US20010041875A1 - Medical anesthetic needle - Google Patents

Abstract

A medical anesthetic needle (1) is provided that includes an inner needle (3) of a straight needle shape, having a pencil-pointed tip (4), and an outer needle (2) of a straight tubular shape, having the inner needle inserted thereinto and therethrough from the rear end thereof. A foremost-end part (12) of a hollow, truncated conical shape or the like of the outer needle (2) is formed so that the minimum inner diameter thereof is smaller than the outer diameter of the main body (5) of the inner needle (3). When the inner needle (3) is inserted into and through the outer needle (2), the circumferential fore-end edge of the foremost-end part (12) is in close contact with the circumferential surface of the tip (4) or the main body (5) of the inner needle (3), and no gaps are thus formed therebetween. Therefore, when needled, a patient's nervous tissue is unlikely to be nipped in a gap between the inner and outer needles to cause pain to the patient.

Description

TECHNICAL FIELD
• The present invention relates to a medical anesthetic needle including an inner needle, having a pencil-pointed tip, and a tubular outer needle, having the inner needle inserted thereinto and therethrough.[0001]
BACKGROUND TECHNOLOGY
• Conventional inner needles, having a pencil-pointed tip ([0002]4), of anesthetic needles, were inserted into and through a straight-tubular outer needle having its fore-end section formed in a tapered shape tapering off towards the end thereof, i.e., a hollow, truncated conical shape. The fore-end part of the outer needle was deburred, but relatively sharp, therefore resulting in patients often feeling pain when needled. An anesthetic needle for easing such pain is disclosed in Japanese Utility Model No. 3018360 where the fore-end section of a tubular outer needle has the edge formed round on the right-angled cut fore-end face thereof
• With an anesthetic needle with the fore-end section of a tubular outer needle thereof having the edge formed round on the right-angled cut fore-end face, the patient's pain when needled was eased, in comparison with an anesthetic needle having a sharp-edged fore-end section of its tubular outer needle. However, the extent of its pain easing was not enough.[0003]
• The cause of a patient feeling pain when needled, even though the fore-end part of the tubular outer needle is formed round, is a gap between the fore-end section of its outer needle and its inner needle. The difference between the outer diameter of the inner needle and the inner diameter of the outer needle is around 0.05 to 0.1 mm, depending on the needle size. Thus, a gap of a maximum width of 0.05 to 0.1 mm may be formed since the inner needle tends to be decentered relative to the outer needle when needling. When a patient's nervous tissue is nipped in this gap, the patient feels pain.[0004]
DISCLOSURE OF THE INVENTION
• An object of the present invention is to provide a medical anesthetic needle including an inner needle of a straight needle shape, having a pencil-pointed tip, and an outer needle of a straight tubular shape, having the inner needle inserted thereinto and therethrough, wherein the medical anesthetic needle is capable of easing enough a patient's pain when needled.[0005]
• To accomplish the object, a medical anesthetic needle, according to claim 1, of the present invention includes an inner needle of a straight needle shape, having a pencil-pointed tip, and an outer needle of a straight tubular shape, having the inner needle inserted thereinto and therethrough, wherein the fore-end part of the outer needle is formed in a tapered shape tapering off towards the end thereof, i.e., a hollow, truncated conical shape or the like. Furthermore, the foremost section of the fore-end part is formed as a foremost-end part so that the minimum inner diameter of the foremost-end part is smaller than the outer diameter of a section of the inner needle excluding the tip, i.e., a main body of the inner needle.[0006]
• The foremost-end part of the outer needle may be applied only with deburring so that the edge of its right-angled cut fore-end face is left sharp. If required, the foremost-end part may have the edge of its right-angled cut fore-end face worked to be round.[0007]
• With an anesthetic needle of the present invention, when a patient is needled, the foremost-end part of its outer needle is located on the circumferential surface of either a section near the root of the tip or the main body of the inner needle where the outer diameter of the inner needle is equal to or greater than the minimum inner diameter of the foremost-end part of the outer needle. Thus, no gaps, are formed at all between the foremost-end part of the outer needle and the inner needle. Therefore, the patient is not likely at all to feel pain caused by the patient's nervous tissue being nipped between the outer and inner needles.[0008]
BRIEF DESCRIPTION OF THE DRAWINGS
• FIG. 1 is a plan view showing an external appearance of a medical anesthetic needle of an embodiment of the present invention,[0009]
• FIG. 2 is a longitudinal sectional view showing the fore-end section of the medical anesthetic needle of FIG. 1, as enlarged,[0010]
• FIG. 3 is a view showing a working process for the fore-end section of the outer needle of FIG. 2, and[0011]
• FIG. 4 is a view corresponding to FIG. 2, of another embodiment.[0012]
BEST EMBODIMENTS OF THE INVENTION
• As shown in FIG. 1, an anesthetic needle[0013]1 includes a hollowouter needle2 made of stainless steel tube and a solidinner needle3 made of stainless steel bar. The rear end of theouter needle2 is fixed to aneedle base6. Theinner needle3 is inserted through a needle hole of theneedle base6 into theouter needle2. Atip4 of theinner needle3 that protrudes from the fore end of theouter needle2 is of a pencil-pointed shape, i.e., a conical shape. Acap7 is fixed to the rear end of theinner needle3, where a spiral-shapedfemale screw part9 is formed on the internal circumferential surface of thecap7. A spiral-shapedmale screw part8 that engage's with thefemale screw part9 of thecap7, is disposed on a section protruding from the rear end of theneedle base6. When inserting the anesthetic needle, themale screw part8 is screwed into thefemale screw part9 to the limit, to define the axial limit position of theinner needle3 relative to theouter needle2.
• As shown in FIG. 2, the[0014]inner needle3 includes amain body5 of a round-column shape having a diameter d, and thetip4 of the conical shape protruding axially from themain body5 towards the fore-end side thereof. Theouter needle2 includes amain body10 of a round cylindrical shape having an inner diameter D slightly greater than the diameter d of themain body5 of the inner needle, a fore-end part11 of a tapered shape tapering off and extending towards the fore-end side thereof, i.e., a hollow, truncated conical shape, and a foremost-end part12 of a tapered shape further tapering off and extending from the fore-end part11 towards the fore-end side thereof, i.e., a hollow, truncated conical shape. While the inner diameter of the fore-end part11 is constant and equal to the inner diameter of themain body10, the inner diameter of the foremost-end part12 is gradually reduced along the axis thereof towards the fore-end side thereof with the minimum inner diameter thereof being slightly smaller than the outer diameter d of themain body5 of the inner needle. While the outer diameter of the fore-end part11 is equal to the outer diameter of themain body10 at the joining section thereof with themain body10, the outer diameter is continuously reduced from that section towards the fore-end side. While the outer diameter of the foremost-end part12 is equal to the outer diameter of the fore-end part11 at the joining section thereof with the fore-end part11, the outer diameter is continuously reduced from that section towards the fore-end side, and is equal to the inner diameter at the foremost-end. The axial length of the foremost-end part12 is smaller the axial length of the fore-end part11. The inclination angle of the internal circumferential conical surface of the foremost-end part12 is equal to or slightly, greater than the inclination angle of the conical surface of thetip4 of theinner needle3.
• FIGS. 1 and 2 show a state of the[0015]female screw part9 of thecap7 being screwed onto themale screw part8 of theneedle base6 to the limit, i.e., the state of the anesthetic needle1 when needling, where the foremost-end part12 is located on the circumferential surface, having an outer diameter d₁, of thetip4 of theinner needle3. Although the outer diameter d₁is smaller than the outer diameter d of themain body5 of the inner needle, the outer diameter d₁is equal to or greater than the minimum inner diameter D₁, which will be described later, of the foremost-end part12 of the outer needle. Therefore, the circumferential fore-end edge of the foremost-end part12, having an inner diameter equal to the minimum inner diameter, comes in close contact with the entire circumferential surface near the root of thetip4, having the diameter d₁, with circumferential fore-end edge either being kept as it is or elastically expanded. As a result, no gaps are formed between the circumferential surface of thetip4 and the foremost-end part12.
• FIG. 3 is a view showing a process of forming the fore-end part[0016]11 and the foremost-end part12 of theouter needle2. The corner of a fore-end part of a stainless steel tube M having an inner diameter D, as shown in FIG. 3(a), is machine-cut to form amain body10 of a hollow, round cylindrical shape and a sharp-edged fore-end part11 of a hollow, truncated conical shape, as shown in FIG. 3(b). At this time, burr caused on the foremost end is removed by grinding. If required, the foremost end is finished so that the foremost end is round in a sectional plane containing the axis. Next, as shown in FIG. 3(c), the foremost-end section of the fore-end part11 is roll-worked by squeezing so that the minimum inner diameter D₁is obtained that is smaller than the outer diameter of the main body of the inner needle, thereby forming the foremost-end part12 of a hollow, truncated conical shape.
• When a patient is needled with the anesthetic needle of FIG. 2, the internal circumferential fore-end edge of the foremost-[0017]end part12 of theouter needle2 comes in close contact with the circumferential surface, on the entire circumference thereof, of the conical-shaped tip4 of theinner needle3, and no gaps are thus formed between the foremost-end part12 of theouter needle2 and thetip4 of theinner needle3; therefore, the patient's nervous tissue is not likely at all to be nipped in a gap therebetween to cause any particular pain to the patient.
• Although the anesthetic needle of FIG. 2 is arranged such that the foremost-[0018]end part12 of theouter needle2 is located on thetip4 when the cap at the rear end of the inner needle is engaged with the needle base at the rear end of the outer needle, it also can be arranged such that the foremost-end part12 of theouter needle2 is located not on thetip4 but on themain body5, positioned behind thetip4, of theinner needle3 when the cap at the rear end of the inner needle is fully engaged to the limit with the needle base at the rear end of the outer needle so as to keep the inner needle from coming out of the outer needle.
• With an anesthetic needle shown in FIG. 4, when needling, since the fore-end section of the[0019]outer needle2 has its inner diameter expanded due to elastic deformation, and the circumferential fore-end edge of the foremost-end part12 comes in close contact with the circumferential surface of themain body5 of theinner needle3, due to the resilience, no gaps are thus formed at all between the foremost-end part12 and theinner needle3. Therefore, similarly to the embodiment described earlier, the patient's nervous tissue is not likely to be nipped in a gap between theouter needle2 andinner needle3, whereby the patient cannot feel any particular pain by any means.

Claims (3)

What is claimed is:

1. A medical anesthetic needle (1) including an inner needle (3) of a straight needle shape, having a pencil-pointed tip (4), and an outer needle (2) of a straight tubular shape, having said inner needle inserted thereinto and therethrough from the rear end thereof, said medical anesthetic needle (1) CHARACTERIZED IN THAT:

said tip (4), having a conical shape, of said inner needle (3) extends axially from a main body (5) of a solid round-column shape towards the fore-end side;

said outer needle (2) includes:

a main body (10) of a hollow round-column shape having an inner diameter (D) greater than the outer diameter (d) of said main body (5) of said inner needle;

a fore-end part (11) of a hollow, truncated conical shape or the like that extends axially from said main body (10) towards the fore-end side of said outer needle; and

a foremost-end part (12) of a hollow, truncated conical shape or the like that further extends axially from said fore-end part towards the fore-end side of said outer needle;

wherein, while the inner diameter of said fore-end part (11) is constant and equal to the inner diameter of said main body (10), the inner diameter of said foremost-end part (12) is reduced along the axis thereof towards the fore-end thereof with the minimum inner diameter (D₁) of said foremost-end part (12) being smaller than the outer diameter (d) of said main body (5) of said inner needle.

2. A medical anesthetic needle according to

claim 1

, CHARACTERIZED IN THAT the circumferential fore-end edge of said foremost-end part (12) is located on the circumferential surface of said tip (4) of said inner needle when said inner needle (3) is inserted into and through said outer needle (2) all the way to the limit.

3. A medical anesthetic needle according to

claim 1

, CHARACTERIZED IN THAT the circumferential fore-end edge of said foremost-end part (12) is located on the circumferential surface of said main body (5) of said inner needle when said inner needle (3) is inserted into and through said outer needle (2) all the way to the limit.

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