JPS63194641A - Blood sampler - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] [Industrial application field] The present invention relates to a blood sampling device used for blood sampling.

[Prior Art] Conventionally, various blood sampling instruments have been used, for example, during clinical tests and biochemical tests. Blood sampling devices consisting of a blood sampling tube holder equipped with a needle are often used.

A blood collection tube consists of a tube body and a stopper that seals the opening of the tube.The tube body is made of glass, synthetic resin, etc., and the stopper is generally made of a rubber material such as vulcanized butyl rubber. teeth,
It is kept under reduced pressure. The blood collection tube holder is a cylindrical body into which a blood collection tube can be inserted from the rear end, and a puncture needle is attached to the front end. The puncture needle has a blood collection needle part that protrudes forward and is punctured into the human body, etc., and a hollow needle part that protrudes backward, and a hub is provided in the middle part of the blood collection needle part and the hollow needle part.
This hub attaches it to the blood collection tube holder. Also,
The puncture needle is provided with an elastic sheath (for example, a rubber tip) that encloses the hollow needle.

When blood is collected using a blood sampling device having such a configuration, first, the blood sampling needle portion, which is the tip of the puncturing needle of the blood sampling tube holder, is punctured into a blood vessel. Next, the blood collection tube is inserted into the blood collection tube holder until the tip of the hollow needle portion, which is the rear end of the puncture needle, pierces the stopper of the blood collection tube and reaches the inside of the blood collection tube. At this time, the rubber tip is folded into a bellows shape between the stopper and the blood collection tube holder.

If the frictional force between the stopper and the hollow needle is weak, the blood collection tube may be pushed backwards and detached (hereinafter referred to as "kick pack") due to the repulsive force of the rubber tip. For this reason, a stopper that prevents this kick pack from occurring has been used. However, when such a plug is used, there is a problem in that the puncture resistance of the hollow needle portion to the plug is large and the plug cannot be easily punctured.

Therefore, in order to solve this problem, the applicant has
A blood sampling device as shown in Japanese Unexamined Patent Publication No. 61-90643 has been proposed. This blood sampling device is shown in FIG. In the blood sampling device shown in FIG.
1-) Bar tk E A r11ヰ1-Candy roll W side Rakuhika $
The blood collection tube holder 52 has a puncture needle 54 at its tip. Further, at the rear end of the puncture needle 54,
A rubber depth 58 is encapsulated therein, and the outer surface of the distal end portion of the tube body 50 is provided with two axially extending ribs 60. Correspondingly, the inner diameter of the tip of the blood collection tube holder is a reduced diameter portion 62. Kick pack is prevented by contacting and engaging the rib 60 with the reduced diameter portion 62 of the holder. Furthermore, in order to solve the above-mentioned problems, the present applicant has proposed Japanese Patent Application Laid-Open No. 60-23213
We are proposing a blood sampling device as shown in No. 4. This is provided with ribs extending in the axial direction on the outer surface of the rubber stopper that forms the stopper of the blood collection tube, and the ribs come into contact with the inner surface of the blood collection tube holder, and the frictional force thereof prevents kick-packing. Furthermore, in order to solve the above problems, the applicant has:
A blood sampling device as shown in Japanese Patent Application Laid-Open No. 61-90644 has been proposed. In this method, a protruding rib is provided on the inner surface of the blood collection tube holder, and the rib comes into contact with the tube body or plug of the blood collection tube, thereby preventing kick-pack.

[Problems to be Solved by the Invention] In the blood sampling device described above, the blood sampling tube can be inserted into the blood sampling tube holder more easily than the conventional device that prevents kick-pack by the frictional force between the rubber stopper and the hollow needle. However, since kick-pack is prevented by the frictional force between the stopper or tube constituting the blood collection tube and the inner surface of the blood collection tube holder, it requires a considerable amount of force to insert the blood collection tube into the blood collection tube holder. Considerable force was also required to remove the blood vessel.

SUMMARY OF THE INVENTION An object of the present invention is to provide a blood sampling device that allows blood sampling tubes to be easily inserted into and removed from a blood sampling tube holder, and that can prevent kick-packing.

[Means for solving the problem] The solution to the above problem consists of a blood collection tube whose open end is sealed with a sealing member, a blood collection needle protruding to one side, and a hollow needle protruding to the other side. The puncture needle has a needle tube and an elastic sheath body enclosing the hollow needle portion, and the puncture needle is a hollow body with an open rear end, and the blood collection tube can be inserted and removed from the rear end side, and the puncture needle A blood collection device comprising a blood collection tube holder with a blood collection needle protruding from the tip of the hollow body and the puncture needle provided at the tip of the hollow body such that the hollow needle protrudes into the hollow body, The blood collection tube holder is capable of inserting the blood collection tube without substantially contacting the inner surface of the blood collection tube holder, and the blood collection tube holder and the blood collection tube are inserted into the blood collection tube holder. A pair of locking members that engage in a state in which the sealing member is pierced by the hollow needle and have a locking force that is greater than the repulsive force of the elastic sheath when the elastic sheath is compressed in the axial direction. It is a blood sampling device with a stop means.

The pair of locking means provided on the blood collection tube holder and the blood collection tube may prevent the blood collection tube from tilting, for example, after the sealing member of the blood collection tube inserted into the blood collection tube holder is punctured by the hollow needle portion. and/or engaged by rotation. Further, it is preferable that the blood collection tube consists of a tube with an open end and a sealing member that seals the opening, and that the inside of the blood collection tube is under reduced pressure. Preferably, the locking means for the blood collection tube is provided on the tube body.

Preferably, the locking means for the blood collection tube is a rib that projects outward from the outer surface of the blood collection tube.

The sealing member of the blood collection tube is preferably in the form of a film that has gas barrier properties and sealing properties that allow the puncture hole to be closed after the punctured hollow needle is removed. The locking means of the blood collection tube holder is, for example, a recess provided on the inner surface of the blood collection tube holder. The locking means of the blood collection tube holder is, for example, a protrusion that projects inward from the inner surface of the blood collection tube holder. The locking means of the blood collection tube holder is, for example, a notch provided in the blood collection tube holder.

The blood sampling device of the present invention will be explained using an embodiment shown in FIG.

a puncture needle 3 having a blood collection tube 1 which is sealed, a needle tube consisting of a blood collection needle part 7 protruding on one side and a hollow needle part 8 protruding on the other side, and an elastic sheath body 9 enclosing the hollow needle part 8; It is a hollow body with an open rear end, and a blood collection tube l can be inserted detachably from the rear end side, and the blood collection needle part 7 of the puncture needle 3 protrudes from the tip of the hollow body, and the hollow needle part 8 is inserted into the hollow body. A blood collection tube holder 2 equipped with a puncture needle 3 at the tip of a hollow body so as to protrude into the body.
A blood collection device consisting of a blood collection tube holder 2, in which the blood collection tube 1 can be inserted without substantially contacting the inner surface of the blood collection tube holder 2, and the blood collection tube holder 2 and the blood collection tube 1, The elastic sheath body when the sealing member 10 of the blood collection tube I inserted into the blood collection tube holder 2 is pierced and engaged with the hollow needle part 8, and the elastic sheath body 9 is compressed in the axial direction. It has a pair of locking means 5.6 having a locking force greater than the repulsion force of 9.

Specifically, the blood sampling device of the present invention consists of a blood sampling tube 1 and a blood sampling tube holder 2 into which the blood sampling tube 1 can be inserted, and a puncture needle 3 is attached to the tip of the blood sampling tube holder 2. There is.

The blood collection tube 1 consists of a bottomed tube body 4 with one end open and a sealing member 10 that airtightly seals the opening, and the inside of the blood collection tube 1 is in a reduced pressure state. The material for the tube body 4 is preferably a material with high gas barrier properties, and glass, polyvinyl chloride, polyethylene terephthalate, etc. are preferably used.

In addition, if the tube body 4 is made of a material with low gas barrier properties, the surface (for example, the outer surface) of the tube body 4 may be made of polyvinyl vinyl.
It is preferable to coat with a film having gas barrier properties such as alcohol or ethylene-vinyl alcohol copolymer.

In addition, when the tube body 4 is formed of polyvinyl chloride, an elution inhibitor is applied to the inner surface of the tube body 4 to prevent the stabilizer contained in the vinyl chloride from eluting into the collected blood. Coating is preferred.

Furthermore, the tube body 4 has an anticoagulant such as heparin powder or EDTA-2 adhered to or housed on the inner surface, and depending on the use, a serum separating agent is housed or a coagulation accelerator is housed on the inner surface. Attached or stored.

The outer surface of the tube body 4 is provided with an annular rib projecting outward and forming a locking means 6 for the blood collection tube. This locking means 6 engages with a locking means 5 of the blood collection tube holder 2, which will be described later, to prevent the blood collection tube I from coming off from the blood collection tube holder 2. The locking means 6 of the blood collection tube may have any shape as long as it can engage with the locking means 5 of the blood collection tube holder 2. For example, a plurality of ribs are provided in the shape of a gear, one or more ribs are provided in a half-arc shape or a crescent shape, and one or more short ribs are provided extending in the axial direction of the tube body 4. Things can be considered. Preferably, it is an annular rib extending perpendicularly to the axial direction of the tube body 4 as shown in FIG. This is because it becomes easier to engage with. Also,
The shape of the surface of the rear end side of the tube body 4 of the locking means 6 of the blood collection tube is preferably flat, so that it can surely contact the locking means 5 of the blood collection tube holder 2, and the engagement can be ensured. This is because. The size of the rib forming the locking means 6 of the blood collection tube is such that the width protruding from the outer surface of the blood collection tube l is 0.51 to 5.
．． 0i+m, preferably 1.011 to 2.5 shoulder l.

The sealing member 10 airtightly attached to the opening of the tube body 4 includes:
It is a member that can be pierced by the hollow needle part 8 of the puncture needle 3 attached to the blood collection tube holder 2, and has enough strength to not be damaged by the repulsive force of the elastic sheath body 9 that encloses the hollow needle part 8. be. In addition, in the blood sampling device of the present invention, after the sealing member 10 is pierced by the hollow needle portion 8, the blood sampling tube may be tilted and/or rotated, so the frictional force between the two is limited to an extent that allows this. It needs to be something. The sealing member 10 having the above-mentioned function has a gas barrier column member with high airtightness on the lower side, a sealing member on the upper side, and both are combined in a layered manner.
An adhesive film is bonded to the lower part of the column member.

This sealing member is attached by airtightly covering the periphery of the opening of the tube body 4 with an adhesive film. Also,
The positions of the gas barrier column member and the sealing member may be reversed (in addition, the sealing member may be fixed to the surface (or back surface) of the central portion of the gas barrier column member instead of being layered. - The pillar member must be made of a material that can maintain the reduced pressure inside the tube 4, such as metal foil such as aluminum foil, resin film material such as ethylene-vinyl alcohol copolymer, polyvinylidene chloride, etc. can be used.

The sealing member needs to be made of a material that can close the puncture hole and maintain a liquid-tight state after the sealing member 1G is pierced by the hollow needle part 8 and removed. For example, it is made of a material such as natural rubber or isoprene. Rubber materials such as rubber, styrene-butadiene rubber, and silicone rubber, or resins such as thermoplastic elastomers can be used.

In addition, although the above explanation uses a film-like sealing member, the present invention is not limited to this, but it is also possible to make the center part thinner in a stopper (rubber stopper) having a conventional shape (as shown in FIG. 11), and to make the hollow needle part In addition to reducing the frictional force with the plug, at least the surface (or back surface) near the thin part of the plug, or more precisely, the entire surface exposed to the outside when attached to the pipe body, is covered with a gas barrier material. may also be used.

Further, in the above description, the tube body 4 constituting the blood collection tube 1 is provided with ribs forming the locking means 6, but the invention is not limited to this, and the locking means may also be formed using the sealing member 10. good. For example, the sealing member IO may be larger than the opening surface of the tube body 4, and the portion projecting outward from the opening surface of the tube body 4 may form the locking means. In this case, if the sealing member does not have enough hardness to engage with the locking means of the blood collection tube holder, an annular reinforcing member may be provided on the front or back side of the sealing member. It is possible to form a rib that easily engages with the locking means of the blood collection tube holder. Further, the shapes of the ribs and the reinforcing member in this case are the same as those in the case where the tube body 4 is provided with ribs.

In addition, in the above description, an example in which ribs are used as the locking means of the blood collection tube is explained, but the present invention is not limited to this. A groove may be provided, and a locking means that engages with a locking means of the blood collection tube holder may be formed on the surface of this groove on the distal end side of the blood collection tube l.

The blood collection tube holder 2 is a hollow body with an open rear end, and a puncture needle 3 is attached to the tip thereof.

The puncture needle 3 is attached by screwing the hub 11 of the puncture needle 3 into a threaded portion formed at the tip of the blood collection tube holder 2.

Furthermore, the present invention is not limited to this, and the hub of the puncture needle may be directly fixed to the blood collection tube holder.

The puncture needle 3 forms a blood collection needle part 7 that protrudes on one side and punctures the blood vessel, and a hollow needle part 8 that protrudes on the other side and pierces the sealing member 10 of the blood collection tube I to be inserted.
It has an elastic sheath body 9 that encloses it. The elastic sheath is usually a rubber chip made of rubber material.

Blood collection tube holder 2 is shaped like a blood collection tube! It is necessary that the blood collection tube 1 can be easily inserted, and it is necessary that the blood collection tube 1 can be inserted without the outer surface of the blood collection tube 1 substantially coming into contact with the inner surface of the blood collection tube holder 2. Substantially no contact (meaning the extent to which the blood collection tube 1 can tilt inside the blood collection tube holder 2 when the blood collection tube 1 is inserted into the blood collection tube holder 2, or can be easily repaired) This means that there is enough room to allow both tilting and rotation.By doing so, the blood collection tube 1 can be inserted into the holder 2 with almost no resistance. A blood collection tube holder locking means 5 is provided on the inner surface of the blood collection tube holder 2. In this embodiment, the blood collection tube holder locking means 5 extends perpendicularly to the axial direction of the blood collection tube holder 2. It is an annular recess. Fig. 2 shows the cutting 17 at the engagement 1F means of this blood collection tube holder.
FIG. 3 is a cross-sectional view of the blood collection tube holder. The locking means 5 of this blood collection tube holder engages with the locking means 6 of the blood collection tube I described above, and the blood collection tube 1 is separated from the blood collection tube holder 2 by the repulsive force of the elastic sheath 9 of the puncture needle 3. This is to prevent Therefore, the engagement force between the locking means 6 of the blood collection tube l and the locking means 5 of the blood collection tube holder 2 is
is pierced by the hollow needle portion 8 of the puncture needle 3 and has a locking force greater than the repulsive force of the elastic sheath body 9 when the elastic sheath body 9 is compressed in the axial direction by the sealing member 10. It is necessary. If it is as shown in FIG. 1, after the sealing member 10 of the blood collection tube 1 is pierced by the hollow needle part 8, a part of the rib of the locking means 6 of the blood collection tube locks the blood collection tube holder. By entering a part of the recess of the means 5, the blood collection tube l is slightly tilted with respect to the axial direction of the blood collection tube holder 2, or the blood collection tube l is slightly tilted with respect to the axial direction of the blood collection tube holder 2. By tilting, a part of the rib of the blood collection tube locking means 6 enters a part of the recess of the blood collection tube holder locking means 5, and a part of the blood collection tube locking means and the blood collection tube holder locking means are separated. The elastic sheath body 9 engages with a portion of the elastic sheath body 9 to counteract the repulsive force and prevent the blood collection tube from detaching.

The locking means 5 of the blood collection tube holder may have any shape as long as it can engage with the locking means 6 of the blood collection tube I. For example, when the locking means of the blood collection tube is a rib that protrudes like a gear, the cross section is gear-shaped and has a plurality of recesses that engage with the ribs of the locking means of the blood collection tube, and
When the locking means of the blood collection tube is an annular, half-arc or crescent-shaped protruding rib, one or more half-arc or crescent-shaped recesses that engage with the rib are provided, and the blood collection tube is When the locking means is a rib extending in the axial direction of the blood collection tube, the blood collection tube holder 2 engages with the rib.
It is conceivable to have one or more recesses extending in the axial direction. Preferably, the locking means of the blood collection tube holder is an annular recess extending perpendicular to the axial direction as shown in FIG. 1, and the locking means of the blood collection tube is an annular rib. In the case of these combinations, there is a locking means for the blood collection tube holder around the entire inner circumference of the blood collection tube holder, and a locking means for the blood collection tube exists around the entire outer surface of the blood collection tube, so mutual engagement is easy. This is because it becomes reliable. Further, the shape of the rear end side surface of the holder 2 of the locking means 5 of the blood collection tube holder is preferably flat, and the locking means 6 of the blood collection tube 1 is preferably flat.
This is because it makes reliable contact with the ribs constituting the , and the engagement is ensured. The depth of the recess constituting the locking means 5 of the blood collection tube holder is 0.2xx to '1,Qxx, preferably 0.5zm-1,0xx.

In addition, when the locking means of the blood collection tube l and the locking means of the blood collection tube holder 2 are not both continuous annular, after inserting the blood collection tube into the blood collection tube holder, the locking means of the blood collection tube and the blood collection tube holder It is necessary to rotate the blood collection tube to a position where it can engage with the locking means of the holder and engage the two.

Further, the positions of the locking means 5 of the blood collection tube holder 2 and the locking means 6 of the blood collection tube l are such that they can be engaged with each other when the sealing member 10 of the blood collection tube 1 is pierced by the hollow needle part 8. Well done, blood collection tube! And it does not have to be the tip side of the blood collection tube holder 2, for example, a blood collection tube! and may be provided at positions spaced apart from the tip of the blood collection tube holder 2 by a certain distance. However, when the locking means of the blood collection tube and the locking means of the blood collection tube holder engage with each other by tilting the blood collection tube, the tip of the blood collection tube may not be able to hold the blood sample when the blood collection tube is tilted. Before coming into contact with the inner surface of the blood vessel holder 2, it is necessary to provide each of them at a position where the locking means of the blood collection tube and the locking means of the blood collection tube holder engage with each other.

Next, an embodiment of the blood sampling device of the present invention shown in FIG. 3 will be described. Note that the same parts are given the same numbers as in FIG. 1.

This embodiment differs from the one in FIG. 1 above as follows:
This is the shape of the blood collection tube holder locking means 5 provided on the inner surface of the blood collection tube holder 2, and the locking means of the blood collection tube holder are two notches that communicate the inside and outside of the blood collection tube holder 2. It is a cross-sectional view of the blood collection tube holder cut at 11-.

When the locking means of the blood collection tube enters this notch, the two are engaged. Therefore, it is necessary that the notch has a width that allows the locking means of the blood collection tube to fit therein. The longer the length of the notch, the easier the engagement with the locking means of the blood collection tube is, which is preferable. However, if it is too long, the strength of the blood collection tube holder will decrease, /10, preferably 4710-6
/lO. Further, it is preferable to provide a plurality of notches as shown in FIG. 4a, especially two notches at opposing positions.
It is preferable to provide one. In this case, the length of each notch is 1/10 to 3.
It is 5/10, preferably 2/10 to 3/10. Furthermore, it is preferable that the locking means 6 of the blood collection tube 1 can be reliably engaged with the locking means 5 of the blood collection tube holder 2,
For this purpose, as shown in Fig. 4b, the locking means 6 of the blood collection tube 1 has a length commensurate with the shape of the locking means 5 of the blood collection tube holder (and a length shorter than the length of the notch of the blood collection tube holder).
Preferably.

Next, an embodiment of the blood sampling device of the present invention shown in FIG. 5 will be described. Note that the same parts are given the same numbers as in FIG. 1.

In this embodiment, the blood collection tube l is the same as that described in the embodiment of FIG. The difference from the one in FIG. 1 above is the shape of the blood collection tube holder locking means 5 provided on the inner surface of the blood collection tube holder 2. It is an annular protrusion that protrudes inward. FIG. 6 is a sectional view of the blood collection tube holder taken along the line X--X on the distal side of the locking means of the blood collection tube holder. The shape of blood collection tube holder 2 is similar to that of blood collection tube 1.
It is necessary that the blood collection tube 1 can be easily inserted, and it is necessary that the blood collection tube 1 can be inserted without substantially touching the inner surface of the blood collection tube holder 2. , the outer surface of the blood collection tube I including the locking means 6 is connected to the blood collection tube holder 2 also in the annular protrusion.
It is necessary that the inner diameter is such that it can be inserted without substantially contacting the inner surface of the tube. In addition, the annular protrusion is
It does not necessarily have to be annular; for example, it may have a gear-like shape with a plurality of protrusions, or one or more semi-arc-shaped or crescent-shaped protrusions. Preferably, a blood collection tube holder 2 as shown in FIG.
This is an annular protrusion that runs perpendicular to the axial direction of the tube. This is because the combination becomes easier. In addition, the shape of the surface of the protrusion on the distal end side of the blood collection tube holder is preferably flat, so that the protrusion reliably contacts the rib constituting the locking means 6 of the blood collection tube.
This is because engagement becomes reliable. As for the size of the protrusion,
The width protruding from the inner surface of the blood collection tube holder 2 is 0.2xm.
~2.0xxm, preferably 0.5xm~1.0xm. Further, it is preferable that the surface of the protrusion on the rear end side of the blood collection tube holder has a gently sloped surface as shown in FIG. By doing so, the ribs forming the locking means 6 of the blood collection tube 1 will not be caught by the annular protrusion, and the blood collection tube can be easily inserted into the blood collection tube holder. Conversely, the surface of the locking means for the blood collection tube I on the distal end side of the blood collection tube may be a gently sloped surface as described above.

By providing the blood collection tube locking means and the blood collection tube holder locking means configured as described above, the blood collection tube holder 2
When the blood collection tube l is inserted into the blood collection tube, the two will naturally engage when the blood collection tube's locking means passes the blood collection tube holder's locking means on the blood collection tube holder, and the blood collection tube will be tilted slightly. .

In addition, if they do not engage naturally, by slightly tilting the blood collection tube, they will easily engage and prevent the blood collection tube from coming off.

In the above description, the blood collection tube holder 2 has a protrusion fixed to the inner surface, but the present invention is not limited to this, and as shown in FIG. of! Alternatively, a beveled or fibrous member 22 may be inserted into the throat 2n to serve as a locking means for the blood collection tube holder that engages with the blood collection tube locking means 6 of the blood collection tube I. More preferably, member 22 is
By rotatably fixing the member 22 to the outer surface of the blood collection tube holder 2 so that it can be inserted and removed using a fixture 24, the member 22 can be easily inserted into and removed from the slit 20. Furthermore, by making the lower end shape of the member 22 the same as or similar to the outer surface shape of the blood collection tube, engagement of the blood collection tube I with the locking means of the blood collection tube is ensured.

In this embodiment, the work of inserting the member 22 is increased in order to engage the locking means of the blood collection tube and the locking means of the blood collection tube holder, but conversely, by removing the member 22, the blood collection tube can be opened. It can be removed from the blood collection tube holder very easily.

Next, an embodiment of the blood sampling device of the present invention shown in FIG. 8 will be described. Note that the same parts are given the same numbers as in FIG. 1.

In this embodiment, the blood collection tube holder 2 is formed of a cylindrical body having two flat surfaces 30 facing each other.

Two notches 32 are provided in the flat surface portion 30 to communicate the inside and outside of the blood collection tube holder 2, and these cutouts form a locking means for the blood collection tube holder. The flat surface 30 continues to the rear end of the blood collection tube. FIG. 9 is a sectional view of the blood collection tube holder 2 cut at the notch portion 32, and FIG. 1O is a sectional view of the blood collection tube cut at the rib 36 portion. The blood collection tube l has a straight portion 3 cut to fit the shape of the flat surface of the blood collection tube holder 2.
This rib 36, which has a rib 36 divided into two at 4, engages with the rear end surface of the blood collection tube holder of the notch 32. In order to engage the rib 36 and the notch 32, after inserting the blood collection tube into the blood collection tube holder, when the rib 36 reaches the notch 32, rotate the blood collection tube so that the two engage. do.

Further, the number of ribs 36 may be one, and similarly the number of flat surfaces 30 may be one.
Any time is fine. Further, the flat surface may form the rear end of the notch 32 that engages with the rib 36, and if it is present immediately after the notch 32, then it forms an arcuate shape continuous with other parts. It is not necessary to extend to the rear end of the blood collection tube holder.

The length of the notch 32 needs to be longer than the rib 36, and if it is too long, the strength of the blood collection tube holder will decrease, so the length of the notch 32 should be 2710 to 10, preferably 4/10, of the entire circumference of the blood collection tube holder. ~6/lO. Moreover, it is preferable to provide a plurality of notches, and it is particularly preferable to provide two notches at opposing positions.

In this case, the length of each notch is 1710 to 3.5/10, preferably 27
It is 10-3/lO.

Next, embodiments of the blood sampling device of the present invention will be described.

Example! For the blood collection tube, polyethylene terephthalate is injection molded into the shape shown in Figure 1. A 10cc version was created. An annular rib that protruded outward and had a flat rear end surface was formed at the open end of the tube. The annular rib has a thickness of 0.8zx, and a length protruding from the outer surface of the tube body is 1.
It was 21R. The outer diameter of the tube including the annular rib is 16.
It was 8 mm. As a sealing member for the tube body, the upper layer is a vulcanized natural rubber sheet (sealing member) with a thickness of 1.3 mm, and the lower layer is a polyethylene terephthalate film (thickness 45μ) with aluminum vapor-deposited on the surface using epoxy adhesive. I pasted it together. This sealing member was heat-sealed to the open end of the tube and the surface of the rib under a constant reduced pressure to produce a reduced pressure blood collection tube.

As a blood collection tube holder, a cylindrical holder as shown in FIG. 1 was made of polypropylene. A threaded portion that threadedly engaged with the hub of the puncture needle was formed at the tip. In addition, at the rear position of 15.0xm from the inner surface of the tip, a depth of 0.5xx,
An annular recess with a width of 1.0zx and a flat surface on the rear end side was formed. The inner diameter of the holder is! It was 6.9zx.

Then, a puncture needle whose rear end was encapsulated in a hollow needle portion, which was the rear end portion of the puncture needle, was attached to the tip of the blood collection tube holder.

The blood sampling device of the present invention was created as described above.

So, I held the blood collection tube holder of this blood collection device in my left hand,
Holding the blood collection tube in the right hand, the patient inserted the blood collection tube into the blood collection tube holder and punctured the blood vessel with the blood collection needle portion of the puncture needle. When the blood collection tube was pressed, the sealing member of the blood collection tube was pierced by the hollow needle, and it was confirmed that blood flowed into the blood collection tube from the outside through the puncture needle. Furthermore, when the blood collection tube was pushed, the upper part of the rib of the blood collection tube entered the upper part of the recess of the blood collection tube holder, and the blood collection tube was tilted slightly. At this time, the rubber tip was in a folded state, but even if you removed your hand from the blood collection tube, the blood collection tube remained
I didn't retreat backwards. Furthermore, by holding the rear end of the blood collection tube and lifting it parallel to the axis of the blood collection tube holder, the blood collection tube naturally retracted, making it possible to easily remove the blood collection tube.

Example 2 As a blood collection tube holder, a cylindrical holder as shown in FIG. 3 was made of polypropylene. A threaded portion that threadedly engaged with the hub of the puncture needle was formed at the tip. Also, the axial width of the holder is 1.2131mm at a position 15.0xm back from the inner surface of the tip! , length perpendicular to the axis 15.0JIJ
2. Place the notches of l (arc length) in opposite positions.
One was formed. The inner diameter of the holder was 16.9 mm. As shown in Figure 4b, the blood collection tube has a thickness of 0.8 mm.
A piece having two ribs at symmetrical positions with arc lengths of xm and arc lengths of lO and Qzm was created. As for the puncture needle, the same puncture needle as in Example 1 was used to create the blood sampling device of the present invention.

As in Example 1, a blood collection tube was inserted into the blood collection tube holder of this blood collection device. When the blood collection tube was inserted, the upper part of the rib of the blood collection tube entered the notch at the top of the blood collection tube holder, causing the blood collection tube to tilt slightly. At this time, even if the hand was removed from the blood collection tube, the blood collection tube did not retreat backwards. Furthermore, by holding the rear end of the blood collection tube and lifting it parallel to the axis of the blood collection tube boulder, the blood collection tube naturally retracted, making it possible to easily remove the blood collection tube.

Example 3 As a blood collection tube holder, a cylindrical holder as shown in FIG. 5 was made of polypropylene. A threaded portion that threadedly engaged with the hub of the puncture needle was formed at the tip. Also, from the inner surface of the tip, 15. An annular protrusion was provided at the position where Oam was retreated, the front end side being flat and the rear end side being gently inclined. The height of this annular protrusion was 0.5xm.

The inner diameter of the holder at this annular protrusion is 16.911
It was 1. Regarding the blood collection tube and puncture needle, see Example 1.
A blood sampling device of the present invention was created using the same device as described above.

As in Example 1, a blood collection tube was inserted into the blood collection tube holder of this blood collection device. When the blood collection tube was inserted, the blood collection tube was slightly tilted when the upper part of the rib of the blood collection tube exceeded the upper part of the annular protrusion of the blood collection tube holder. At this time, even if the hand was removed from the blood collection tube, the blood collection tube did not retreat backwards.

Furthermore, by holding the rear end of the blood collection tube and lifting it parallel to the axis of the blood collection tube holder, the blood collection tube naturally retracted, making it possible to easily remove the blood collection tube.

[Operation] The first case is when blood is collected using the blood sampling device of the present invention.
This will be explained using the embodiment shown in the figure.

First, the blood sampling needle portion 7, which is the tip of the puncturing needle 3 attached to the blood sampling tube holder 2, is punctured into a blood vessel. Next, the blood collection tube is attached to the blood collection tube holder 2 until the tip of the hollow needle part 8, which is the rear end of the puncture needle 3, pierces the elastic sheath body 9 and the sealing member 10 of the blood collection tube l, and reaches the inside of the blood collection tube. insert. At this time, the elastic sheath 9 is folded into a bellows-like shape between the stopper and the blood collection tube holder, and blood flows into the blood collection tube 1. Furthermore, when you push the blood collection tube l toward the tip, the blood collection tube l
The upper part of the locking means 6 engages with the locking means 5 of the blood collection tube holder 2, and the blood collection tube is slightly tilted. Also,
If the locking means of the blood collection tube and the locking means of the blood collection tube holder do not naturally engage with each other during the insertion process of the blood collection tube 1 due to the frictional force between the sealing member 10 of the blood collection tube 1 and the hollow needle portion 8,
The two can be engaged by slightly tilting the blood collection tube l. After collecting blood according to the amount of force applied to the blood collection tube L, hold the rear end of the blood collection tube and lift the blood collection tube parallel to the axis of the blood collection tube holder, and the blood collection tube will naturally retreat. The blood collection tube can be easily removed and blood collection is completed.

[Effects of the Invention] The blood collection device of the present invention includes a blood collection tube whose open end is sealed with a sealing member, a needle tube consisting of a blood collection needle protruding on one side and a hollow needle protruding on the other side, and the hollow needle covered. The puncture needle has an elastic sheath enclosing it, and is a hollow body with an open rear end, and the blood collection tube can be inserted and removed from the rear end side, and the blood collection needle portion of the puncture needle is inserted into the hollow body. A blood collection device comprising a blood collection tube holder that protrudes from the tip and has the puncture needle at the tip of the hollow body so that the hollow needle protrudes into the hollow body, the blood collection tube holder The blood vessel can be inserted without substantially contacting the inner surface of the blood collection tube holder, and further, the blood collection tube holder and the blood collection tube are arranged so that the sealing member of the blood collection tube inserted into the blood collection tube holder is inserted into the blood collection tube holder by the hollow needle. It has a pair of locking means that engage in the pierced state and have a locking force that is greater than the repulsive force of the elastic sheath when the elastic sheath is compressed in the axial direction. First, since the blood collection tube and the blood collection tube holder can be inserted without substantially contacting each other, the blood collection tube and the blood collection tube holder can be easily inserted into the blood collection tube. By engaging with the locking means of the elastic sheath body, it is possible to prevent the blood collection tube from detaching due to the repulsive force of the elastic sheath body, and furthermore, the engagement between the locking means of the blood collection tube and the locking means of the blood collection tube holder is released. This allows the blood collection tube to be easily removed.

[Brief explanation of the drawing]

FIG. 1 is a sectional view showing an embodiment of the blood sampling device of the present invention;
FIG. 2 is a sectional view of the blood collection tube holder cut at the locking means of the blood collection tube holder of the embodiment shown in FIG. 1, and FIG.
FIG. 4a is a sectional view showing another embodiment of the blood sampling device of the present invention. FIG. 3
FIG. 5 is a cross-sectional view showing another embodiment of the blood sampling device of the present invention, and FIG.
FIG. 5 is a cross-sectional view of the blood collection tube holder taken along the X-X line according to the embodiment shown in FIG. 9 is a cross-sectional view of the blood collection tube holder cut at the locking means of the blood collection tube holder of the embodiment shown in FIG. 8, and FIG. 10 is a sectional view showing another embodiment of the blood collection device. FIG. 1 is a cross-sectional view showing a conventional blood sampling device. ■... Blood collection tube 2... Blood collection tube holder 3... Puncture needle 4... Tube body 5...
... Blood collection tube holder locking means 6 ... Blood collection tube locking means

Claims (9)

[Claims] (1) It has a blood collection tube whose open end is sealed with a sealing member, a needle tube consisting of a blood collection needle part protruding to one side and a hollow needle part protruding to the other side, and an elastic sheath body enclosing the hollow needle part. The puncture needle is a hollow body with an open rear end, into which the blood collection tube can be inserted and removed from the rear end side, and the blood collection needle portion of the puncture needle protrudes from the tip of the hollow body, and the hollow body has an open rear end. A blood collection device comprising a blood collection tube holder equipped with the puncture needle at the distal end of the hollow body such that a portion of the blood collection tube protrudes into the hollow body, the blood collection tube holder having the blood collection tube attached to the inner surface of the blood collection tube holder. Further, the blood collection tube holder and the blood collection tube are engaged with each other in a state where the sealing member of the blood collection tube inserted into the blood collection tube holder is pierced by the hollow needle. A blood sampling device comprising a pair of locking means having a locking force greater than the repulsion force of the elastic sheath when the elastic sheath is compressed in the axial direction. (2) The blood collection tube holder and the pair of locking means provided on the blood collection tube tilt the blood collection tube obliquely after the sealing member of the blood collection tube inserted into the blood collection tube holder is punctured by the hollow needle. The blood sampling device according to claim 1, which is engaged by rotating and/or rotating. (3) The blood collection tube consists of a tube with an open end and a sealing member that seals the opening, and the inside of the blood collection tube is under reduced pressure. Blood sampling equipment described in . (4) The blood sampling device according to claim 3, wherein the locking means for the blood sampling tube is provided on the tube body. (5) The blood sampling device according to any one of claims 1 to 4, wherein the locking means for the blood sampling tube is a rib that projects outward from the outer surface of the blood sampling tube. (6) The sealing member of the blood collection tube is in the form of a film having gas barrier properties and sealing properties that allow the puncture hole to be closed after the punctured hollow needle is removed. The blood sampling device according to any one of Items 1 to 5. (7) The locking means of the blood collection tube holder is a recess provided on the inner surface of the blood collection tube holder.
The blood sampling device according to any one of Items 6 to 6. (8) The blood collection instrument according to any one of claims 1 to 6, wherein the locking means of the blood collection tube holder is a protrusion that projects inward from the inner surface of the blood collection tube holder. (9) The blood collection instrument according to any one of claims 1 to 6, wherein the locking means of the blood collection tube holder is a notch provided in the blood collection tube holder.