzle holding portion 37. That is, according to the eye drop container 1D, an effect that the needle portion 14 can be maintained in a hygienic and favorable state is obtained.
In the present embodiment, the pair of outer wall portions 30 </ b> D are provided along the long diameter of the cross section of the storage portion 4. However, the pair of outer wall portions 30D may be formed along the direction perpendicular to the Y1 and Y2 directions shown in FIG. 4C, that is, along the minor axis of the container cross section. Alternatively, the outer wall portion 30D may be formed so as to surround the needle portion 14 in a C shape.
That is, the outer wall 30D may be provided along the major axis, may be provided along the minor axis, or may be other than that. In short, in the present embodiment, it is only necessary that at least the pair of outer wall portions 30 </ b> D are formed at positions facing each other with the needle portion 14 interposed therebetween.
According to this configuration, the user can easily confirm that the needle portion 14 is surrounded by the outer wall portion 30 </ b> D and is difficult to directly contact. In addition, since the pair of outer wall portions 30D are positioned with the needle portion 14 therebetween, it is possible to easily avoid the needle portion 14 from touching the user's eyes or hands. In addition to this, even when the ophthalmic solution adhering to the outer peripheral surface 14p of the needle portion 14 flows to the proximal end side of the needle portion 14, the gap between the outer wall portions 30D and 30D penetrating in one direction. Therefore, the ophthalmic solution that has flowed to the proximal end side of the needle portion 14 can be easily discharged.

Further, the outer wall portion 30 </ b> D can be formed on the pouring nozzle holding portion 37 with an arbitrary size along the flat wall portion 37 </ b> T of the pouring nozzle holding portion 37. Therefore, by forming the outer wall portion 30D to be large, it is possible to effectively prevent the needle portion 14 from coming into contact with an object such as a human hand, maintain the needle portion 14 clean, and prevent damage. The effect of becoming is obtained.

In the second and third embodiments described above, the outer wall portions 30B and 30C are provided in the dispensing nozzles 6B and 6C, respectively. However, in order to efficiently discharge the ophthalmic solution that has flowed to the proximal end side of the needle portion 14, the outer wall portion is preferably provided with the pair of outer wall portions 30D and 30D on the shoulder part 35 as in the fourth embodiment. It is preferable because the distance between 30D and 30D can be set large and the degree of freedom of the extension dimension of the outer wall portion 30D increases.

In the fourth embodiment, the outer wall portion 30D is provided on the shoulder part 35 which is a separate member from the pouring nozzle 6D. However, in order to efficiently discharge the ophthalmic solution that has flowed to the proximal end side of the needle portion 14, the pair of outer wall portions 30 </ b> D and 30 </ b> D are spaced apart from the dispensing nozzle 6 </ b> D by a predetermined distance above the storage portion 4. What is necessary is just to be provided in the place different from the extraction nozzle 6D.
As another specific example, the outer wall portion 30 </ b> D may be erected on the storage portion 4 in a plurality or a part of the outer peripheral position with an interval in the outer peripheral position of the needle portion 14. Alternatively, the outer wall portion 30 </ b> D may be erected on the storage portion 4 so as to surround and bend the needle portion 14 at a position facing the needle portion 14.

As described above, for example, the outer wall portion 30D is provided at an outer peripheral position spaced from the outer peripheral surface 14p of the needle portion 14 in the radial direction of the needle portion 14, particularly at a position facing the needle portion 14 therebetween. In the case of adopting the above-described configuration, it is possible to secure a wide flow path for discharging the ophthalmic solution that has flowed to the proximal end side of the needle portion 14, and to efficiently supply the ophthalmic solution that has flowed to the proximal end side of the needle portion 14. Can be discharged.
Further, in the eye drops containers 1 </ b> B to 1 </ b> D of the above-described second to fourth embodiments, the upper wall portion 33 and the shoulder part 35 may be directly formed integrally with the storage portion 4 of the liquid reservoir 2.

Also in the third and fourth embodiments, the needle portion 14 may be formed in a color different from that of the upper wall portion 33, the ceiling wall portion 37a of the shoulder part 35, or the outer wall portion 30B. Thus, by making the colors different between the needle portion 14 and the surrounding members, when the eyedrop is dropped from the needle portion 14 toward the eye, the user can easily determine the position where the eyedrop is dropped. Thus, the effect of easy instillation can be obtained.

Moreover, the needle part 14 of each embodiment may be formed with the material which can be elastically deformed.
According to this structure, even if the needle part 14 contacts an external thing, such as a hand, since the needle part 14 elastically deforms, the effect that damage to the needle part 14 can be avoided is acquired.

In addition, since this invention solves the subject peculiar to the eye drop of instillation capacity | capacitance conscious of the eye's tolerance and dropping the container to the eye, it is an aspect particularly suitable as an eye drop container. However, if it is used for the same purpose, the reservoir 4 is not limited to eye drops (eye drops) but may contain a liquid composition that is directly applied to the eye, such as a contact lens mounting liquid. Good.
In addition, the structure shown in each embodiment can be implemented in combination as appropriate as long as the functions, functions, and effects of the present invention can be achieved in other embodiments.

DESCRIPTION OF SYMBOLS 1A-1D Ophthalmic container 2 Liquid storage device 4 Storage part 5 Mouth neck part 6A-6D Outlet nozzle 14 Needle part 30A-30D Outer wall part

Claims (11)

A liquid reservoir for storing eye drops;
A dispensing nozzle provided so as to protrude above the liquid reservoir and dropping the ophthalmic solution;
A needle portion provided on the tip side of the dispensing nozzle;
An ophthalmic container comprising: The ophthalmic container according to claim 1, wherein an outer diameter of the needle portion is 0.5 mm or more and 2.5 mm or less. The ophthalmic container according to claim 1 or 2, wherein a length dimension of the needle part in an axial direction is set to 1 to 5 times the outer diameter of the needle part. The outer wall part provided so that it might stand up in the protrusion direction of the said needle part from the outer peripheral surface of the said needle part in the outer peripheral position which separated the gap | interval in the radial direction of this needle part is further provided. The ophthalmic container according to any one of 3 above. A plurality of the outer wall portions are provided continuously around a part or the entire circumference of the outer peripheral position, or a part of the whole circumference is cut out or spaced apart to surround the needle part. The ophthalmic container according to claim 4. The ophthalmic container according to claim 4 or 5, wherein the outer wall portion is provided in the dispensing nozzle. The ophthalmic container according to claim 4 or 5, wherein the outer wall portion is provided in the liquid reservoir. Further comprising shoulder parts fixed to the liquid reservoir,
The shoulder parts are
A peripheral wall portion that is erected above the liquid reservoir and accommodates the dispensing nozzle therein;
A ceiling wall portion that projects the needle portion and covers an upper end of the peripheral wall portion;
With
The ophthalmic container according to any one of claims 4 to 6, wherein the outer wall portion is erected on the shoulder part. An oral neck provided in the liquid reservoir;
An inner plug provided on the proximal end side of the dispensing nozzle and inserted into the mouth and neck;
Further comprising
The ophthalmic container according to any one of claims 1 to 8, wherein the needle portion has a color different from that of the inner stopper portion. The ophthalmic container according to any one of claims 4 to 8, wherein the needle portion has a color different from that of the outer wall portion or the shoulder part. The eye drop container according to any one of claims 1 to 10, wherein the needle part is formed of a material that can be elastically deformed.

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