WO2018151141A1 - Intraocular lens injector - Google Patents

Abstract

The purpose of the present invention is to stably release an intraocular lens into an eye. This injector is provided with a leading end tip (3) having a passage hole (75) that becomes narrower towards the leading end side so that an intraocular lens (7) is released from the leading end side while being folded. The passage hole (75) has a stopper protrusion (71) for blocking the advance of the intraocular lens (7) folded in a mountain folded state by the inner wall of the passage hole (75).

Description

Intraocular lens injector

The present invention relates to an intraocular lens injector provided with a tip for discharging an intraocular lens while folding the intraocular lens into a concave shape by a pushing operation of a plunger.

An intraocular lens injector for inserting an intraocular lens into the eye is known as a conventional technique (Patent Document 1). The intraocular lens injector described in Patent Document 1 includes a lens holder that holds an intraocular lens, a device main body to which the lens holder is attached, a reciprocating insertion in the device main body, and abuts on the intraocular lens. A plunger that pushes out the intraocular lens, and a tip that is connected to the apparatus main body and that releases the intraocular lens while folding the intraocular lens into a concave shape by a pushing operation of the plunger. This tip has a nozzle part in which a passage hole whose inner diameter gradually decreases as it advances forward, and a discharge part from which an intraocular lens that has passed through this passage hole is released.

When the plunger is pushed into the apparatus body, the intraocular lens is folded into a concave shape while passing through a passage hole formed in the nozzle portion. And it arrives at a discharge | release part in the state in which the intraocular lens was folded. The intraocular lens that has reached the emission part is inserted into the eye from the emission port of the emission part.

Japanese Patent Publication (Japanese Patent Laid-Open No. 2014-140711)

In the prior art as described above, the intraocular lens is inserted into the eye from the discharge port of the discharge portion in a state where the intraocular lens is folded in a concave shape along the inner wall of the passage hole in which the inner diameter gradually decreases as it advances forward. Inserted. The intraocular lens can be folded in various forms along the inner wall of the passage hole, and there is room for improvement from the viewpoint of stably inserting the intraocular lens into the eye from the discharge portion.

An object of one embodiment of the present invention is to realize an injector for an intraocular lens that can stably release the intraocular lens into the eye.

In order to solve the above problems, an intraocular lens injector according to one aspect of the present invention is attached to an end surface side of a cylindrical main body, and holds a lens holder that holds an intraocular lens, and the lens holder. A plunger that contacts the formed intraocular lens and pushes out the intraocular lens, and a passage formed so as to narrow toward the distal end side so that the intraocular lens pushed out by the plunger is folded and released from the distal end side A distal end tip having a hole, and the passage hole has a stopper protrusion that prevents the intraocular lens from being advanced in a mountain fold manner by an inner wall of the passage hole that narrows toward the distal end side. To do.

According to one aspect of the present invention, there is an effect that an intraocular lens injector capable of stably releasing an intraocular lens into the eye can be realized.

(A) is a perspective view which shows the whole structure of the injector for intraocular lenses which concerns on embodiment, (b) is a perspective view of the intraocular lens hold | maintained inside the lens holder provided in the said injector for intraocular lenses. FIG. (A) is a top view which shows the principal part of the lens holder provided in the said injector for intraocular lenses, (b) is a perspective view which shows the principal part of the said lens holder, (c) is (a). It is sectional drawing along the cross section GG shown by FIG. It is a top view which shows the front-end | tip chip | tip and lens holder provided in the said injector for intraocular lenses. (A) is a top sectional view for explaining restriction of the plunger by the exit of the main part of an apparatus provided in the above-mentioned intraocular lens injector, and (b) is a perspective view for explaining restriction of the above-mentioned plunger. . (A) is a perspective view for demonstrating the restriction | limiting of the said plunger by the said lens holder, (b) is sectional drawing for demonstrating the restriction | limiting of the said plunger. (A) is a perspective view for demonstrating the other restrictions of the said plunger by the said lens holder, (b) is sectional drawing for demonstrating the other restrictions of the said plunger. (A) is a plan sectional view for explaining the restriction of the plunger by the groove of the passage hole formed in the tip, and (b) to (f) are sectional views from the section AA shown in (a), respectively. It is sectional drawing along EE. (A) is a top sectional view for explaining regulation of the above-mentioned plunger by the width of the above-mentioned passage hole, (b) is a sectional view along section FF shown in (a), (c) is a comparison It is a top sectional view for explaining regulation of the above-mentioned plunger by the width of the passage hole concerning an example. (A) is a top view for demonstrating the guide protrusion provided in the said lens holder, (b) is a top view for demonstrating the lens holder which concerns on a comparative example. It is sectional drawing along the axial direction of the said front-end | tip tip for demonstrating the stopper protrusion provided in the said front-end | tip tip. (A) is sectional drawing along the direction perpendicular | vertical to the axial direction of the said front-end | tip tip for demonstrating the said stopper protrusion, (b) is for demonstrating the protrusion provided in the front-end | tip tip which concerns on a comparative example. It is sectional drawing along the direction perpendicular | vertical to the said axial direction. (A) is a top view which shows the front-end | tip shape of the said plunger, (b) is a side view which shows the front-end | tip shape of the said plunger, (c) is another perspective view which shows the front-end | tip shape of the said plunger. (A) is a top view which shows the front-end | tip shape of the plunger which concerns on a comparative example, (b) is a side view which shows the front-end | tip shape of the said plunger, (c) is another perspective view which shows the front-end | tip shape of the said plunger. It is.

Hereinafter, embodiments of the present invention will be described in detail.

(Overall configuration of the intraocular lens injector 1)
FIG. 1A is a perspective view showing an overall configuration of an intraocular lens injector 1 (hereinafter, simply referred to as an injector 1) according to the embodiment, and FIG. It is a perspective view of the intraocular lens 7 hold | maintained inside the lens holder 4 provided. As shown in FIG. 1, the injector 1 includes a cylindrical device main body 2, a distal tip 3, a lens holder 4 that holds an intraocular lens 7 inside, and a plunger 5. The tip 3 has a nozzle part 32 connected to the apparatus main body 2 and a discharge part 31 provided on the front side of the nozzle part 32. The lens holder 4 can be attached to the apparatus main body 2. The plunger 5 has a rod shape and is configured to be inserted into the apparatus main body 2.

In addition, here, the axial center direction of the plunger 5 is defined as the front-rear direction. Moreover, let the AY direction shown by FIG.2 (c) be an up-down direction, and let AX direction be the left-right direction. Moreover, let the front-end | tip tip 3 side of the injector 1 be a front side, and let the other side be a back side.

(Intraocular lens 7)
Here, the intraocular lens 7 includes a lens portion 7a, a front support portion 7b, and a rear support portion 7c. The lens portion 7a is a lens portion that functions as a crystalline lens after insertion into the eye. The front support portion 7b and the rear support portion 7c are formed so as to extend in a curved shape from the side surface of the lens portion 7a, and have a function of supporting the lens portion 7a in the eye after insertion into the eye. The front support portion 7b and the rear support portion 7c are arranged so as to have a point-symmetrical positional relationship with the center of the lens portion 7a as the center of symmetry. The lens portion 7a, the front support portion 7b, and the rear support portion 7c are made of an elastic material and are formed to be deformable.

In this embodiment, a single piece type in which the lens portion 7a, the front support portion 7b, and the rear support portion 7c are integrally formed will be described as an example. However, the present invention is not limited to this. The present invention can also be applied to a three-piece intraocular lens in which the lens portion 7a, the front support portion 7b, and the rear support portion 7c are formed of different members.

(Plunger guide 79 of the lens holder 4)
2A is a plan view showing the main part of the lens holder 4 provided in the intraocular lens injector 1, FIG. 2B is a perspective view showing the main part of the lens holder 4, and FIG. It is sectional drawing along the cross section GG shown by (a).

The apparatus main body 2 includes a bottom portion 21 (FIG. 2 (c)) with which the tip tip 3 and the lens holder 4 are engaged in front, a plurality of annular protrusions 22 that can be grasped by an operator on the outer surface of the front end, and a rear end. And a hook-shaped holding portion 23 that is held by the surgeon by placing a finger on the outer surface. The apparatus body 2 is formed using a resin such as polycarbonate having impact resistance.

It should be noted that the annular protrusion 22 and the holding part 23 may have any shape as long as the required function can be exhibited. For example, you may comprise the holding | maintenance part 23 with the processus | protrusion etc. which can hook a finger instead of a hook shape.

While pushing the plunger 5 with one hand, the surgeon grasps the annular protrusion 22 with the other hand and holds the intraocular lens 7 in the order of the front support portion 7b, the lens portion 7a, and the rear support portion 7c. Release into the patient's eye. By providing the annular protrusion 22, the operator can easily grasp the injector 1 and the operability of the injector 1 can be improved.

The lens holder 4 has a bottom portion 41 on which a placement surface 41 a for placing the intraocular lens 7 is formed, and a lid portion 42 that can be opened and closed with respect to the bottom portion 41. 2A, 2B, and 2C are drawn with the lid portion 42 omitted. In order to guide the plunger 5 that passes through the passage hole of the apparatus main body 2 in order to contact and push out the intraocular lens 7, a pair of plunger guides 79 that contact the peripheral surface of the plunger 5 in the shape of a letter C from the left and right direction are lenses A support protrusion 80 is formed on the bottom portion 21 of the apparatus main body 2 and is formed on the bottom portion 41 of the holder 4 and abuts against the peripheral surface of the plunger 5 from below.

The support protrusion 80 suppresses blurring and wobbling along the downward direction of the plunger 5 that passes through the passage hole of the apparatus main body 2 in order to contact and push out the intraocular lens 7. The pair of plunger guides 79 suppress the blurring and wobbling along the left-right direction, upper-left direction, and upper-right direction of the plunger 5 that passes through the passage hole of the apparatus body 2. When blurring or wobbling along the left-right direction or the like of the plunger 5 occurs, the position where the plunger 5 contacts the intraocular lens 7 is shifted from the center of the intraocular lens 7. For this reason, the intraocular lens 7 that is pushed in contact with the position shifted from the center rotates. The pair of plunger guides 79 suppress the rotation of the intraocular lens 7 that is pressed against the plunger 5 and pushed out, and the intraocular lens 7 is suitably folded by the nozzle portion 32 (FIG. 1) of the distal tip 3 to release the release portion. 31 is released.

(Passing hole 87 of the apparatus body 2)
FIG. 3 is a plan view showing the tip 3 and the lens holder 4 provided in the intraocular lens injector 1. 4A is a plan sectional view for explaining the restriction of the plunger 5 by the outlet 88 of the apparatus main body 2 provided in the intraocular lens injector 1, and FIG. 4B is a view for explaining the restriction of the plunger 5. FIG.

The plunger 5 is inserted into a passage hole 87 formed in the substantially cylindrical device body 2 along the axial direction. The plunger 5 that has passed through the outlet 88 of the passage hole 87 contacts the intraocular lens 7 and pushes the intraocular lens 7 from the lens holder 4 to the distal tip 3. The position of the plunger 5 in the left-right direction is regulated by the shape of the outlet 88 of the passage hole 87. The shape of the outlet 88 of the passage hole 87 is a circular shape having a larger diameter than the cross-sectional shape perpendicular to the axis of the plunger 5. The outlet 88 of the passage hole 87 is arranged in a region R1 shown in FIG.

( Restriction grooves 81 and 82 of the lens holder 4)
FIG. 5A is a perspective view for explaining the restriction of the plunger 5 by the lens holder 4, and FIG. 5B is a cross-sectional view for explaining the restriction of the plunger 5. A restricting groove 81 for restricting blurring and wobbling along the left-right direction and the downward direction of the plunger 5 is formed in the bottom 41 of the lens holder 4 along the front-rear direction. In the lid portion 42 of the lens holder 4, a regulation groove 82 that regulates blurring and wobbling along the left-right direction and the upward direction of the plunger 5 is formed along the front-rear direction. The intraocular lens 7 pushed out by the plunger 5 is placed in a bowl-shaped recess 84 formed in the bottom 41. The regulation groove 81 is formed so as to be connected to the recess.

When the lid 42 is closed, the plunger 5 that has passed through the apparatus main body 2 is regulated in the vertical direction and the horizontal direction by the regulation grooves 82 and 81. The restriction grooves 82 and 81 are disposed in the region R2 shown in FIG.

(Regulating groove 83 of the lens holder 4)
FIG. 6A is a perspective view for explaining another restriction of the plunger 5 by the lens holder 4, and FIG. 6B is a cross-sectional view for explaining another restriction of the plunger 5. A restricting groove 83 that restricts blurring and wobbling along the left and right direction and the downward direction of the plunger 5 is formed along the front-rear direction on the distal tip 3 side of the bottom 41 of the lens holder 4.

When the lid portion 42 is closed, the plunger 5 that has passed through the concave portion 84 of the bottom portion 41 is restricted downward and in the left-right direction by the restriction groove 83. The restriction groove 83 is arranged in a region R3 shown in FIG.

(Regulating groove 85 of the tip 3)
FIG. 7A is a plan sectional view for explaining the restriction of the plunger 5 by the restriction groove 85 of the passage hole 75 formed in the distal tip 3, and FIGS. 7B to 7F are respectively shown in FIG. It is sectional drawing in alignment with the cross section EE from the cross section AA. The distal tip 3 has a passage hole 75 formed so as to narrow toward the distal end side in order to release the intraocular lens 7 pushed out by the plunger 5 from the distal end side while folding. A restriction groove 85 for restricting the plunger 5 that has passed through the lens holder 4 is formed in the front-rear direction on the inner wall on the lower side of the passage hole 75. The restriction groove 85 is disposed in a region R4 shown in FIG. Thereby, the shake | blur and wobble along the downward direction and the left-right direction of the plunger 5 are controlled.

(Width of passage hole 75)
FIG. 8A is a plan sectional view for explaining the restriction of the plunger 5 by the width of the passage hole 75, FIG. 8B is a sectional view taken along the section FF shown in FIG. These are top sectional views for demonstrating regulation of the above-mentioned plunger by the width of the passage hole concerning a comparative example. The passage hole 75 is formed such that the dimension in the left-right direction first decreases as it approaches the tip side of the nozzle portion 32, and then the dimension in the vertical direction decreases. For this reason, after the plunger 5 enters the passage hole 75, the blurring and wobbling in the left-right direction of the plunger 5 that proceeds through the passage hole 75 toward the distal end direction of the nozzle portion 32 are quickly regulated.

(Guide protrusion 74 of lens holder 4)
FIG. 9A is a plan view for explaining the guide protrusion 74 provided on the lens holder 4, and FIG. 9B is a plan view for explaining the lens holder 94 according to the comparative example. A guide protrusion 74 for folding the intraocular lens 7 in a valley fold manner is formed on the distal tip 3 side of the lid portion 42 of the lens holder 4 by an inner wall of the passage hole 75 that narrows as the distal end side is approached.

When the lid 42 is closed, the intraocular lens 7 pushed out from the lens holder 4 to the passage hole 75 by the plunger 5 is guided by a guide protrusion 74 that projects downward from the upper side at the entrance of the passage hole 75 that starts to be folded. Then, it is folded in a valley fold manner that curves so as to protrude downward along the inner wall of the passage hole 75 that narrows as it approaches the tip side. Thus, when the guide protrusion 74 acts on the intraocular lens 7 as an obstacle, the intraocular lens 7 is folded in a mountain fold manner that curves so as to protrude upward along the inner wall of the passage hole 75. Is prevented. Therefore, the intraocular lens 7 is always folded in a certain manner. In general, the intraocular lens 7 requires the front support portion 7b to be emitted leftward from the emission portion 31. However, when folded in the mountain fold mode, there is a problem that the front support portion 7b faces rightward and the intraocular lens 7 is discharged from the discharge portion 31.

The guide projection 74 is not provided on the lens holder 94 according to the comparative example shown in FIG. For this reason, the intraocular lens 7 can be folded in a mountain fold manner. By providing the guide protrusion 74 as shown in FIG. 9A, the intraocular lens 7 is always folded in a certain manner, so that the intraocular lens 7 is always emitted from the emitting portion 31 with a stable behavior.

A recess formed along the outer peripheral surface of the plunger 5 is provided at the tip of the guide protrusion 74 that protrudes downward from the upper side. For this reason, the guide protrusion 74 regulates blurring and wobbling along the upward direction and the left-right direction of the plunger 5 while controlling the folding mode of the intraocular lens 7.

In the present embodiment, an example has been described in which the guide protrusion 74 protruding downward from the upper side is provided at the entrance of the passage hole 75 in order to fold the intraocular lens 7 in the valley folding manner. It is not limited to this. The intraocular lens 7 may be always folded in a certain manner. Therefore, for example, in order to fold the intraocular lens 7 in a mountain fold manner, a guide protrusion that protrudes upward from the lower side may be provided at the entrance of the passage hole 75.

(Stopper protrusion 71 of tip 3)
FIG. 10 is a cross-sectional view along the axial direction of the tip 3 for explaining the stopper protrusion 71 provided on the tip 3. The passage hole 75 formed so as to be narrowed toward the discharge portion 31 in order to release the intraocular lens 7 pushed out by the plunger 5 from the discharge portion 31 on the distal end side while being folded, is mountain-folded by the inner wall of the passage hole 75. A stopper projection 71 is provided for preventing the intraocular lens 7 that has been folded into the forward direction. The stopper protrusion 71 is formed on the inner wall on the upper side of the passage hole 75 along the front-rear direction. The stopper protrusion 71 is formed from an intermediate point between the inlet and the outlet of the passage hole 75 to the outlet.

When the intraocular lens 7 pushed into the passage hole 75 is folded in a valley fold manner, the intraocular lens 7 is pushed by the plunger 5, passes through the passage hole 75, and is discharged from the discharge portion 31. However, when the intraocular lens 7 pushed into the passage hole 75 is folded in a mountain fold manner at the entrance of the passage hole 75, the intraocular lens 7 pushed by the plunger 5 hits the stopper projection 71 and is prevented from progressing. . In this way, the release from the discharge portion 31 of the intraocular lens 7 folded in the mountain fold manner is prevented. As a result, the intraocular lens 7 is emitted from the emission part 31 in a state where the intraocular lens 7 is always folded in a valley folding manner.

In this embodiment, the example in which the stopper protrusion 71 is provided to prevent the intraocular lens 7 folded in a mountain fold manner has been described, but the present invention is not limited to this. The intraocular lens 7 may be always folded in a certain manner. Therefore, for example, a stopper protrusion that prevents the intraocular lens 7 that has been folded in a valley fold manner from traveling may be provided.

FIG. 11A is a cross-sectional view taken along a direction perpendicular to the axial direction of the tip 3 for explaining the stopper projection 71, and FIG. 11B shows a projection 91 provided on the tip 93 according to the comparative example. It is sectional drawing along the direction perpendicular | vertical to the said axial direction for demonstrating.

The stopper protrusion 71 is formed along the front-rear direction and is gently inclined with respect to the inner wall of the passage hole 75. The stopper protrusion 71 is formed along the front-rear direction and forms a step with respect to the inner wall of the passage hole 75. And a stepped surface 73. The intraocular lens 7 is folded along the inner wall of the passage hole 75 in such a manner that one end side and the other end side overlap each other. In the aspect in which the intraocular lens 7 is folded, one end side is folded so that one end side is wound inside the other end side, and the other end is folded so that the other end side is wound inside the one end side. There is an inner aspect. The intraocular lens 7 must always be released in one end inner side or always in the other end inner side. However, particularly when the intraocular lens 7 is a thin type, it may be folded in an unintended manner. For this reason, there is a problem that the behavior of the released intraocular lens 7 changes.

By forming the gentle slope 72 and the step surface 73 on the stopper protrusion 71, one end side of the intraocular lens 7 folded from the gentle slope 72 side is inside the other end side of the intraocular lens 7 folded from the step surface 73 side. The intraocular lens 7 is folded so that the one end side overlaps with the other end side. For this reason, the intraocular lens 7 is always folded in an inner side manner. As a result, the behavior of the released intraocular lens 7 is always constant.

A protrusion 91 is also formed in the passage hole 75 of the tip 93 according to the comparative example shown in FIG. However, unlike the protrusion 71, the protrusion 91 is disposed at the entrance of the passage hole 75 and is provided to suppress blurring and wobbling along the upward direction of the plunger 5.

(Notch 76 at the tip of the plunger 5)
12A is a plan view showing the tip shape of the plunger 5, FIG. 12B is a side view showing the tip shape of the plunger 5, and FIG. 12C is another perspective view showing the tip shape of the plunger 5. is there. A pair of notches 76 for avoiding contact with the intraocular lens 7 folded in a valley fold manner so as to overlap the distal end of the plunger 5 as it approaches the distal end side of the passage hole 75 of the distal tip 3. Is formed. The pair of cutout portions 76 cut out the upper left portion and the right portion of the tip of the plunger 5, and the central portion remains.

13A is a plan view showing the tip shape of the plunger 95 according to the comparative example, FIG. 13B is a side view showing the tip shape of the plunger 95, and FIG. 13C is another view showing the tip shape of the plunger 95. FIG.

The notch is not formed in the upper part of the tip of the plunger 95. Such a configuration has the following problems. When the intraocular lens 7 is folded by the passage hole 75 of the distal tip 3 and the one end side and the other end side of the intraocular lens 7 are overlapped, one end side of the intraocular lens 7 is overlapped and wound inside. Alternatively, the other end side may approach the plunger 95 and the plunger 95 may come into contact with the intraocular lens 7.

The notch 76 is formed by notching a portion where one end side or the other end side of the intraocular lens 7 overlapped and wound inside may be contacted. Therefore, by forming the notch 76, it is possible to prevent a situation where one end side or the other end side of the intraocular lens 7 which overlaps and is wound inside comes into contact with the plunger 5.

[Summary]
In order to solve the above problems, an intraocular lens injector according to one aspect of the present invention is attached to an end surface side of a cylindrical main body, and holds a lens holder that holds an intraocular lens, and the lens holder. A plunger that contacts the formed intraocular lens and pushes out the intraocular lens, and a passage formed so as to narrow toward the distal end side so that the intraocular lens pushed out by the plunger is folded and released from the distal end side A distal end tip having a hole, and the passage hole has a stopper protrusion that prevents the intraocular lens from being advanced in a mountain-folded manner by an inner wall of the passage hole that narrows toward the distal end side.

Thereby, the progress of the intraocular lens folded in a mountain fold manner is prevented by the inner wall of the passage hole narrowing as it approaches the tip side. For this reason, only the intraocular lens folded in the valley folding manner is released from the distal end side of the passage hole of the distal tip. Therefore, the direction in which the intraocular lens is emitted is always constant. As a result, the intraocular lens can be stably released into the eye.

In the intraocular lens injector according to one aspect of the present invention, the stopper protrusion is formed along the axial direction of the passage hole, and the stopper protrusion is formed along the axial direction and is gently formed with respect to the inner wall. It is preferable to have a gently sloping slope and a step surface formed along the axial direction to form a step with respect to the inner wall.

With this configuration, one end side and the other end side overlap so that one end side of the intraocular lens folded from the gentle slope side is wound inside the other end side of the intraocular lens folded from the stepped surface side. The intraocular lens is folded. For this reason, the intraocular lens is always folded in an inner side manner. As a result, the behavior of the released intraocular lens is always constant.

In the intraocular lens injector according to one aspect of the present invention, the guide that protrudes toward the lens holder of the passage hole in order to fold the intraocular lens in a valley fold manner by the inner wall of the passage hole that narrows toward the distal end side. It is preferable to further provide a protrusion.

With this configuration, the intraocular lens is guided by the guide protrusion and is folded into a valley fold shape that curves downward along the inner wall of the passage hole. In this way, the guide protrusion acts on the intraocular lens as an obstacle, thereby preventing the intraocular lens from being folded into a mountain fold shape that curves upward along the inner wall of the passage hole. . Therefore, the intraocular lens is always folded in a certain manner.

In the intraocular lens injector according to one aspect of the present invention, the notch portion for avoiding contact with the intraocular lens folded so as to overlap as approaching the distal end side of the distal tip is provided at the distal end of the plunger. It is preferable to be formed.

According to this configuration, the intraocular lens can be suitably pushed out by the plunger without applying an excessive load to the intraocular lens folded so as to overlap.

In the intraocular lens injector according to one aspect of the present invention, the lens holder includes a placement portion on which the intraocular lens is placed, and a lid portion that is provided so as to cover the placement portion. It is preferable that the guide protrusion is formed on the lid.

According to this configuration, the intraocular lens can always be folded in a certain manner with a simple configuration.

In the intraocular lens injector according to one aspect of the present invention, the lens holder includes a placement portion on which a placement surface on which the intraocular lens is placed is formed, and the notch portion is formed on the plunger. It is preferable that the tip is formed on the opposite side of the mounting surface.

According to this configuration, the intraocular lens can be suitably pushed out by the plunger without applying an excessive load to the intraocular lens folded in a valley fold manner so as to overlap.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention.

1 Injector (Intraocular lens injector)
3 Tip 4 Lens holder 2 Device body (main body)
5 Plunger 7 Intraocular lens 41 Bottom (mounting part)
41a Placement surface 42 Lid 71 Stopper projection 72 Slow slope 73 Step surface 74 Guide projection 75 Passage hole 76 Notch

Claims (6)

1. A lens holder that is attached to the end face side of the cylindrical main body and holds the intraocular lens;
   A plunger that contacts the intraocular lens held by the lens holder and pushes out the intraocular lens;
   A tip having a passage hole formed so as to narrow toward the tip side in order to release the intraocular lens pushed out by the plunger from the tip side while folding,
   An injector for an intraocular lens, wherein the passage hole has a stopper projection that prevents the intraocular lens from being advanced in a mountain-folded manner by an inner wall of the passage hole that narrows toward the distal end side.
2. The stopper protrusion is formed along the axial direction of the passage hole,
   The stopper protrusion has a gentle slope that is formed along the axial direction and gently slopes with respect to the inner wall, and a step surface that is formed along the axial direction and forms a step with respect to the inner wall. The intraocular lens injector according to claim 1.
3. 3. The intraocular device according to claim 1, further comprising a guide protrusion that protrudes toward the lens holder of the passage hole in order to fold the intraocular lens in a valley fold manner by an inner wall of the passage hole that narrows toward the distal end side. Lens injector.
4. The notch part for avoiding a contact with the intraocular lens folded so that it may overlap as it approaches the front end side of the said front-end | tip tip is formed in the front-end | tip of the said plunger. An injector for an intraocular lens as described in 1.
5. The lens holder, a placement unit for placing the intraocular lens;
   A lid portion provided so as to cover the mounting portion,
   The intraocular lens injector according to claim 3, wherein the guide protrusion is formed on the lid.
6. The lens holder has a mounting portion on which a mounting surface for mounting the intraocular lens is formed,
   The intraocular lens injector according to claim 4, wherein the notch is formed on a side opposite to the placement surface of the tip of the plunger.

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