WO2009128265A1 - Syringe - Google Patents

Abstract

A syringe having an extremely simple structure which allows a gasket of the syringe to slide smoothly and provides excellent liquid tightness and air tightness. The syringe (1) is provided with a barrel (3) in which liquid (L) is placed, a plunger (5) for discharging the liquid (L) placed in the barrel (3), and a gasket (9) mounted to the front end (7) of the plunger (5). On the front end (7) of the plunger (5), there are provided a male screw thread (27) to which the gasket (9) is mounted and a supporting projection (33) having a diameter smaller than the root diameter (D2) of the male screw thread (27) in contact with an inner wall surface (31) of a top surface section (29) of the gasket (9) to support the gasket (9). A female screw thread (47) engaging with the male screw thread (27) is formed in the inner peripheral surface of the gasket (9). A receiving recess (49) having a smaller diameter than the inner diameter (D4) of the female screw thread (47) and receiving the supporting projection (33) is formed in the top surface section (29). A first annular projection (39) in sliding contact with the inner peripheral surface (14) of the barrel (3) is provided at that position of the outer peripheral surface (37) of the gasket (9) which is close to the top surface section (29).

Description

Syringe

The present invention relates to a syringe provided with a barrel for injecting liquid, a plunger for pushing out the liquid injected into the barrel, and a gasket attached to the tip of the plunger.

Syringes are used to inject liquids such as chemicals into the body. The syringe includes a barrel that injects liquid, a plunger that pushes out the liquid injected into the barrel, and a gasket that is attached to the tip of the plunger. Further, a male screw part for attaching the gasket is formed at the tip part of the plunger, and a female screw part screwed with the male screw part is engraved on the inner peripheral surface of the gasket. The gasket is a member that is in sliding contact with the inner peripheral surface of the barrel, and is a member that requires smooth slidability and excellent liquid tightness or air tightness. The sliding property of the gasket and the liquid-tightness or airtightness are closely related to the structure of the inner space in the first annular projection near the top surface of the gasket as a factor to increase or decrease the repulsive force of the gasket. .

Syringes disclosed in the following Patent Documents 1 and 2 can be cited as conventional techniques for syringes characterized by the structure of the gasket. Among these, in Patent Document 1, a hard resin material used as a barrel material is applied to the gasket material, and a desired slidability is applied to the gasket by adjusting the outer diameter of the gasket and the thickness of the collar portion. In addition to liquid tightness or air tightness, chemical resistance is imparted.
On the other hand, Patent Document 2 discloses a configuration of a gasket in which a coating containing a slidability-imparting component and a flexibility-imparting component is formed on the outer peripheral surface of the gasket, and fine particles are provided on the surface of the coating to form a rough surface. Has been. And it is described that according to the gasket of such a structure, stable slidability can be obtained without applying a lubricant to the sliding surface of the gasket.

JP 2003-180832 A JP 2006-167110 A

The conventional syringe has the following problems.
For example, if the inner side of the first annular projection near the top surface of the gasket is formed of a solid body, the rubber repulsive force of the gasket becomes too large, and the sliding resistance increases and the desired slidability of the gasket is obtained. It will disappear.
On the other hand, when a large space is formed by punching the inside of the first annular projection near the top surface of the gasket, the amount of deformation at the first annular projection of the gasket increases, and the desired liquid-tightness of the gasket is increased. Sex or airtightness cannot be obtained.

The present invention has been made on the basis of these points, and the object of the present invention is to achieve a smoother gasket than the current product by an extremely simple configuration in which the shape of the gasket and the shape of the tip of the plunger are partially modified. An object of the present invention is to provide a syringe capable of obtaining excellent slidability and excellent liquid tightness or air tightness.

To achieve the above object, a syringe according to claim 1 of the present invention is a syringe provided with a barrel for injecting liquid, a plunger for pushing out the liquid injected into the barrel, and a gasket attached to the tip of the plunger. The plunger has a male screw portion for attaching the gasket to the tip portion of the plunger, and a diameter that is the same as or smaller than the valley diameter of the male screw portion that contacts the inner wall surface of the top surface portion of the gasket and supports the gasket. And a female screw part that engages with the male screw part on the inner peripheral surface of the gasket, and the female screw that receives the support convex part on the top surface part. A receiving recess having a diameter equal to or smaller than the inner diameter of the portion is provided, and the outer peripheral surface of the gasket is in sliding contact with the inner peripheral surface of the barrel at a position near the top surface portion. It is characterized in that the first annular projection is provided that.

The syringe according to claim 2 is characterized in that, in the syringe according to claim 1, the receiving recess is provided in an inner space of the gasket corresponding to a portion where the first annular protrusion is provided. It is what.

The syringe according to claim 3 is the syringe according to claim 1 or 2, wherein the outer peripheral surface of the gasket has a third annular protrusion that is in sliding contact with the inner peripheral surface of the barrel at a position on the hem side that is open. A second annular protrusion is provided in an intermediate space between the third annular protrusion and the first annular protrusion so as to be in sliding contact with the inner peripheral surface of the barrel.

The syringe according to claim 4 is the syringe according to any one of claims 1 to 3, wherein the sliding contact surface of the first annular protrusion that is in sliding contact with the inner peripheral surface of the barrel has a width in the height direction of the gasket. It is characterized by being comprised by the curved-surface part which does not have.

The syringe according to claim 5 is the syringe according to any one of claims 1 to 3, wherein the sliding contact surface of the first annular protrusion that is in sliding contact with the inner peripheral surface of the barrel has a width in the height direction of the gasket. It is comprised by the straight body part which has this.

The syringe according to claim 6 is the syringe according to any one of claims 1 to 5, wherein a fitting portion is formed on a support convex portion of the plunger, and a protrusion is formed on an inner peripheral surface of the fitting portion. And a convex portion is formed in the receiving concave portion of the gasket, and a groove portion that engages with the protruding portion is provided in the convex portion.

The following actions are obtained by the above means. First, according to the syringe according to the present invention, since the receiving concave portion having the same diameter as or smaller than the inner diameter of the female screw portion is provided on the top surface portion of the gasket, the desired gasket without increasing the rubber repulsion force of the gasket. Slidability can be secured.
In addition, since the support convex portion provided at the distal end portion of the plunger is fitted in the receiving concave portion, the amount of deformation at the first annular projection of the gasket can be reduced, and the desired liquid tightness of the gasket. Moreover, airtightness can be obtained.

In addition, when the receiving recess is provided in the inner space of the gasket corresponding to the portion where the first annular protrusion is provided, the amount of deformation in the reduced diameter direction of the first annular protrusion is effective. Therefore, the liquid-tightness or gas-tightness of the gasket can be improved.
Further, in addition to the first annular protrusion, when the second annular protrusion and the third annular protrusion that are in sliding contact with the inner peripheral surface of the barrel are provided, the liquid-tightness or airtightness of the gasket is further improved. To do.

Further, when the sliding contact surface of the first annular protrusion is constituted by a curved surface portion having no width in the height direction of the gasket, the slidability of the gasket is improved.
Further, when the sliding contact surface of the first annular protrusion is constituted by a straight body portion having a width in the height direction of the gasket, the liquid tightness or air tightness of the gasket is improved.

Further, a fitting portion is formed on the support convex portion of the plunger, a protrusion is provided on the inner peripheral surface of the fitting portion, and a convex portion is formed in the receiving concave portion of the gasket, In the case where the protrusion is provided with a groove that engages with the protrusion, when the male threaded portion of the plunger is screwed into the female threaded portion of the gasket and tightened with the screw, the support convex portion receives the recessed portion. And the protrusion on the inner peripheral surface of the fitting portion gets over the flexible convex portion and is engaged with the groove to be in a fixed state. Therefore, loosening between the gasket and the plunger can be effectively prevented.

According to the syringe of the present invention, the gasket has a very simple configuration that only partially modifies the shape of the gasket and the tip of the plunger. Obtainable.

It is a figure which shows embodiment of this invention and is a side view which shows a syringe. It is a figure which shows embodiment of this invention, and is a side view which expands and shows a gasket. It is a figure which shows embodiment of this invention, and is a bottom view which expands and shows a gasket. It is a figure which shows embodiment of this invention, and is a sectional side view which expands and shows the front-end | tip part of a gasket and a plunger. It is a figure which shows other embodiment of this invention, and is a sectional side view which expands and shows the front-end | tip part of a gasket and a plunger. It is a figure which shows an example of the present goods, and is a sectional side view which expands and shows the front-end | tip part of a gasket and a plunger. It is a graph which shows the analysis result of the pushing amount and sliding resistance value of the plunger of the comparative test 1 by making the present goods, invention goods, and comparative goods into a sample. It is a graph which shows the analysis result of the sliding resistance value according to the peak of comparative test 1 for the current product, the invention product, and the comparative product. It is a graph which shows the analysis result of the pushing amount and sliding resistance value of the plunger of the comparative test 2 by making the present goods, invention goods, and comparative goods into a sample. It is a comparison table | surface which shows the sliding resistance value of the whole and the peak-specific sliding resistance value of the comparative test 2 by making the present product, invention product, and comparative product into a sample. It is a graph which shows the analysis result of the displacement and sliding resistance value of the plunger of the comparative test 3 by making the present product and invention into a sample. It is a figure which shows other embodiment of this invention, and is a sectional side view which expands and shows the front-end | tip part of a gasket and a plunger. It is a figure which shows other embodiment of this invention, and is a bottom view which expands and shows a gasket. It is a figure which shows other embodiment of this invention, and is a top view which expands and shows a plunger.

Hereinafter, an embodiment for carrying out the present invention will be described taking the illustrated embodiment as an example. 1 is a side view showing a syringe of the present invention, FIG. 2 is a side view showing an enlarged gasket, FIG. 3 is a bottom view showing the gasket enlarged, and FIG. 4 is the same as above, and FIG. It is a sectional side view which expands and shows a part.

The syringe 1 of the present invention is used as an example by being attached to a continuous infusion device (not shown). For example, in the case of the syringe 1 in which 20 ml of liquid L is injected into the barrel 3, the liquid L takes about 5 hours. It is designed to be continuously injected into the body automatically. The syringe 1 includes a barrel 3 that injects a liquid L, a plunger 5 that pushes out the liquid L injected into the barrel 3, and a gasket 9 that is attached to the tip 7 of the plunger 5.

The barrel 3 is a transparent cylindrical container member whose one end is closed, and is formed of a hard plastic material such as polypropylene or cyclic polyolefin as an example.
On the other end of the barrel 3 that is opened, a finger hook 11 that protrudes outward in a flange shape is formed. In addition, as an example, the finger-hanging part 11 is formed so as to protrude a lot in the vertical direction, and is configured so that a finger is hung on the protruding part.

On the other hand, a nozzle portion 15 having a diameter smaller than that of the peripheral body portion 13 of the barrel 3 is formed on one end face of the barrel 3 that is closed. Further, a plug 17 is attached to the nozzle portion 15 when not in use as shown in FIG. 1, and the opening 19 of the nozzle portion 15 is sealed.
The plunger 5 is formed of a rigid body such as a hard plastic material similar to the barrel 3. The plunger 5 includes a rod 21 to be inserted into the peripheral body portion 13 of the barrel 3 and a disc-shaped pressing plate 25 as an example formed at the base end portion 23 of the rod 21. Further, the distal end portion 7 of the plunger 5 is provided with a male screw portion 27 for attaching the gasket 9 and a support convex portion 33 that contacts the inner wall surface 31 of the top surface portion 29 of the gasket 9 and supports the gasket 9. It has been.
The outer diameter D1 of the support protrusion 33 is smaller than the root diameter D2 of the male screw portion 27.

The gasket 9 is made of a flexible elastic material such as synthetic rubber. The gasket 9 is a cap-shaped member with the top surface portion 29 closed, and the top surface portion 29 has an umbrella shape with a raised center. A body 35 extending toward the plunger 5 is integrally formed on the periphery of the top surface 29.
In addition, a first annular protrusion 39 that is in sliding contact with the inner peripheral surface 14 of the peripheral barrel portion 13 of the barrel 3 is provided on the outer peripheral surface 37 of the barrel portion 35 at a position near the top surface portion 29.
The sliding contact surface of the first annular protrusion 39 is formed by a curved surface portion having no width B in the height direction H of the gasket 9.

Further, the outer peripheral surface 37 of the barrel portion 35 is provided with a third annular protrusion 43 that is slidably in contact with the inner peripheral surface 14 of the peripheral barrel portion 13 of the barrel 3 at a position on the opened skirt portion 41 side. Similarly, a second annular protrusion 45 is provided at an intermediate position between the third annular protrusion 43 and the first annular protrusion 39 so as to be in sliding contact with the inner peripheral surface 14 of the peripheral body 13 of the barrel 3.
The sliding contact surface of the second annular protrusion 45 is formed by a curved surface portion having no width B in the height direction H of the gasket 9, similar to the sliding contact surface of the first annular protrusion 39. The slidable contact surface of the annular protrusion 43 is constituted by a straight body portion having a width B in the height direction H of the gasket 9.

Incidentally, in the present embodiment, the top portions (peaks) of the first annular protrusion 39, the second annular protrusion 45, and the third annular protrusion 43 are defined as a first peak P1, a second peak P2, and a third peak P3. As an example, the diameter of each peak is set to 20.6 mm.
Moreover, the diameter D3 of the outer peripheral surface 37 of the trunk | drum 35 is set to 19.8 mm as an example, and the thickness of the trunk | drum 35 is made thicker than the conventional gasket.

Further, in the inner space of the gasket 9, a female screw portion 47 that is screwed with the male screw portion 27 provided at the distal end portion 7 of the plunger 5 is engraved on the inner peripheral surface of the trunk portion 35, and the top surface portion. 29 is provided with a receiving recess 49 having an inner diameter D5 that is smaller than the inner diameter D4 of the female thread portion 47 that receives the support convex portion 33.
Incidentally, in the present embodiment, the inner diameter D4 of the female screw portion 47 is set to 11.6 mm, and the inner diameter D5 of the receiving recess 49 is set to 9.6 mm.

In addition, four projections 51 having an oval shape in a bottom view are provided on the end surface of the body portion 35 on the skirt portion 41 side as an example at intervals of 90 °.
When such a gasket 9 is attached to the distal end portion 7 of the plunger 5, the male screw portion 27 is screwed into the female screw portion 47 and screwed, and the support convex portion 33 is fitted into the receiving concave portion 49. Together, they are in contact with the inner wall surface 31 of the top surface portion 29.

Based on the above configuration, the operation and effect of the syringe 1 according to the above embodiment will be described with reference to FIGS.
FIG. 6 is an enlarged side sectional view showing the current gasket and the tip of the plunger, and FIG. 7 shows the pushing amount and sliding resistance value of the plungers of the current product, the invention product, and the comparative product in a state where no internal pressure is applied. FIG. 8 is a graph showing the sliding resistance value for each peak, and FIG. 9 is the plunger push-in amount and sliding resistance of the current product, the invention product, and the comparative product, with the internal pressure applied. FIG. 10 is a comparison table showing the overall sliding resistance value and the sliding resistance value by peak.

(1) Comparative test 1 (see FIGS. 7 and 8)
In Comparative Test 1, the relationship between the plunger push-in amount and the sliding resistance value and the sliding resistance value for each peak were analyzed for three samples of the current product, the invention product, and the comparative product, and the analysis results were compared. Further, the syringe 100 according to the current product and the comparative product are both in the shape shown in FIG. 6, the diameter of the first peak P1 is 20.55 mm, the diameter of the second peak P2 is 20.35 mm, and the diameter of the third peak P3 is 20. 6 mm and the diameter D3 of the outer peripheral surface 37 of the body portion 35 is 19.4 mm. The comparative product uses the barrel 3 made of the material a, and the current product uses the barrel 3 made of the material b.
The barrel 3 made of material a is made of polypropylene and has an elastic modulus of 1350 MPa, a wall thickness of 0.95 mm, the inner diameter of the peripheral barrel 13 is 20.1 mm, and the barrel 3 of material b is made of cyclic polyolefin and has an elastic modulus of 3200 MPa and a wall thickness. 1.1 mm and the inner diameter of the circumferential barrel 13 is 20.1 mm.

Further, when the syringe 100 according to the current product using the barrel 3 of the material b is used, the material b is calculated based on the friction coefficient μ = 0.5, which is obtained by calculating the friction coefficient μ at which the sliding resistance value becomes 25N. A comparative test was conducted between the current product using the barrel 3 of the present invention, the invention according to the present embodiment shown in FIGS. 1 to 4 to which the barrel 3 of the material b was applied, and the comparative product using the barrel 3 of the material a. Carried out.

The relationship between the pushing amount of the plunger 5 and the sliding resistance value is as shown in FIG. 7, and there is a large difference between the current product using the barrel 3 made of the material b and the comparative product using the barrel 3 made of the material a. Although not seen, a significant improvement (decrease) in the sliding resistance value was confirmed in the invention using the barrel 3 of the material b.
In addition, the sliding resistance value of the current product using the barrel 3 of the material b is 25.1N, the sliding resistance value of the comparative product using the barrel 3 of the material a is 24.4N, and the barrel 3 of the material b is used. The sliding resistance value of the product of the invention was 17.4N.

Further, the sliding resistance value for each peak of the first peak P1, the second peak P2, and the third peak P3 is as shown in FIG. 8, and the sliding resistance value for each peak is the same result as described above. was gotten.
Accordingly, the sliding resistance of the gasket 9 is less influenced by the difference in the material of the barrel 3 and greatly changes depending on the difference in the shape of the gasket 9 and the tip 7 of the plunger 5, and the gasket 9 is devised by devising these shapes. It was found that the sliding resistance was reduced.
In addition, the sliding resistance value of the product according to the present embodiment is 17.4N as described above, clears the target value of 20N, and can contribute to further improvement of the slidability of the gasket 9. Was confirmed.

(2) Comparative test 2 (see FIGS. 9 and 10)
In comparative test 2, an internal pressure of 0.045 MPa was applied to the same three types of specimens as in comparative test 1, and the pushing amount of the plunger 5 and the sliding resistance value under the condition of the friction coefficient μ = 0.3 And the sliding resistance value by peak were analyzed, and the analysis results were compared.

The relationship between the pushing amount of the plunger 5 and the sliding resistance value is as shown in FIG. 9, and the current product using the barrel 3 made of the material b and the barrel 3 made of the material a are used as in the comparative test 1. Although no significant difference was observed in the comparative product, significant improvement (decrease) in the sliding resistance value was confirmed in the invention using the barrel 3 made of the material b.
The sliding resistance value of the current product using the barrel 3 of the material b is 29.8N, the sliding resistance value of the comparative product using the barrel 3 of the material a is 29.5N, and the barrel 3 of the material b is used. The sliding resistance value of the product of the invention was 25.3N.

The peak-specific sliding resistance values of the first peak P1, the second peak P2, and the third peak P3 are as shown in FIG. 10, and the peak-specific sliding resistance values are the same as described above. As a result, a significant decrease in the sliding resistance value was confirmed particularly at the first peak P1 and the second peak P2.
Therefore, as in the comparative test 1, the sliding resistance of the gasket 9 is less affected by the difference in the material of the barrel 3 and greatly changes depending on the difference in the shapes of the gasket 9 and the tip portion 7 of the plunger 5. It was confirmed that the invention according to the embodiment can contribute to further improvement of the slidability of the gasket 9.

(3) Comparative test 3 (see FIG. 11)
In the comparative test 3, the relationship between the displacement of the plunger 5 and the sliding resistance value when the two samples of the current product and the invention product were used for continuous injection by a pump was analyzed, and the analysis results were compared.

The relationship between the displacement of the plunger 5 and the sliding resistance value is as shown in FIG. 11, and since the current product is jagged (sawtooth change) with a large amplitude, the deformation of the peak of the sliding resistance value is large. On the other hand, it was confirmed that the deformation of the peak of the sliding resistance value was small because the invention product was jagged (sawtooth change) with a small amplitude.

Therefore, in the continuously injecting syringe, the invention according to the present embodiment can obtain a smoother sliding characteristic due to the difference in slidability with respect to the awkward movement of the current product, and the gasket 9 can be made smoother. It has been confirmed that it can contribute to the improvement of slidability.

As described above, according to the present embodiment, the following effects can be obtained.
That is, according to the syringe 1 according to the present embodiment, the gasket 9 is smoother than the current product and the comparative product with a very simple configuration that only partially changes the shape of the gasket 9 and the shape of the tip portion 7 of the plunger 5. Slidability and excellent liquid tightness or air tightness can be obtained.

In addition, the syringe 1 of this invention is not limited to the thing of the said embodiment, The design change within the summary of the invention is possible. For example, the gasket 9 may not necessarily include the first annular protrusion 39, the second annular protrusion 45, and the third annular protrusion 43. Accordingly, only the first annular protrusion 39 is provided, or two annular protrusions of the first annular protrusion 39 and the second annular protrusion 45 to the third annular protrusion 43 are provided, or The gasket 9 may be provided with four or more annular protrusions.
Further, the shape and diameter of the first annular protrusion 39, the second annular protrusion 45, and the third annular protrusion 43, the diameter D3 of the outer peripheral surface 37 of the body 35, the outer diameter D1 and the height of the support protrusion 33 Alternatively, the inner diameter D5 of the receiving recess 49 is not limited to that of the above embodiment, and various changes can be made. An example is shown in FIG.

FIG. 5 is a side sectional view showing another embodiment in which the shape of the first annular protrusion of the gasket is different from the diameter of the second annular protrusion. That is, in the embodiment shown in FIG. 5, the first annular projection 39 of the gasket 9 is different from the embodiment shown in FIGS. 1 to 4, and the sliding contact surface of the first annular projection 39 is different from that of the gasket 9. It is constituted by a straight body portion having a width B in the height direction H.
In the embodiment shown in FIG. 5, the diameter of the second annular protrusion 45 of the gasket 9 is set to 20.3 mm, which is smaller than the diameter 20.6 mm of the first annular protrusion 39. The syringe 1A using the gasket 9 having such a configuration also has the desired slidability, liquid-tightness or air-tightness of the gasket 9 as in the syringe 1 shown in FIGS. Due to the presence of the straight body portion provided on the first annular protrusion 39, the structure is more excellent in liquid tightness or air tightness than the syringe 1 shown in FIGS.

Although not shown, the outer diameter of the support convex portion may be the same as the valley diameter of the male screw portion, and a receiving concave portion having the same inner diameter as the inner diameter of the female screw portion may be formed. . Other configurations are the same as those in the above embodiment, and the description thereof is omitted.
According to the said structure, since the receiving recessed part same as the internal diameter of an internal thread part is provided in the top | upper surface part of the gasket, the desired slidability of a gasket can be ensured, without enlarging the rubber repulsion force of a gasket.
In addition, since the support convex portion provided at the tip of the plunger is fitted into the receiving concave portion, the amount of deformation at the first annular projection of the gasket can be reduced, and the desired liquid tightness of the gasket can be achieved. Moreover, airtightness can be obtained.
Therefore, as in the case of the above-described embodiment, the smooth slidability of the gasket that exceeds the current product and the comparative product by an extremely simple configuration that only modifies the shape of the gasket and the shape of the tip of the plunger, Excellent liquid tightness or air tightness can be obtained.

Further, as shown in FIGS. 12 to 14, still other embodiments can be employed. In this embodiment, a fitting portion 53 is formed on the support convex portion 33 of the plunger 5, a projection 55 is provided on the inner peripheral surface of the fitting portion 53, and a receiving concave portion of the gasket 9. A convex portion 57 is formed at 49, and a groove portion 59 that engages with the protruding portion 55 is provided at the convex portion 57. Other configurations are the same as those in the above embodiment, and the description thereof is omitted.
According to the above configuration, when the male screw portion 27 of the plunger 5 is screwed into the female screw portion 47 of the gasket 9 and screwed, the support convex portion 33 of the plunger 5 is fitted into the receiving concave portion 49 and the top surface portion 29. The protrusion 55 on the inner peripheral surface of the fitting portion 53 gets over the flexible convex portion 57 and is engaged with the groove 59 to be fixed.

Accordingly, the syringe 1B using the gasket 9 having such a configuration also has the desired slidability, liquid-tightness or air-tightness of the gasket 9 in the same manner as the syringe 1 shown in FIGS. The function of preventing loosening between the gasket 9 and the plunger 5 due to vibration during production or transportation can be exhibited.

INDUSTRIAL APPLICABILITY The present invention can be used in the manufacture and field of use of a syringe including a barrel for injecting liquid, a plunger for pushing out the liquid injected into the barrel, and a gasket attached to the tip of the plunger. It has applicability when it is desired to improve the mobility and improve the liquid tightness or air tightness.

1 Syringe (Invention)
DESCRIPTION OF SYMBOLS 1A Syringe 1B Syringe 3 Barrel 5 Plunger 7 Tip part 9 Gasket 11 Finger hook part 13 Circumferential body part 14 Inner peripheral surface 15 Nozzle part 17 Plug 19 Opening 21 Rod 23 Base end part 25 Pressing plate 27 Male thread part 29 Top surface part 31 Inner wall surface 33 Convex part 35 Body part 37 Outer peripheral surface 39 First annular protrusion 41 Bottom part 43 Third annular protrusion 45 Second annular protrusion 47 Female thread part 49 Receiving recessed part 51 Protrusion 53 Fitting part 55 Protruding part 57 Convex part 59 Groove 100 Syringe (current product)
L liquid D1 outer diameter D2 valley diameter P1 first peak P2 second peak P3 third peak D3 diameter D4 inner diameter D5 inner diameter H height direction B width

Claims (6)

1. In a syringe comprising a barrel for injecting liquid, a plunger for pushing out the liquid injected into the barrel, and a gasket attached to the tip of the plunger,
   A male screw portion for attaching the gasket to the tip of the plunger, and a support having a diameter equal to or smaller than the valley diameter of the male screw portion that contacts the inner wall surface of the top surface portion of the gasket and supports the gasket A convex part is provided,
   In the inner space of the gasket, a female screw portion that is screwed with the male screw portion is engraved on the inner peripheral surface, and the inner diameter of the female screw portion that receives the support convex portion on the top surface portion is the same as or smaller than the inner diameter. Receiving recesses are provided,
   The syringe is characterized in that the outer peripheral surface of the gasket is provided with a first annular protrusion that is in sliding contact with the inner peripheral surface of the barrel at a position near the top surface.
2. The syringe according to claim 1, wherein the receiving recess is provided in an inner space of the gasket corresponding to a portion where the first annular protrusion is provided.
3. The outer peripheral surface of the gasket is provided with a third annular protrusion that is in sliding contact with the inner peripheral surface of the barrel at a position on the open hem side, and the third annular protrusion and the first annular protrusion The syringe according to claim 1 or 2, wherein a second annular protrusion is provided in the intermediate space in sliding contact with the inner peripheral surface of the barrel.
4. 4. The sliding contact surface of the first annular protrusion that is in sliding contact with the inner peripheral surface of the barrel is formed by a curved surface portion having no width in the height direction of the gasket. The syringe according to 1.
5. The sliding contact surface of the first annular protrusion that is in sliding contact with the inner peripheral surface of the barrel is formed by a straight body portion having a width in the height direction of the gasket. The syringe according to 1.
6. A fitting portion is formed on the support convex portion of the plunger, a protrusion is provided on the inner peripheral surface of the fitting portion, a convex portion is formed in the receiving recess of the gasket, and the convex The syringe according to any one of claims 1 to 5, wherein a groove portion that engages with the protruding portion is provided in the shape portion.

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