KR101560149B1 - Filtering needle and Syringe that have sliding detachable intake pipe - Google Patents

Abstract

Disclosed is a filtering needle combined with a sliding detachable suction pipe and a filtering syringe using the same. The present invention relates to a filtering needle which improves on a disadvantage of conventional filtering syringes in that glass pieces, remaining between the needle and the filter without being induced deeply enough to the inner path during the process of discharging injection liquid and filtering suction with one needle, are induced into a human body through the needle during an injecting process. In the process of installing the suction pipe which is slightly bigger than the needle, covering a suction unit (20), which can be cut and extended, to a needle unit (10), and sliding the suction unit (20) after an extension, a connection pipe (24) mounted in an inlet hole (16) of the suction unit (20) comes out and pulls a strip lid (14) of the needle unit (10), which blocks the inlet hole (16) and opens a discharge hole (17) connected to the needle (11). With the simple and precise operation of the soft components, the needle (11) maintains the state of the discharge pipe which is open in both directions even after completing the suction. Therefore, the present invention can check whether blood is detected by slight suctioning after an injection into a human body like common needles, wherein the glass pieces filtered by a filter (15) are perfectly separated from the needle, which shows an excellent effect of preventing reinjection of filtered materials.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a filter needle and a filter syringe having a sliding detachable suction pipe,

The present invention relates to a needle for use with a filtering suction structure and a filter syringe employing the same.

Glass ampoules, which are often used as injectable bottles, break up bottlenecks and generate fine glass debris when opened. Although not visible, this debris powder, which is incorporated into the injection solution when the ampoule is opened, remains in the cylinder and needle (hereinafter referred to as the needle) and can enter the human body during the injection process.

The glass fragments having a diameter of 0.01 mm are moved along the blood vessels and deposited on a specific site in the body to induce various diseases. To prevent this, a syringe having a suction liquid filtering function is actively used.

The following prior art documents relate to patents in the field of filter syringes, which have recently been filed and registered in Korea.

The overall technology trend of the filter syringe can be roughly divided into two. One of them is a separable filter structure in which a suction pipe with a filter is inserted separately at the end of a needle, and the suction pipe is sucked in and then the suction pipe is removed to prevent the debris from flowing through the needle. Side filter structure that prevents the debris powder remaining on the side filter from being mixed with the drain line, and is designed so that the internal flow path of the filter unit is changed by using a change in the pressure direction acting differently during the suction and discharge of the injection liquid .

Particularly, the latter type of filter structure has recently been attracting attention as a filter structure, and various derivative models have been patented and registered in a competitive manner. However, if the operation principle is examined deeply, the pressure direction acting on fluid in the needle changes, A common design structure is adopted to change the design.

Korean Patent No. 10-1287239, Korean Patent No. 10-1435898 Korean Patent No. 10-1485399, Korean Patent Laid-Open No. 10-2012-0077486 Korean Patent No. 10-1245378, Korean Patent No. 10-1419839 Korean Patent No. 10-1301932

The advantages and disadvantages of the two filtering techniques described above are clearly divided. First, let's look at a detachable filter structure that connects the filter built-in suction pipe to the tip of the needle as a classical technique. Although this technique removes the filter itself after inhalation, the possibility of debris remaining in the needle is essentially blocked, but there is a risk of contamination of the needle or injury of the user during the process of separating and removing the suction pipe connected to the needle end by hand, The biggest disadvantage is that the built-in detachable suction pipe is not so small in size and length, so it is difficult to use in small ampoules or ampoules with narrow openings.

Next, a fluid type filter structure having a structure in which one needle is used to suck and discharge the injected liquid and the suction and discharge path is changed inside the filter unit will be described.

The syringe with this technology is easy to use because there is no difference between the outer shape and the normal syringe without filter. However, since both the suction and the discharge must be fundamentally carried out by one needle, if the debris is completely passed through the needle during suction and does not flow into the filter inner channel, but remains between the needle and the filter outer flow path, It is a problem that the debris powder can be retracted toward the needle again and flow into the human body.

The object of the present invention is to solve the drawbacks of the two conventional filter syringes as described above comprehensively.

More specifically, the specific technical improvements intended in the present invention are to successfully meet the following essential operating conditions:

The first operating condition is to maintain the inherent merits of the conventional detachable suction tube. A separate suction tube 21 completely separated from the main injection needle is disposed together with the needle 11, In the used needle, glass fragments are prevented from being originally introduced.

Secondly, in order to maintain the advantages of a syringe employing a conventional flow filter structure, the suction tube 21 is shaped to a thickness and length that is at least exceeding the size of the needle 11 so as to be almost completely compatible with the existing ampoule, (In a state including a substantially needle).

As a third operating condition, in the present invention, it is necessary to be able to easily separate the suction pipe and the needle without holding the needle so that the needle is not contaminated when the suction pipe is removed before the injection. To this end, the suction unit 20 including the suction pipe is configured to cover the needle unit 10 including the needle as a whole.

An essential requirement for all of the above operating conditions is to ensure that there is no leakage of the injectate to the needle after it has been separated from the needle.

In addition to the above requirements, the addition of a simple and intuitive operation method in the overall operation process, and the fact that each component performing complex functions such as segregation and selective sealing, It is realized so as to have a high operation reliability while using mainly a material.

The key points of the present invention to solve the above-mentioned technical problems are as follows.

First, the needle 11 for injecting liquid and the suction tube 21 for sucking the injection liquid are separately provided. Two pipes are arranged adjacent to each other. After the injection liquid is once inhaled, only the needle is exposed exclusively , The suction pipe is deformed and some incisions are made and removed from the needle.

In this process, the suction portion 20 comprising the suction tube 21 configuration can be made of a soft, non-toxic plastic material that can be bent or twisted. For example, soft transparent polyethylene or polyvinyl chloride material may be used, which is used as a cap material for syringes and various sanitary containers.

That is, a material having a balance in strength and flexibility is basically adopted, and a portion where structural strength is required in the suction portion 20 is designed so as to be incised to compensate for hardness instead of securing a certain thickness of the cross-section. Also, parts that do not need to be cut, but are not required to be structurally rigid, can be made thinner and more flexible.

When using a conventional transparent soft injection material, the suction portion is very flexible and transparent at a portion formed to a thickness of 1 mm or less, thereby facilitating the intuitive operation of the user. When the thickness exceeds 2 mm, the needle and the inner fluid stopper structures It shows sufficient strength and hardness to penetrate the rubber ampoule membrane well supported.

That is, the suction portion 20 may exhibit excessive movement beyond the initial engagement with adjacent needles due to the appropriate cross-sectional thickness change along the site and the consequent and appropriate placement of the cutout grooves 26 as intended.

For reference, it is preferable that the tip of the suction pipe 21 is made of a material sufficiently hard to penetrate the rubber-film type ampoule cap and to protect the end portion of the needle.

Next, an additional technical means which is as important as the above-mentioned technical idea is the selective opening and closing action of the filter 15 supplied with the injection liquid from the suction portion 20. [

The suction pipe 21 and the filter 15 are connected by a single pipe and the suction liquid injected into the cylinder through the pipe is charged and then the suction pipe 21 ), The filter 15 disposed in the channel and the channel is substantially the same as the one opened. In this state, even if there is another needle 11 for discharging the injection liquid, it is natural that the injection liquid in the cylinder is simultaneously sprayed to the filter 15 and the needle 11 when the syringe piston is depressed.

Therefore, in the present invention, the conduit on the side of the filter (15) should be designed as a one-way permeable conduit which can be sucked but is shut off before at least complete closure.

In many cases, the common technique commonly used in the above conditions is a flexible membrane. When the rubber membrane which is bent in one direction by the hiding method is placed between the filter and the syringe cylinder and opened only to the cylinder side, the injection liquid is only sucked through the filter but not discharged.

However, these elastic valves have serious problems that should not be applied to actual syringes.

Most injections are placed on the blood vessels or muscles, where the medical practitioner must insert the needles into the patient's flesh and then gently swallow them to check for blood (normal vessel capture).

In this process, the unidirectional valve is opened so that the air can be introduced into the open filter, and the introduced air can be introduced into the cylinder and directly introduced into the human body through the needle.

Therefore, conventional unidirectional valve structures are difficult to use in the field of filter syringes to which the present invention belongs. For reference, a syringe with most of the currently available liquid filter structures (as described above) also sucks a little while in a state where the needle is plugged in to check the inflow of blood, and in the process of re-injection, the glass fragments remaining on the filter are buried in sticky blood There is a possibility of injection into the human body.

Therefore, in the present invention, the inventors of the present invention have focused on the kinematic structure in which the inflow hole on the side of the filter 15 described above is closed by the operation accompanied by the incision and disengagement of the suction unit 20 after completion of the suction in the initial fully opened state.

Obviously, disposable needles are not large parts that are easy to machine design and are not precision parts either. Especially, it is required to mass-produce the products considering the production team and hygiene, and it is required to have a compact shape and a solid structure with high reliability as a whole.

In the present invention, an operational opening / closing mechanism is provided to provide the convenience of operation while maintaining the structural simplicity and the close reliability close to the conventional disposable needles. A strip cap 14 interlocked with the incision and disengagement operation of the suction unit 20 and its peripheral configuration.

The strip cap 14 may be made of the same material as the suction unit 20 as a thin strip-like soft member, but it is also possible to selectively use the silicone material for human body, which has more ductility and elasticity to further strengthen the sealing force have.

The connection pipe 24 formed on the inner circumferential surface of the suction unit 20 is connected to the connection pipe 24 when the connection pipe 24 is slightly inserted into the inlet hole 16 of the needle unit 10 and is laterally released. It can be seen that the strip cap 14 is partially withdrawn from the strip penetrating portion 13 formed in the supporting portion 12 of the needle to close the inflow hole 16. [

In this process, a simple and reliable operation stopper fully utilizing the characteristics of the soft elastic material is realized, and the strip stopper 14 completes the function of closing the filter, The connection state with the connection pipe 24 can be properly released as necessary to prevent it from being broken or ruptured.

In the following, concrete details supporting the above-mentioned core technical means are further described.

According to the present invention, a filter needle which completely blocks impurities such as debris from being injected into the human body is realized. In addition, the outer diameter of the separate suction pipe is limited to about 3 to 6 mm, which is close to the needle outer diameter, , Compact filter needles are realized that are easy to use for almost all injectable ampoules, without user's special care.

In addition, contamination of the needle is fundamentally prevented in the process of removing the suction portion after the injection of the injection liquid, and the suction portion which has been cut off can be easily returned to its original position even after the injection.

Therefore, there is no inconvenience in use compared to the conventional cap and needle-type needle consisting of only two parts, and it is easy to dispose of the separated suction part and replace the separated cap.

Finally, all of the above configurations can be realized without deviating much from the conventional injection materials such as soft transparent plastic, so that there is an excellent effect of manufacturing a high-performance filter needle with low production cost.

1 is a general view of a filter needle and a filter syringe of the present invention.
Fig. 2 is a view showing the filter needle coupled to a syringe cylinder according to the presence or absence of a cap. Fig.
Fig. 3 is an exploded view of the main part of the filter needle. Fig.
Figure 4 is a perspective and cross-sectional view of the entire structure of a filter needle.
5 is a view showing a state immediately before a prescription in which a needle is exposed by sliding the suction unit 20 after the injection of the injection liquid is completed.
Figs. 6 and 7 are diagrams illustrating the core operation structure of the filter needle in detail. Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following description taken in conjunction with the accompanying drawings, in which: FIG.

However, in the embodiments described below, the components expressed in the specific terminology and the combination structure thereof do not limit the technical idea that is included in the present invention in a comprehensive manner.

The filter needle shown in the drawings and the entire description can be roughly divided into three parts: a needle part 10, a suction part 20, and a cap 30. [

As shown in FIG. 1, the filter needle composed of three parts occupies most of the technical scope of the present invention and can be an independent invention in itself. It is to be noted in advance that the filter syringe constructed by attaching the filter needle to a detachable or fixed type is also included in the technical idea of the present invention as an invention of the same category. That is, a filter syringe having a filter needle that provides an independent complete function should be construed as belonging to the scope of right of the present invention as a Group 1 invention, in accordance with the conventional wisdom.

In the present invention, three constituent parts are defined as 10, 20 and 30, respectively. The detailed structure and accessories of the constituent parts are denoted by reference numerals 11 to 19, 21 to 29, 31 to 39 .

For example, a configuration defined by one of the reference numerals 11 to 19 is defined as a detailed configuration belonging to the needle unit 10, and this definition system is applied to the remaining two suction units 20 and cap 30 as well.

First, referring to Figs. 1 to 4, the overall shape and structural characteristics of the three main components will be described.

The suction portion 20 is formed in a shape that fits in the shape of the needle portion 10. The shape of the needle portion 10 is the same as that of the needle portion 10, As shown in FIG.

(Not shown) and can be inserted into the inlet of the syringe cylinder in an initial state in which the cap 30 is put on.

The outermost cap 30 is a protective member which is fitted to the suction portion 20 and which is used as a preliminary step of an expanding incision to facilitate the sliding operation of the suction portion by using the opening operation of the cap if necessary, (notch). (For example, it is described as having an incision blade 36 in the embodiment).

A needle 11 is fixed to an upper portion of the innermost needle portion 10, a filter 15 is disposed at a lower portion thereof, and a strip stopper 14 is coupled at an intermediate portion. At this time, the initial state of the strip stopper 14 is a state in which the inflow hole 16 is opened and the outflow hole 17 is closed so that the injection liquid can be sucked through the filter 15.

The suction unit 20 which is wrapped around the needle unit 10 serves to supply the injection liquid introduced through the upper suction pipe 21 to the filter 15 side. The connecting pipe 24 is inserted into the inflow hole 16 in the initial assembled state. In this case, the connecting pipe 24 is inserted into the inflow hole 16 in the initial assembled state. As will be described later, in the process of cutting, deforming, or removing the entire suction unit 20, the connection pipe 24 is bent and escapes the inflow hole 16.

The suction portion 20 has a streamlined conical shape with a cross-sectional thickness ranging from 1 mm to 5 mm and can be injection-molded with a soft transparent polymer resin.

An extension portion 22 formed with a suction pipe 21 adjacent to the needle 11 and a cutout groove 26 below the suction portion 22 is formed at the upper portion of the suction portion 22 and a suction portion handle 28 Is formed.

Next, the joining structure and operation of the respective components will be described with reference to FIGS. 4 to 5. FIG.

As described above, the suction portion 20 can be partially cut out from the side portion when the cap 30 is removed.

The cap 30 may further include a cutting edge 36 for cutting a part of the incision groove 26 in the process of separating the suction part 20 from the cap 30. The initial position of the incision blade 36 corresponds to the starting point of the incision groove 26.

The suction unit 20, which is placed in a state where it is easy to cut even with a slight force in conjunction with the removal of the cap 30 by the preliminary configuration as described above, exposes the needle 11 by the sliding movement toward the syringe cylinder At the same time, the side is longly incised and extended (opened) to the lower side of the needle portion 10. For this purpose, a cutting groove 26 is formed in the side surface of the suction unit 20, and the cutting groove is continuously extended to almost the end of the portion surrounding the needle 11.

The cutout grooves are shown as one in the embodiment of the drawing, but may be formed as two or three as necessary. It is advantageous that a large number of suction portions are formed as much as the number of fingers is formed. However, since the fingers touch the needle portion 10 to increase the risk of contamination thereof, they are arranged in appropriate numbers.

On the other hand, the space for storing the needle 11 and the suction tube 21 for sucking the injection liquid are separated from each other. The suction portion 20 and the needle portion 10 are completely separated from each other. In order to avoid this, the end of the suction pipe 21 is not cut so that even after the sliding action is completely completed, Hang it.

On the other hand, it is preferable that the end of the suction unit 20, that is, the end of the suction pipe 21 is formed into a needle shape having a thickness (hardness) to such an extent that an ampoule cap made of a rubber film can be pierced if necessary Do.

The inner circumferential surface of the suction portion 20 is further provided with a connection pipe 24 of a soft material for connecting between the suction pipe 21 and the filter 15 and the connection pipe 24 is connected to the lower support portion 12 of the needle portion And is embedded in the inflow hole 16 provided. The distal end portion of the connector tube may be partially used for high resilience human body (used as implant material) to improve sealing capacity during operation. Of course, the suction part including the suction pipe 21, the extension part 22, and the connection pipe 24 may be formed by a single injection molding using one material for mass production.

The needle portion 10 which operates in cooperation with the suction portion 20 will be described in detail.

The needle portion 10 has a main configuration focused on the supporting portion 12 that supports the needle 11 which is stuck on the top. A strip penetrating portion 13 and an outflow hole 17 are further formed in the support portion 12 and an inlet hole 16 and a needle portion handle 18 may be formed in the root portion of the lower portion of the support portion.

In the embodiment based on the drawings, the support portion 12 is indicated as the support portion but is included in the needle portion. The presence or absence of the support portion and the shape characteristic of the support portion are a general feature of the needle portion 20 It is not a decision.

Meanwhile, the strip stopper 14, which is a component to be assembled and coupled as a part of the needle portion, is a core structure inserted into the strip penetrating portion 13 and interlocked with the suction portion 20, and the soft polymeric material or the elasticity is further reinforced Made of silicon material.

Figs. 6 and 7 are views showing the core operation part of the filter needle separately. Fig. Let's take a closer look at the process of combining, moving, and separating operating parts with reference to these drawings. Although the drawings are illustrated in an unrealistically enlarged manner to aid structural understanding, those of ordinary skill in the art will rather be able to assist with design and application, and those portions that are unrealistic in nature, such as dimensions, It is not intended to affect the scope of rights in advance.

The suction portion handle 28 is disposed on both sides (in the y-axis direction) of the region where the incision groove 26 is formed and in the direction orthogonal thereto (x-axis direction) The knobs 38 are arranged so as not to overlap each other.

In other words, the user can hold the suction portion handle 28 with one hand and pull the cap handle 38 with the other hand to remove the cap 30. In the next step, while gripping the suction portion handle 28 The suction unit 20 can be pulled down by gripping the syringe cylinder with the cap removed hand. In this process, the needle portion 11 is prevented from being contaminated by touching any touch.

The strip cap 14 is connected to the connection pipe 24 to close the inflow hole 16 communicating with the filter 15 or the filter while interlocking with the sliding movement of the suction unit 20, The ball 17 is opened.

At this time, depending on the movement of the suction part, that is, the range of movement of the extension pipe of the connection pipe, the strip cap 14 closes the inflow hole 16 or the connection with the connection pipe 24 is released after the outlet hole 17 is opened .

Thus, the ampoule injected liquid is initially filtered from the suction pipe 21 through the connecting pipe 24 through the inflow hole 16 into the filter 15, and then flows into the syringe cylinder.

The inflow hole 16 is then closed by the strip stopper 14 and the outflow hole 17 is opened so that the injection liquid can be injected into the human body through the needle 11. [

At this time, the filter 15 must be disposed under the inflow hole 16 and can be enlarged and arranged as far as below the outflow hole 17, if necessary. The arrangement of the filter 15 on the side of the outflow hole 17 is a problem which can be selected according to need in the technical field, and whether or not the filter 15 does not affect the unique technical idea of the present invention.

Finally, the needle holder 18 is held, the suction handle 28 is returned to its original position, and then the cap 30 is covered again, so that the used filter needle can be simply and safely disposed of.

By the simple and precise operation of the flexible parts including the strip stopper 14, the needle 11 is not clogged by the unidirectional valve membrane which can only flow out, and maintains the open tube state capable of both suction and discharge. Therefore, the filter needle of the present invention can perform the function of confirming whether or not the blood is detected by inserting the human body after inserting the human body like a normal needle without any problem, and the glass fragments filtered by the filter 15 are completely isolated from the needle.

The technical idea of the present invention has been described above with reference to specific embodiments. It should be understood that the technical idea of the present invention should be construed on the basis of the contents described in the following claims rather than the technical interpretation category of the embodiment.

10: Needle portion
11: Needle 12: Support
13: strip penetration part 14: strip stopper
15: Filter 16: Inlet ball
17: Spill hole 18: Needle handle
20:
21: suction pipe 22: suction side
24: connector 26: incision groove
28: suction handle
30: Cap
32: Cap fixing border
36: incising blade 38: cap handle

Claims (7)

A needle portion 10 to which a needle 11 is fixed at an upper portion and a filter 15 is disposed at a lower portion and a strip stopper 14 is engaged at an intermediate portion;
And a suction unit 20 which surrounds the needle unit 10 and supplies the injected liquid injected through the upper suction pipe 21 to the filter 15,
Characterized in that the strip cap (14) closes the filter (15) or the inflow hole (16) leading to the filter while interlocking with the sliding movement of the suction part (20). The method according to claim 1,
A cutout groove 26 is further formed in a side surface of the suction unit 20,
Wherein the suction unit (20) exposes the needle (11) by a sliding movement, and at the same time, the side is expanded and released downwardly of the needle unit (10). 3. The method of claim 2,
A cap 30 is fitted to the suction unit 20,
Wherein the cap (30) is further provided with a cutting edge (36) for cutting a part of the incision groove (26) in a process of separating from the suction part (20). The method according to claim 2 or 3,
A connection pipe 24 of a soft material for connecting the suction pipe 21 and the filter 15 is further disposed on the inner circumferential surface of the suction pipe 20,
Wherein the strip cap (14) is connected to the connection tube (24) and is interlocked with the suction unit (20). 5. The method of claim 4,
The needle portion 10 further includes a strip penetrating portion 13 and an outflow hole 17,
Wherein the strip cap (14) is inserted into the strip penetrating part (13) and opens the outlet hole (17) in the process of interlocking with the suction part (20). 6. The method of claim 5,
Wherein the strip cap (14) is configured to be disconnected from the connection tube (24) after closing the inlet hole (16) or opening the outlet hole (17). A filter syringe comprising the filter needle according to any one of claims 1 to 3 attached thereto in a detachable or fixed manner.

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