JP2004113394A - Protector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a protector which has high safety when it is thrown out, or the like, by covering the tip of a used needle body by simple operation. <P>SOLUTION: This protector 1 has a plate-like protector body 2 consisting of a metallic material. The protector body 2 comprises: a first site 21 where a first hole 11 for the needle body 100 to extend through is bored; a second site 22 where a second hole is bored; a third site 23 where one end of the first site 21 is connected with the second site 22; and a fourth site 24 formed so as to extend nearly in the direction of a tip from the other end of the first site 21. As for the protector 1, in the case of covering the needle tip 101, the inclined angle of the first site 21 with respect to the needle body 100 is reduced, thereby frictional force between the first hole 11 and the needle body 100 is generated or increased to stop with respect to the needle body 100. In this state, the fourth site 24 is made into an attitude inclined to the needle body 100 so that a distance from the center axis of the needle body 100 is reduced with approach to the side of the tip. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a protector capable of covering a needle tip of a needle used by puncturing a blood vessel or the like at the time of infusion or blood collection, for example.
[0002]
[Prior art]
When performing infusion, blood collection, administration of a drug solution, or the like to a patient, a medical needle such as a hollow injection needle is used, for example. The used needle body is provided for disposal. However, if the used needle body is discarded as it is, there is a possibility that a discarding worker or the like accidentally stabs a finger or the like with a needle tip. In particular, since blood adheres and remains on the surface and inside of the needle body, infection may occur due to such a stab.
[0003]
At present, measures have been taken to prevent accidental sticks, such as placing used caps on caps and discarding them. In order not to pierce the needle, great care must be taken, and there is a problem that a great deal of time is required for disposal of the used needle body.
[0004]
Therefore, as a protector that can safely cover the needle tip of the needle body after use, it is attached to the middle part of the needle body when using the needle body, and moves to the needle tip after use to cover the needle tip. (For example, see Patent Documents 1 and 2).
[0005]
However, in the protectors described in Patent Literature 1 and Patent Literature 2, in order to prevent the protector covering the needle tip from detaching from the needle tip, an engaging portion (a concave portion or a convex portion) with the protector is provided on the needle body. ), And a special (separate) means is required, such as connecting a hub and a protector installed on the base end side of the needle body with a string or a thread.
[0006]
In order to solve this problem, it is possible to slide along the longitudinal direction of the needle body when it is attached to the middle part of the needle body. There has been proposed a protector configured such that movement of the needle body along the longitudinal direction is prohibited (see Patent Document 3). The protector described in Patent Literature 3 has an advantage that no special means is required for stopping the protector, which has been moved in the distal direction toward the needle tip, at the position of the needle tip.
[0007]
However, in the case of the protector described in Patent Literature 3, when the protector is grasped with fingers while covering the needle tip, the brake on the needle body may be loosened. For example, when the protector 1 is pinched with a finger from above and below in the state shown in FIG. 2 of Patent Document 3, the front connecting portion 35 is displaced downward by receiving a downward force, and accordingly, the first portion 31 becomes Is displaced so as to rotate clockwise around the lower end thereof, and this displacement causes the inclination angle θ of the first portion 31 with respect to the needle tube 20 (needle body). ₁ 'Becomes bigger and the brakes loosen. When the brake is loosened, the protector 1 may move in the distal direction and separate from the needle tip 21.
[0008]
[Patent Document 1]
JP-A-9-99068
[Patent Document 2]
WO 99/08742 Pamphlet
[Patent Document 3]
JP-A-2002-210005
[0009]
[Problems to be solved by the invention]
An object of the present invention is to provide a protector that can cover the needle tip of a used needle body with a simple operation and is highly safe in disposal processing and the like.
[0010]
[Means for Solving the Problems]
Such an object is achieved by the following (1) to (4) of the present invention. Further, the following (5) to (8) are preferable.
[0011]
(1) A first posture that is relatively movable along the longitudinal direction of the needle body having a sharp needle tip at the tip, and in the longitudinal direction of the needle body while covering the needle tip of the needle body. A protector displaceable to a second position in which relative movement along is prohibited,
A first portion formed by deforming a resilient plate member made of a metal material and having a first hole through which the needle penetrates; and a first portion located closer to the base end than the first portion. A second portion formed with a second hole through which the needle body penetrates; a third portion connecting one end of the first portion to the second portion; A fourth portion formed to extend substantially in the distal direction from the other end, and to reduce the inclination angle of the first portion with respect to the needle body in the first posture and the second posture. A protector body that exerts elastic force acting on
It is provided on the side of the fourth part of the protector body and prevents the inclination angle of the first part with respect to the needle body from being changed by abutting on the outer peripheral surface of the needle body in the first posture. Needle contact portion having the function of
From the first posture, the needle body moves toward the distal end relative to the needle body, and the needle body contact portion passes through the needle tip, whereby the elastic force of the protector body causes the needle body to move relative to the needle body. The first portion is deformed so that the inclination angle of the first portion becomes smaller than that in the first posture, and becomes the second posture, whereby the inner peripheral surface of the first hole and the outer peripheral surface of the needle body are connected to each other. A frictional force is generated or increased to inhibit relative movement of the needle body along the longitudinal direction,
In the second posture, the fourth portion has a posture inclined with respect to the needle body such that a distance from a center axis of the needle body is closer to a tip side portion thereof. Protector.
[0012]
(2) In the second posture, when the fourth portion is pressed so as to approach the needle, a force acts so as to reduce the inclination angle of the first portion with respect to the needle. The protector according to (1), configured as described above.
[0013]
(3) The protector according to (1) or (2), further including a cover portion that covers at least a part of the protector body.
[0014]
(4) The cover portion has a portion positioned to cover the fourth portion from the outside, and when the portion is pressed to approach the needle body in the second posture, an inner surface of the portion is formed. The protector according to the above (3), wherein the abutment comes in contact with a vicinity of a bent portion between the first portion and the fourth portion.
[0015]
(5) The protector according to any one of (1) to (4), further including a needle tip receiving portion that covers the needle tip from a tip end side in the second posture.
[0016]
(6) The protector according to any one of (1) to (5), wherein the needle contact portion is made of a resin material.
[0017]
(7) The protector according to any one of (1) to (6), wherein in the second posture, an inclination angle of the fourth portion with respect to the needle body is 3 to 10 °.
[0018]
(8) Any of the above (1) to (7), wherein in the second posture, the size of the angle formed by the first part and the fourth part of the protector body is 50 to 70 °. The protector described in Crab.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a protector of the present invention will be described in detail based on a preferred embodiment shown in the accompanying drawings.
[0020]
FIG. 1 is a sectional side view showing an embodiment (first posture) of the protector of the present invention, and FIG. 2 is a sectional side view showing an embodiment (second posture) of the protector of the present invention. In the following description, the left side in FIGS. 1 and 2 will be referred to as “distal end”, the right side as “base end”, the lower side as “one end”, and the upper side as “other end”.
[0021]
The protector 1 shown in these figures is used by being attached to a medical needle (needle tube) 100, and the needle tip 101 is stored (covered) after use of the needle 100, thereby causing erroneous insertion. And so on.
[0022]
As will be described later, the protector 1 has a first posture (a posture shown in FIG. 1) that can relatively move along the longitudinal direction (axial direction) of the needle body 100 and a needle tip 101 of the needle body 100. In the covered state, the needle body 100 can be displaced (deformed) to a second posture (a posture shown in FIG. 2) in which relative movement along the longitudinal direction is prohibited.
[0023]
Needle body 100 is a hollow needle, and is made of, for example, a metal material such as stainless steel, aluminum or an aluminum alloy, titanium or a titanium alloy. Through the needle 100 punctured into a living body (blood vessel of a patient), for example, blood is collected or a drug solution is injected.
[0024]
A sharp needle tip 101 is formed at the tip of the needle body 100. The needle tip 101 has a shape having a blade surface 102 inclined at a predetermined angle with respect to the central axis of the needle body 100.
[0025]
The protector 1 includes a protector body 2 formed by deforming (bending) an elastic plate-shaped member made of a metal material, and a plastic member 3 fixed (fixed) to the protector body 2. Have.
[0026]
As shown in FIG. 1, the protector main body 2 is provided on a first portion (brake portion) 21 in which a first hole 11 is formed, and on a proximal end side (needle side) of the first portion 21. , A second portion 22 in which the second hole 12 is formed, and a third portion 23 connecting one end of the first portion 21 and one end of the second portion 22.
[0027]
In other words, the third part 23 is located between one end of the first part 21 and one end of the second part 22. Then, in a side view, the first portion 21, the second portion 22, and the third portion 23 are formed so as to have a substantially “U” shape (or a substantially “C” shape) as a whole. Is formed.
[0028]
The needle body 100 passes through the first hole 11 and the second hole 12. The shape of the first hole 11 is preferably circular.
[0029]
The protector body 2 further has a fourth portion 24 formed (provided) so as to extend substantially in the distal direction from the other end of the first portion 21 via a bent portion (or a curved portion) 27. are doing. In the first posture and the second posture, the fourth part 24 and the first part 21 are arranged so as to form an acute angle.
[0030]
The protector body 2 further has a fifth portion 25 formed (provided) so as to extend downward from the tip of the fourth portion 24 via a bent portion (or a curved portion) in the figure. are doing. In the illustrated configuration, the fifth portion 25 is provided substantially perpendicular to the fourth portion 24.
[0031]
A notch (or hole) 26 through which the needle 100 is inserted is formed in a portion including a bent portion (or a curved portion) between the fourth portion 24 and the fifth portion 25 and in the vicinity thereof. In the first posture, the needle body 100 is inserted (penetrated) through the notch 26.
[0032]
Such a protector body 2 is made of a metal material. Thereby, in the second posture, the frictional force between the inner peripheral surface (inner peripheral portion) of the first hole 11 and the outer peripheral surface (surface) of the needle body 100 becomes sufficiently large, and the first portion 21 ( The braking action of the brake section) is reliably exhibited. The metal material forming the protector body 2 is not particularly limited, and examples thereof include stainless steel, aluminum or an aluminum alloy, titanium or a titanium alloy, copper or a copper-based alloy.
[0033]
In the present embodiment, the protector main body 2 is configured such that each part thereof is integrally formed. However, in the present invention, the protector main body 2 may be configured by two or more components.
[0034]
The plastic member 3 is provided on the fourth portion 24 side of the protector body 2. The method of fixing the fourth part 24 and the fifth part 25 to the plastic member 3 may be any method, for example, caulking, engagement by unevenness, adhesion by an adhesive, fusion and the like.
[0035]
The plastic member 3 is disposed substantially perpendicularly to the fourth portion 24 and has a pair of first wall portions 31 positioned so as to sandwich the needle body 100 therebetween. It has a second wall portion 32 located on the opposite side with respect to the sandwiching portion, and a third wall portion 33 located on the tip end of the plastic member 3. The third wall portion 33 is disposed substantially parallel to the fifth portion 25 and is located so as to contact the inner surface of the fifth portion 25.
[0036]
A needle tip storage space 34 is formed inside the plastic member 3 so as to be surrounded by these walls. As shown in FIG. 2, in the second posture, the needle tip 101 of the needle body 100 is stored in the needle storage space 34.
[0037]
Such a plastic member 3 is displaced (moved) integrally with the fourth part 24 and the fifth part 25 when the posture of the protector 1 changes.
[0038]
The upper end of the third wall portion 33 in the drawing is a needle contact portion 35 that comes into contact with the needle 100 from the lower side in the drawing in the first posture. The contact surface of the needle body contact portion 35 with the needle body 100 may be a flat surface, or may be an arc-shaped curved surface corresponding to the outer peripheral surface of the needle body 100.
[0039]
In the first posture, the plastic member 3 is urged by the elasticity (spring nature) of the protector body 2 in a direction to rotate clockwise in FIG. In the posture of, the needle contact portion 35 is in a state of being pressed against the needle 100.
[0040]
The plastic member 3 is not limited to the configuration shown in the drawing, and may be, for example, a cylindrical member having a needle contact portion as a hole.
[0041]
In the present embodiment, the plastic member 3 including the needle contact portion 35 is made of a resin material (synthetic resin material). Thereby, in the first posture, the frictional resistance between the needle body contact portion 35 and the outer peripheral surface of the needle body 100 is reduced, and the sliding resistance of the protector 1 with respect to the needle body 100 is further reduced. As a result, protector 1 can move smoothly (with a relatively small operating force) along the longitudinal direction (axial direction) of needle body 100 in the first posture.
[0042]
The resin material constituting the plastic member 3 (the needle contact portion 35) is not particularly limited, but may be any of various types such as polyethylene, polypropylene, polyurethane, polystyrene, polycarbonate, polyester, ABS resin, AS resin, fluororesin, and polyacetal. A resin material may be used.
[0043]
The contact surface of the needle contact portion 35 with the needle 100 may have, for example, a “V” shape, a “U” shape, or the like.
[0044]
When the protector 1 is in use (when puncturing a living body or the like), the protector 1 is in the first position and is positioned in a middle part (or a base end part) of the needle body 100. Is done. In the first posture, the needle body 100 penetrates (penetrates) the second hole 12, the first hole 11, and the notch 26 and protrudes from the distal end of the protector 1.
[0045]
The protector 1 is displaced (deformed) to the second posture shown in FIG. 2 by covering the needle tip 101 by moving in the distal direction relative to the needle body 100 from the first posture. In the second posture, the angle between the first part 21 and the third part 23 in the protector main body 2 is smaller than in the first posture. That is, the protector 1 is deformed so that the first part 21 and the third part 23 are closed (the first part 21 approaches the third part 23), so that the first part 21 and the third part 23 are deformed from the first posture. Displacement (deformation) to the second posture.
[0046]
The protector body 2 exhibits an elastic force in the first posture and the second posture that acts to reduce the inclination angle of the first portion 21 with respect to the needle body 100. Thereby, the displacement (deformation) from the first posture to the second posture is caused by the elasticity (elastic force) of the protector main body 2 (mainly, the vicinity including the third portion 23). I have.
[0047]
That is, in a natural state in which no external force is applied to the protector 1 (a state in which the protector 1 is not mounted on the needle body 100), the angle between the first part 21 and the third part 23 is the state shown in FIG. The protector 1 is configured such that the first portion 21 and the third portion 23 open from such a natural state (so that the first portion 21 moves away from the third portion 23). ) It is attached to the needle body 100 in a deformed (elastically deformed) state.
[0048]
With such a configuration, when the protector 1 is attached to the needle body 100, the first portion 21 has an inclination angle (the angle indicated by θ in FIG. 1 and θ ′ in FIG. 2) with respect to the needle body 100. It is biased in such a direction as to be smaller. That is, the portion including the third portion 23 of the protector main body 2 urges the first portion 21 in a direction such that the inclination angle of the first portion 21 with respect to the needle body 100 becomes small due to its elasticity. It is a biasing means.
[0049]
Here, the inclination angle of the first portion 21 with respect to the needle body 100 can be expressed in two sizes depending on which side of the angle formed by the first portion 21 and the needle body 100 is selected. In the specification, the “inclination angle of the first portion 21 with respect to the needle body 100” refers to an angle that is less than 90 ° (smaller angle) in the second posture. That is, in the present embodiment, the angles are indicated by θ in FIG. 1 and θ ′ in FIG. Hereinafter, this angle is referred to as a “first portion inclination angle”.
[0050]
As shown in FIG. 1, in the first posture, since the needle body contact portion 35 is in contact with the outer peripheral surface of the needle body 100, the first portion inclination angle is increased by the urging force of the urging means. The protector 1 is prevented from being deformed so as to be smaller, and as a result, the first portion inclination angle θ in the first posture is relatively large (close to 90 ° in the illustrated configuration) as described above. Angle).
[0051]
Therefore, in the first posture, a gap is formed between the first hole 11 and the needle body 100, and the gap between the inner peripheral surface of the first hole 11 and the outer peripheral surface of the needle body 100 is formed. The frictional force between them is substantially inactive or relatively small. That is, in the first posture, the first portion 21 does not generate a braking action.
[0052]
In this manner, the needle body abutting portion 35 abuts on the needle body 100 in the first posture, thereby preventing the first portion tilt angle from being reduced (changed), and preventing the first portion from being changed. 21 has a function of retaining the braking action. That is, in the first posture, the protector 1 is in the brake operation reserved state by the needle body contact portion 35 abutting on the needle body 100.
[0053]
As described above, in the first posture, the needle body contact portion 35 is in a state of being pressed against the outer peripheral surface of the needle body 100 by the urging force of the urging means. In the present embodiment, since the needle contact portion 35 is made of a resin material as described above, the protector 1 can move more smoothly (with a relatively small operating force) with respect to the needle 100. ing.
[0054]
From the first posture, the protector 1 is moved in the distal direction relative to the needle body 100, and the needle body contact portion 35 passes through the tip end portion 103 of the needle tip 101, and the needle body contact portion 35 When does not come into contact with the needle body 100, the protector 1 is released from the brake operation reserved state, and is elastically displaced (deformed) to the second posture by the urging force of the urging means.
[0055]
In the second posture, the protector 1 is displaced such that the first portion 21 rotates clockwise in the figure with respect to the third portion 23 (the needle body 100) as compared with the first posture. Deformation). Thereby, as shown in FIG. 2, the first part inclination angle is smaller than that in the first posture, and θ ′ <θ is satisfied.
[0056]
As the posture of the first part 21 changes, the fourth part 24, the fifth part 25, and the plastic member 3 are also displaced clockwise (in the figure) with respect to the third part 23 (the needle body 100). (Rotation). Due to this displacement, the third wall portion 33 of the plastic member 3 approaches the needle body 100 (needle tip 101) and moves to a position that covers the tip end portion 103 of the needle tip 101 from the tip side. In other words, the third wall 33 closes the needle tip 101 from the lower side in the figure and covers the tip 103 of the needle tip 101 from the tip side. As described above, the third wall portion 33 of the plastic member 3 constitutes a needle tip receiving portion that covers the needle tip 101 from the distal end side in the second posture.
[0057]
In such a second posture, the first portion 21 of the protector 1 functions as a brake for the needle body 100, so that the relative movement of the protector 1 along the longitudinal direction of the needle body 100 is prevented. Prohibited (prevented). That is, the inner peripheral surface (inner peripheral portion) of the first hole 11 becomes the outer peripheral surface of the needle body 100 because the first portion inclination angle becomes smaller than that in the first posture by the urging force of the urging means. (The surface), and a frictional force between the inner peripheral surface of the first hole 11 and the outer peripheral surface of the needle body 100 is generated or increased. This frictional force acts on the protector 1 as a braking force, and inhibits (prevents) the movement of the protector 1 along the longitudinal direction of the needle body 100.
[0058]
With such a configuration, when the needle tip 101 is stored in the needle tip storage space 34 (in the second posture), the needle tip 101 does not protrude beyond the protector 1.
[0059]
The first portion inclination angle θ in the first posture is not particularly limited, but is preferably 60 ° or more.
[0060]
Although the preferred size of the inner diameter of the first hole 11 varies depending on the outer diameter of the needle body 100, it is usually preferably about 0.01 to 1 mm larger than the outer diameter of the needle body 100, and It is more preferably about 0.2 mm larger. Thereby, in the second posture, the frictional force between the inner peripheral surface of the first hole 11 and the outer peripheral surface of the needle body 100 (braking force acting on the protector 1) increases, and the longitudinal direction of the needle body 100 is increased. Relative movement along is more reliably prohibited (blocked).
[0061]
Note that, in the present invention, the first hole 11 may be partially missing in the circumferential direction (such as a C-shaped hole) (the same applies to the second hole 12).
[0062]
The shape of the second hole 12 is not limited to a circle as long as the second hole 12 can slide with respect to the needle body 100. When the second hole 12 has a circular shape, its inner diameter reduces the sliding resistance in the first posture. From the viewpoint, it is preferable that the outer diameter of the needle body 100 is larger by about 0.05 to 1 mm.
[0063]
Further, in the present invention, the portion near the second hole 12 (the contact surface with the needle body 100) is formed of the above-described resin material, or the contact surface with the needle body 100 is formed by bending or the like. May be smoothed. Thereby, the frictional force between the inner surface of the second hole 12 and the outer peripheral surface of the needle body 100 is reduced. Therefore, the sliding resistance of the protector 1 in the first position with respect to the needle body 100 can be further reduced, and as a result, the operation of moving the protector 1 in the distal direction relative to the needle body 100 (the needle in the protector 1). Operation for covering the tip 101) can be performed more easily and smoothly.
[0064]
Although the preferred value of the thickness of the plate-like member (particularly, the first portion 21) constituting the protector main body 2 varies depending on the constituent material thereof, the outer diameter of the needle body 100, and the like, it is usually 0.05 to 2 mm. It is preferably about 0.06 to 0.2 mm. In the above range, when the thickness is relatively thick, the braking force acting on the protector 1 in the second posture and the protection of the needle tip 101 are particularly excellent, and when the thickness is relatively thin, Workability and ease of sliding with respect to the needle body 100 in the first posture are particularly excellent.
[0065]
By the way, in such a protector 1, in the second posture shown in FIG. 2, the fourth portion 24 has a needle body such that the distance from the central axis of the needle body 100 is closer to the tip side. The posture is inclined with respect to 100. That is, at the time of the second posture, the fourth portion 24 is in a posture inclined with respect to the needle body 100 so as to be lower left in the drawing. Accordingly, in the second posture, the angle β formed by the first part 21 and the fourth part 24 is relatively small (a sharp angle). According to the present invention, the following effects can be obtained by such a configuration.
[0066]
If it is assumed that the cover 6 described later is not provided, when the protector 1 is gripped (pinched) with, for example, fingers or the like from above and below in the second posture, the fourth portion 24 tilts as described above. As a result, the pressing force on the fourth portion 24 acts in the direction indicated by the arrow A in FIG. 2 and presses the fourth portion 24 closer to the needle body 100. Due to the direction of the pressing force A and the relatively small angle β, the pressing force A acts to further reduce the angle β and further reduces the first portion inclination angle θ ′. Act like so. As a result, the braking force (braking action) by the first portion 21 (the first hole 11) is further increased, and the movement of the protector 1 in the longitudinal direction of the needle body 100 is more strongly inhibited (blocked). Therefore, in the present invention, there is a case where the protector 1 covering the needle tip 101 and in the second position is intentionally grasped with a finger or the like and pulled in the distal direction without the cover 6 described later. Also, it is possible to reliably prevent the protector 1 from coming off the needle tip 101.
[0067]
The angle β formed by the first part 21 and the fourth part 24 in the second posture is not particularly limited, but is preferably 50 to 70 ° from the viewpoint of further improving the effect as described above. Is preferred. Similarly, the inclination angle α of the fourth portion 24 with respect to the needle body 100 in the second posture is not particularly limited, but is 3 to 10 ° from the viewpoint of further improving the above-described effect. Is preferred.
[0068]
Further, in such a protector 1, when the fifth portion 25 or the plastic member 3 or the like is pressed in the proximal direction in the second posture, the first portion 21 (the plate-shaped portion near the first hole 11) is pressed. (Member) is provided with means for applying a force such that the first portion inclination angle θ ′ becomes smaller.
[0069]
That is, in the second posture, for example, when a pressing force is applied to the fifth portion 25 or the distal end of the plastic member 3 in the proximal direction, the pressing force is applied to the first portion 25 via the fourth portion 24. 21 and acts so as to reduce the first part inclination angle θ ′. Thereby, the frictional force between the inner peripheral surface of the first hole 11 and the outer peripheral surface of the needle body 100 (braking force acting on the protector 1) further increases to oppose the pressing force, and the protector 1 moves. Is more reliably prohibited (blocked).
[0070]
In addition, even if the protector 1 is slightly moved in the proximal direction due to a particularly strong pressing force, the foremost portion 103 of the needle tip 101 is in contact with the third wall portion 33 (needle tip receiving portion). Because of the contact, the needle tip 101 is reliably prevented from protruding beyond the protector 1.
[0071]
Further, the protector 1 of the present embodiment further has a cover 6 that covers at least a part of the protector body 2 and the plastic member 3. The cover portion 6 extends substantially in the distal direction from the other end (the upper end portion in the drawing) of the second portion 22, and includes a first cover portion 61 positioned to cover the outside of the fourth portion 24, A pair of second cover portions 62 are provided so as to extend downward in the drawing from both sides of the portion 61 and cover the sides of the protector body 2 and the plastic member 3.
[0072]
Such a cover portion 6 has a function of preventing an operation of moving a portion near the needle body contact portion 35 toward the distal end in the second posture. For example, when the plastic member 3 is pinched by a finger and is to be pulled in the distal direction, the distal end of the plastic member 3 cannot be touched by a finger or the like because the side of the plastic member 3 is covered with the cover 6. Therefore, this operation cannot be performed. Thereby, in the protector 1 of the present embodiment, for example, even in a case where the protector 1 is intentionally detached from the needle body 100, separation from the needle body 100 can be prevented, and particularly high safety is provided. .
[0073]
Further, in such a cover portion 6, when the first cover portion 61 is pressed so as to approach the needle body 100 in the second posture, the inner surface of the first cover portion 61 is in contact with the first portion 21 and the fourth portion. Abuts on the vicinity of the bent portion 27 between the portion 24 of FIG. Thus, when the protector 1 is gripped (pinched) with, for example, a finger or the like from above and below in the figure in the second posture, the cover 6 is controlled by the first portion 21 (the first hole 11). It also acts to more reliably prevent the power (braking action) from loosening.
[0074]
That is, when a downward pressing force B shown in the figure by an arrow in FIG. 2 acts on the first cover portion 61 by grasping with a finger or the like, the pressing force B is applied to the vicinity of the bent portion 27 in the figure. It acts to press downward, and as a result, acts to make the first portion inclination angle θ ′ smaller. Therefore, the braking force (braking action) by the first portion 21 (the first hole 11) is further increased, and the movement of the protector 1 in the longitudinal direction of the needle body 100 is more strongly prohibited (blocked). Therefore, even when the protector 1 is intentionally grasped with a finger or the like and pulled in the distal direction, the protector 1 can be more reliably prevented from being detached from the needle tip 101.
[0075]
Next, an example of a method of using the protector 1 will be described in detail.
[1] The needle 100 is punctured into a blood vessel (living body) or the like of a patient while the protector 1 in the first posture is positioned in the middle or at the base end of the needle 100, to collect blood and inject a drug solution. And so on.
[0076]
[2] When the collection of the blood or the injection of the drug solution is completed, the needle 100 is removed from the blood vessel of the patient.
[0077]
[3] Next, the protector 1 is moved toward the distal end with respect to the needle body 100 using, for example, a finger or tweezers. At this time, in the present embodiment, as described above, since the needle body contact portion 35 is made of a resin material, the protector 1 can be moved in the distal direction with respect to the needle body 100 with a relatively small operating force. This operation can be performed smoothly, quickly and easily.
[0078]
[4] When the needle body contacting portion 35 passes through the foremost end 103 of the needle tip 101 due to the movement of the protector 1 in the distal direction, the protector 1 is elastically deformed (by its own elasticity). The second posture shown in FIG. When the protector 1 is in the second posture, the movement of the protector 1 along the longitudinal direction of the needle body 100 is prohibited (blocked) by the braking action (braking force) of the first portion 21, and the needle tip 101 is moved to the second position. The needle 100 stops (rests) before reaching the first hole 11.
[0079]
As described above, when the protector 1 moves to a position covering the needle tip 101, the protector 1 stops with respect to the needle body 100 by the braking action of the first portion 21, and does not separate from the needle tip 101. Therefore, a special structure for preventing the protector 1 from passing through the needle tip 101 and detaching from the needle tip 101 (for example, locally increasing the outer diameter of the needle body 100, (A structure in which a protrusion or a recess is provided or a hub installed on the base end side of the needle body 100 and the protector 1 are connected by a string or a thread) is not required. Accordingly, the structure can be simplified, and the distal end portion of the needle body 100 can have a smooth outer peripheral surface that is not subjected to special processing or the like. There is no. In addition, the protector 1 can be used in combination with the existing needle body 100 having no special structure, and has high versatility.
[0080]
[5] When the needle tips 101 of the needle body 100 are stored in the protector 1, they are provided for disposal. At this time, as described above, the tip 103 of the needle tip 101 is covered from the tip side by the third wall 33 (needle tip receiving part), so that the needle tip 101 may protrude beyond the protector 1. Also, the protector 1 does not come off the needle tip 101 due to the braking action of the second portion 21. This prevents an accident such as accidentally stabbing a finger or the like with the needle point 101 during disposal processing or the like.
[0081]
As described above, the protector of the present invention has been described with respect to the illustrated embodiment. However, the present invention is not limited to this, and each part constituting the protector may be replaced with an arbitrary configuration capable of exhibiting the same function. can do. Further, an arbitrary component may be added.
[0082]
Further, in the present invention, the cover portion that covers at least a part of the protector body may not be provided.
[0083]
Further, the protector body may be configured by a plurality of components. For example, a plate-shaped brake portion and a biasing member (spring) for biasing the brake portion in a direction in which the inclination angle with respect to the needle body decreases may be configured as separate components.
[0084]
Further, the protector of the present invention is not limited to various types of injection needles, and can be used by being attached to an indwelling needle assembly used in combination with an indwelling needle (outer needle), for example.
[0085]
【The invention's effect】
As described above, according to the present invention, the needle tip of the used needle body can be covered with the protector with a simple operation, quickly and safely, and when disposing, etc., a finger or the like is erroneously made with the needle tip. It is possible to provide a puncture device which is extremely excellent in terms of hygiene and safety with no accident of puncturing.
[0086]
In particular, even when the protector covering the needle tip is grasped with, for example, a finger or the like, the braking force on the needle body of the protector does not loosen, and therefore, it is more likely that the protector comes off from the needle tip. It can be reliably prevented.
[Brief description of the drawings]
FIG. 1 is a sectional side view showing an embodiment (first posture) of a protector of the present invention.
FIG. 2 is a cross-sectional side view showing an embodiment (second posture) of the protector of the present invention.
[Explanation of symbols]
1 Protector
11 1st hole
12 Second hole
2 Protector body
21 First part
22 Second part
23 Third part
24 Fourth part
25 Fifth part
26 Notch
27 Bend
3 plastic members
31 1st wall
32 Second wall
33 Third wall
34 Needle tip storage space
35 Needle contact part
6 Cover
61 1st cover part
62 Second cover part
100 needle
101 needle point
102 blade surface
103 Cutting Edge

Claims (4)

A first position that can relatively move along the longitudinal direction of the needle body having a sharp needle tip at the tip, and a relative position along the longitudinal direction of the needle body in a state where the needle body covers the needle tip of the needle body. A protector that can be displaced to a second position in which a temporary movement is prohibited,
A first portion formed by deforming a resilient plate member made of a metal material and having a first hole through which the needle penetrates; and a first portion located closer to the base end than the first portion. A second portion formed with a second hole through which the needle body penetrates; a third portion connecting one end of the first portion to the second portion; A fourth portion formed to extend substantially in the distal direction from the other end, and to reduce the inclination angle of the first portion with respect to the needle body in the first posture and the second posture. A protector body that exerts elastic force acting on
It is provided on the side of the fourth part of the protector body and prevents the inclination angle of the first part with respect to the needle body from being changed by abutting on the outer peripheral surface of the needle body in the first posture. Needle contact portion having the function of
From the first posture, the needle body moves toward the distal end relative to the needle body, and the needle body contact portion passes through the needle tip, whereby the elastic force of the protector body causes the needle body to move relative to the needle body. The first portion is deformed so that the inclination angle of the first portion becomes smaller than that in the first posture, and becomes the second posture, whereby the inner peripheral surface of the first hole and the outer peripheral surface of the needle body are connected to each other. A frictional force is generated or increased to inhibit relative movement of the needle body along the longitudinal direction,
In the second posture, the fourth portion has a posture inclined with respect to the needle body such that a distance from a center axis of the needle body is closer to a tip side portion thereof. Protector. In the second posture, when the fourth part is pressed so as to approach the needle body, a force is applied so as to reduce the inclination angle of the first part with respect to the needle body. The protector according to claim 1, wherein The protector according to claim 1, further comprising a cover that covers at least a part of the protector body. The cover portion has a portion positioned to cover the fourth portion from the outside, and when the portion is pressed so as to approach the needle body in the second posture, the inner surface of the portion is the second surface. 4. The protector according to claim 3, wherein the protector comes into contact with a vicinity of a bent portion between the first portion and the fourth portion. 5.

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