JP2013117471A - Sampler - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sampler for preventing it from dropping from a connection part of a blood circuit, and for efficiently collecting fluid.SOLUTION: A sampler 1 includes: a bottomed cylindrical holder 11; a puncture part 12a disposed inside the holder 11, and fixed to a bottom 22 of the holder 11; and an insertion part 12b disposed outside the holder 11, and fixed to the bottom 22 of the holder 11. Then, the insertion part 12b and the puncture part 12a are constituted of one metallic needle tube 12, and the needle tube 12 is put through and fixed to the bottom 22 of the holder 11, and the outer peripheral surface of the insertion part 12b is rough-surfaced so that the insertion part can be prevented from dropping from a seal part 2a closing a blood circuit.

Description

  The present invention relates to a sampling device, and more particularly, when connected to a connection portion provided in a blood circuit, the insertion device is inserted while elastically deforming an insertion hole of a seal portion provided in the connection portion and communicates with the blood circuit. The present invention relates to a sampling device having an insertion portion.

Conventionally, blood is collected from a patient, and then plasma is separated from the blood. A blood circuit connected to a blood collection bag for collecting the blood is sampled for blood flowing through the blood circuit. A connecting portion is provided.
For the sampling, a sampling container as described in Patent Document 1 is used, in which a sampling container whose inside is evacuated is used, and blood is collected by connecting the sampling container and the connecting portion. .
The sampling instrument of Patent Document 1 includes a bottomed cylindrical holder, a puncture portion that is disposed inside the holder and fixed to the bottom portion of the holder, and is disposed outside the holder and disposed on the bottom portion of the holder. And a fixed insertion portion.
The puncture portion is punctured by the lid portion of the collection container accommodated in the holder and communicates with the collection container, and when the insertion portion is connected to the connection portion provided in the blood circuit, By inserting into the blood circuit while elastically deforming the insertion hole of the seal portion provided in the connecting portion and communicating with the blood circuit, the liquid in the blood circuit is collected in the collection container via the insertion portion and the puncture portion. It is like that.

US Patent US7118538

Here, when the sampling device is connected to the connection portion of the blood circuit, as described above, the insertion portion is inserted while elastically deforming the insertion hole of the seal portion provided in the connection portion. If it is smooth, there is a possibility that the insertion part may fall off the seal part due to an erroneous operation.
Further, in the case of the sampling device of Patent Document 1, a space is formed in the bottom of the holder so that the puncture portion and the insertion portion communicate with each other, and the liquid that has flowed in through the puncture portion is stored in this space. Therefore, there is a possibility that a liquid that cannot be collected in the collection container may be generated.
In view of such a problem, the present invention provides a sampling device that can prevent liquid from being dropped from the connecting portion and can efficiently recover a liquid.

That is, the sampling device according to the present invention includes a bottomed cylindrical holder, a puncture portion disposed inside the holder and fixed to the bottom portion of the holder, and disposed outside the holder and disposed on the bottom portion of the holder. With a fixed insertion part,
The puncture portion is punctured by the lid portion of the collection container accommodated in the holder and communicates with the collection container, and when the insertion portion is connected to a connection portion provided in the blood circuit, The insertion hole of the seal portion provided in the connection portion is inserted while being elastically deformed to communicate with the blood circuit, and the liquid in the blood circuit is collected into the collection container through the insertion portion and the puncture portion. In the collection tool
The insertion portion and the puncture portion are composed of a single metal needle tube, the needle tube is passed through the bottom portion of the holder and fixed to the bottom portion, and the outer peripheral surface of the insertion portion is roughened. The rough surface prevents the blood circuit from dropping off from the sealing portion that closes the blood circuit.

According to the above invention, since the insertion portion and the puncture portion are constituted by a single metal needle tube, the liquid in the blood circuit is collected in the collection container via the insertion portion and the puncture portion. In addition, it is difficult for the liquid to remain inside the needle tube, and the liquid can be efficiently recovered.
Further, by roughening the outer peripheral surface of the insertion portion, it is possible to make it difficult for the insertion portion to fall off the connection portion even by an erroneous operation.

Perspective view of sampling device Cross section of sampling device

1 and 2 show a perspective view and a cross-sectional view of a blood sampling device 1 for sampling blood, and from a blood circuit disposed between a blood sampling device and a blood bag (not shown). It is used to collect a predetermined amount of blood.
The blood circuit is provided with a connection portion 2 indicated by an imaginary line in FIG. 2, while the collection instrument 1 is adapted to be attached to a collection container 3 indicated by an imaginary line. By connecting the collection container 3 to the connection portion 2, blood in the blood circuit is collected in the collection container 3.
The connecting portion 2 is provided with a seal portion 2a made of an elastic member such as rubber, and the rubber portion is located at the center of the seal portion 2a when the sampling device 1 is not connected. An insertion hole for maintaining the closed state is formed by the elasticity of.
On the other hand, the collection container 3 is a test tubular container equipped with a rubber lid 3a, and the inside of the collection instrument 1 is maintained in a vacuum state in advance. Here, the lid portion 2a is not formed with an insertion hole like the seal portion 2a, and is penetrated by puncturing.

The sampling instrument 1 includes a bottomed cylindrical holder 11 that accommodates the sampling container 3, a needle tube 12 that passes through the center of the holder 11 in the axial direction, a cap 13 that is attached to the tip of the holder 11, And a film 14 attached to the rear end of the holder 11.
As shown in FIG. 2, the holder 11 includes a large diameter portion 21 having a larger diameter than the collection container 3, a bottom portion 22 formed at a front end on the left side of the large diameter portion 21, and a bottom portion. A through hole 23 drilled in the center of 22 and a small diameter portion 24 having a smaller diameter than the large diameter portion 21 projecting forward from the bottom portion 22.
The film 14 described above is detachably bonded to the rear end of the large diameter portion 21, so that the space formed by the large diameter portion 21 and the bottom portion 22 of the holder 11 is not exposed to the outside when not in use. ing.
A stepped portion 22a is formed between the large-diameter portion 21 and the through hole 23 in the bottom portion 22, and a deformed cover described later is accommodated in the space formed by the stepped portion 22a. ing.
The bottom portion 22 includes an inner tube portion 22b that protrudes forward and is formed further inside the small-diameter portion 24. The through hole 23 penetrates the bottom portion 22 and the inner tube portion 22b back and forth, A female screw 23 a is formed on the inner peripheral surface of the through hole 23.
The small-diameter portion 24 protrudes from the bottom portion 22 and protrudes further forward than the inner tube portion 22b, and prevents reuse of the sampling tool 1 on the outer peripheral surface of the small-diameter portion 24 as shown in FIG. The sticker 25 for doing is stuck.
On the other hand, the cap 13 is formed with a large-diameter portion 13a whose outer peripheral surface is substantially the same diameter as the small-diameter portion 24 of the holder 11, and behind the large-diameter portion 13a, and is fitted into the small-diameter portion 24. And a rear end of the large-diameter portion 13b comes into contact with a tip of the small-diameter portion 24 when the cap 13 is attached to the holder 11.
A seal 25 similar to the seal 25 affixed to the outer peripheral surface of the small diameter portion 24 of the holder 11 is affixed to the outer peripheral surface of the large diameter portion 21, and both seals 25 are perforated (see FIG. When the cap 13 is detached from the holder 11 at the time of use, the seal 25 is divided at the position of the perforation so that it can be confirmed whether or not it is used.

The needle tube 12 is manufactured from a single metal tube, and a connecting portion 26 for connecting the needle tube 12 to the holder 11 is provided in the approximate center of the needle tube 12.
A portion of the needle tube 12 that is disposed inside the holder 11 with respect to the connection portion 26 constitutes a puncture portion 12 a that communicates with the collection container 3, and is located outside the holder 11 with respect to the connection portion 26. The arranged part constitutes an insertion part 12b connected to the connection part 2 of the blood circuit.
Thus, since the puncture portion 12a and the insertion portion 12b are formed from a single tube, they communicate with each other and the passage is formed linearly.
The puncture portion 12a has a cutting edge 12c formed at the tip thereof, and is pierced into the lid portion 3a of the collection container 3 and penetrates the lid portion 3a so as to communicate with the inside of the collection container 3. Yes.
On the other hand, the insertion portion 12b is not formed with a cutting edge at the tip thereof, and an insertion hole is previously formed in the seal portion 2a in the connection portion 2 provided in the blood circuit. The blood circuit is inserted and communicated with the blood circuit.
In this embodiment, the outer peripheral surface of the insertion portion 12b is roughened by sandblasting or the like, and in this way, when the insertion portion 12b is connected to the connection portion 2 of the blood circuit, the seal portion 2a Since the friction between the insertion hole formed in the insertion portion and the insertion portion 12b increases, the insertion portion 12b is less likely to drop off from the connection portion 2.

The connecting portion 26 is composed of two members provided substantially at the center of the needle tube 12, and has a threaded portion 31 formed with a male screw 31 a that is threadedly engaged with a female screw 23 a formed in the through hole 23 of the holder 11. The hub 32 is provided on the insertion portion 12b side of the needle tube 12 with respect to the screwing portion 31.
The male screw 31a is formed on the outer periphery of the screwing portion 31, and the male screw 31a is screwed into the female screw 23a formed in the through hole 23 of the holder 11, whereby the holder 11 and the needle tube 12 are connected. It comes to be connected.
A rubber cover 33 is attached to the rear end of the screwing portion 31 so as to cover the puncture portion 12a protruding rearward from the screwing portion 31, and a protrusion 31b formed at the rear end of the screwing portion 31. And the projection 33a provided at the base portion of the cover 33 are fitted to each other so that the cover 33 does not fall off.
A slit (not shown) is formed in advance in a portion of the cover 33 positioned further rearward than the cutting edge 12c of the puncture portion 12a, and when the collection container 3 is inserted from the rear of the holder 11, the cover portion of the collection container 3 is formed. The cover 33 is deformed by being pressed by 3a, and after the cutting edge 12c of the puncture portion 12a passes through the slit, the cover 33 is compressed and deformed to be accommodated in the space formed in the step portion 22a of the holder 11. It has become.
The hub 32 abuts against the tip of the inner tube portion 22b of the holder 11 from the front to prevent the needle tube 12 from retreating further, while the outer periphery of the hub 32 has irregularities (not shown). It is formed, and it fits with the unevenness | corrugation formed in the internal peripheral surface of the said cap 13. As shown in FIG.

The method of using the sampling device 1 having the above configuration will be described. First, the user removes the cap 13 and the film 14 attached to the rear part from the holder 11 and in that state the sampling container 3 from the rear of the holder 11. Insert.
At this time, the collection container 3 is lightly inserted so that the lid 3a of the collection container 3 is not pierced by the puncture part 12a provided in the holder 11, and the user holds the collection container 3 and the collection instrument 1 in this state. The collection device 1 is connected to the connection part 2 of the blood circuit while being held integrally.
At this time, since the insertion hole is formed in advance in the seal part 2a of the connection part 2, the user positions the insertion part 12b in accordance with the position of the insertion hole, and then moves the sampling instrument 1 in the axial direction. Move to.
Then, the insertion part 12b pushes open while deforming the insertion hole closed by elastic deformation, and the insertion part 12b penetrates the seal part 2a, whereby the insertion part 12b communicates with the inside of the blood circuit.
At this time, since the outer peripheral surface of the insertion portion 12b is roughened, the collection container 3 is less likely to drop out from the connection portion 2 of the blood circuit, and the following operations can be performed safely. ing.
At the same time, the user advances the collection container 3 relative to the holder 11, penetrates the lid of the collection container 3 by the puncture part 12 a, and communicates the puncture part 12 a with the inside of the collection container 3. Let
Then, since the inside of the collection container 3 is evacuated, the blood in the blood circuit is collected in the collection container 3 via the puncture portion 12a and the insertion portion 12b due to the differential pressure.
At that time, since the puncture portion 12a and the insertion portion 12b communicate with each other by a single needle tube 12, there is almost no blood remaining from the puncture portion 12a to the insertion portion 12b, and blood is collected efficiently. can do.
When the collection container 3 is detached from the collection instrument 1, the through-hole punctured in the lid of the collection container 3 is closed by elastic deformation, so that the collected blood does not come into contact with the outside air.
The blood collected in the collection container 3 in this way is then separated into plasma by a centrifuge and used for a required test.

DESCRIPTION OF SYMBOLS 1 Sampling instrument 2 Connection part 2a Seal part 3 Sampling container 11 Holder 12 Needle tube 12a Puncture part 12b Insertion part

Claims (2)

A bottomed cylindrical holder, a puncture portion arranged inside the holder and fixed to the bottom portion of the holder, and an insertion portion arranged outside the holder and fixed to the bottom portion of the holder,
The puncture portion is punctured by the lid portion of the collection container accommodated in the holder and communicates with the collection container, and when the insertion portion is connected to a connection portion provided in the blood circuit, The insertion hole of the seal portion provided in the connection portion is inserted while being elastically deformed to communicate with the blood circuit, and the liquid in the blood circuit is collected into the collection container through the insertion portion and the puncture portion. In the collection tool
The insertion portion and the puncture portion are composed of a single metal needle tube, the needle tube is passed through the bottom portion of the holder and fixed to the bottom portion, and the outer peripheral surface of the insertion portion is roughened. A sampling instrument characterized in that the rough surface prevents the blood circuit from dropping off from the sealing part that closes the blood circuit.   A through-hole is formed in the bottom of the holder and a female thread is formed on the inner peripheral surface of the through-hole, and a connecting part in which a male thread is formed is provided at a substantially central part of the needle tube. The sampling device according to claim 1, wherein the female screw and the male screw of the connecting portion are connected by screwing.

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