KR102369572B1 - Vessel for medical waste including super absorbent polymer and medical waste collecting system using the same - Google Patents

Abstract

A medical waste collection container and a medical waste collection system using the medical waste collection container are provided. The medical waste collection container includes a container body; A cover disposed on the upper portion of the container body, the cover having a first hole and a second hole formed therein; and a superabsorbent polymer package accommodated in the container body.

Description

Medical waste collection container containing superabsorbent resin and medical waste collection system using same

The present invention relates to a medical waste collection container and a medical waste collection system using the same, and more particularly, to a medical waste collection container and a medical waste collection system with improved handling by including a super absorbent polymer.

In general, medical waste refers to various wastes generated by medical-related institutions such as hospitals, clinics, and public health centers. In a broad sense, medical waste includes not only cotton wool, gauze, bandages, diapers, human excretions, dialysis blood, infusion, syringes, needles, thermometers and test tubes, etc. do.

For example, medical waste may be classified into general waste, pathological waste, infectious/infectious waste, perishable waste, chemical waste, pharmaceutical waste, explosive waste, and radioactive waste according to their type. Medical waste has a risk of contamination by pathogenic harmful substances, such as pathogens, heavy metals, and poisons, due to its characteristics, and therefore requires attention to its treatment, unlike general household waste. Currently, medical waste is incinerated and disposed of by medical institutions or specialized medical waste treatment companies.

Meanwhile, a suction apparatus may be used as a device for sucking liquid waste or fine solid waste from the body of a patient. The suction device may suck sputum and saliva in the oral cavity of the patient through negative pressure formed in connection with the vacuum pump, or may suck the patient's blood generated during a surgical operation. Alternatively, it may be provided together with an endoscopic instrument used for endoscopic procedures such as the esophagus, stomach, or large intestine to suck food debris in the patient's organs, residual body fluids in the organs, exfoliated tissue pieces, blood, urine or feces, and the like. Liquid waste inhaled from such a patient is stored in a dedicated medical waste collection container, and when a certain amount is collected, it is transported to an incinerator and disposed of.

Liquid wastes inhaled from patients generally have suspended solids, are highly viscous, and have yellowish, brownish or reddish color, which makes the person concerned seem uncomfortable. Moreover, since the odor is very strong, especially if stored at room temperature for more than one day, the contents deteriorate and there is a very high possibility that the contents contain infectious or infectious pathogens. It is a very reluctant task for officials of medical institutions in Korea and employees of medical waste collection companies.

Republic of Korea Patent Publication No. 10-2019-0007308 (2019.01.22.) Republic of Korea Registered Utility Model Publication No. 20-0189269 (July 15, 2000)

In addition, since it usually has a capacity of 2,000cc or more, the weight is considerable due to the contents, and due to the nature of the container, the inside is not completely sealed, but the inside and the outside are connected. there is

On the other hand, as one of the methods of directly storing liquid waste sucked from a patient in a medical waste collection container, a suction device is connected to one side of the medical waste collection container and a vacuum pump is provided on the other side of the medical waste collection container. There are ways to provide That is, when a negative pressure is formed in the medical waste collection container by the vacuum pump, the liquid waste is sucked from the suction device by the negative pressure, and the waste sucked along the nozzle connected to the suction device can be directly stored in the medical waste collection container. A vacuum pump used in hospitals or clinics is generally provided with a built-in wall near the bedside of a patient bed or a wall of an operating room. Therefore, in order to repair or replace the vacuum pump, the walls of the ward and the operating room are dismantled and then the repair proceeds, leading to a large-scale construction.

On the other hand, it is not uncommon for a vacuum pump installed inside a wall to fail due to some reason occurring by a suction process in an actual medical field. As described above, in most cases, the vacuum pump is installed inside the wall, and the failure of the vacuum pump causes a great waste of money and time, so it is very important to prevent damage to the vacuum pump. However, due to the characteristics of medical institutions that deal with patients' lives, if the vacuum pump fails, urgently restoring the vacuum pump to its original state is prioritized rather than finding the cause. situation.

The inventors of the present invention understand that, due to the structural problem of the medical waste collection container, at least some of the aspirated medical waste does not stay in the medical waste collection container but reaches the vacuum pump and is a problem that occurs. reached

Accordingly, the problem to be solved by the present invention is to provide a medical waste collection container that can improve operation convenience to medical personnel who manage the medical waste collection container and a medical waste professional collection company even when liquid medical waste is stored in a large capacity. will be.

At the same time, there is a regulator system for sucking medical waste from a patient's body, thereby providing a medical waste collection container capable of suppressing damage to the vacuum pump.

The problems of the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

Medical waste collection container according to an embodiment of the present invention for solving the above problems is a container body; A cover disposed on the upper portion of the container body, the cover having a first hole and a second hole formed therein; and a superabsorbent polymer package accommodated in the container body.

The superabsorbent polymer package may include a water-soluble packaging film and a superabsorbent polymer powder packaged by the water-soluble packaging film.

In addition, the superabsorbent polymer package may be packaged by the water-soluble packaging film and further include a dye mixed with the superabsorbent polymer powder.

In addition, the superabsorbent polymer package may be packaged by the water-soluble packaging film and further include a neutralizing agent mixed with the superabsorbent polymer powder.

The cover may include a cover plate having the first hole and the second hole formed therein, a first port extending from the cover plate and connected to the first hole, and a second port extending from the cover plate and connected to the second hole. may include

Here, the size of the first hole may be smaller than the size of the second hole, and the downward extension length of the first port may be greater than the downward extension length of the second port.

A medical waste collection system according to an embodiment of the present invention for solving the above other problems is a medical waste collection container including a container body and a cover, wherein the cover includes a cover plate having a first hole and a second hole formed therein; a medical waste collection container including a first port connected to the first hole and a second port connected to the second hole; a suction nozzle connecting the first port and a suction mechanism; and a pump nozzle connecting the second port and the vacuum pump, wherein the first port and the second port protrude from an outer wall of a conduit portion extending in an upward direction, and an outer wall of the conduit portion, respectively, in an up-down direction. a spaced apart first protrusion and a second protrusion, wherein the suction nozzle and the pump nozzle each comprise a ball flange, the ball of the ball flange configured to be inserted into a groove between the first protrusion and the second protrusion Thus, the first port and the suction nozzle are coupled, and the second port and the pump nozzle are coupled.

The average inner diameter of the suction nozzle may be smaller than the inner diameter of the conduit portion of the first port.

In addition, the average inner diameter of the pump nozzle may be smaller than the inner diameter of the conduit portion of the second port.

Details of other embodiments are included in the detailed description.

According to embodiments of the present invention, although the manufacturing cost can be reduced with a simple structure, damage to the vacuum pump can be suppressed. In addition, it is possible to improve the convenience of operation of the medical waste collection container.

Effects according to the embodiments of the present invention are not limited by the contents exemplified above, and more various effects are included in the present specification.

1 is a perspective view showing a medical waste collection system according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of the medical waste collection container of FIG. 1 .
3 is a perspective view of the cover of FIG. 2 ;
4 is an enlarged perspective view of an enlarged port portion of the cover of FIG. 3 .
5 is a rear perspective view of the cover of FIG. 2 .
6 is a cross-sectional view of the medical waste collection container and the first nozzle and the second nozzle of FIG. 1 cut in a first direction.
7 is an enlarged cross-sectional view of the first port and the second port of FIG. 6 .
FIG. 8 is an enlarged cross-sectional view of the nozzle of FIG. 6 .
9 is an exploded perspective view of a medical waste collection container according to another embodiment of the present invention.
Fig. 10 is a plan view of the lid of Fig. 9;
11 is a cross-sectional view of a medical waste collection container according to another embodiment of the present invention.
12 is an exploded perspective view of a medical waste collection container according to another embodiment of the present invention.
13 is a rear perspective view of the overflow prevention member of FIG. 12 .
14 and 15 are views illustrating an example of use of the medical waste collection container of FIG. 12 .

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only the embodiments allow the disclosure of the present invention to be complete, and those of ordinary skill in the art to which the present invention pertains. It is provided to fully inform the person of the scope of the invention, and the present invention is only defined by the scope of the claims.

Spatially relative terms 'above', 'upper', 'on', 'below', 'beneath', 'lower', etc. As illustrated, it may be used to easily describe a correlation between one element or components and another device or components. Spatially relative terms should be understood as terms including different orientations of the device when used in addition to the orientations shown in the drawings. For example, when an element shown in the drawing is turned over, an element described as 'below or beneath' of another element may be placed 'above' of the other element. Accordingly, the exemplary term 'down' may include both the direction of the bottom and the top.

The terminology used herein is for the purpose of describing the embodiments and is not intended to limit the present invention. In this specification, 'and/or' includes each and every combination of one or more of the recited items. The singular also includes the plural, unless the phrase specifically states otherwise. As used herein, 'comprises' and/or 'comprising' does not exclude the presence or addition of one or more other elements in addition to the stated elements. Numerical ranges indicated using 'to' indicate numerical ranges including the values stated before and after them as lower and upper limits, respectively. 'About' or 'approximately' means a value or numerical range within 20% of the value or numerical range recited thereafter.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not to be interpreted ideally or excessively unless clearly defined in particular.

In this specification, the first direction (X) means an arbitrary direction in a plane, and the second direction (Y) means another direction intersecting the first direction (X) in the plane. In addition, the third direction Z means a direction perpendicular to the plane. Unless otherwise defined, 'plane' means a plane to which the first direction (X) and the second direction (Y) belong. In addition, unless otherwise defined, 'overlapping' means overlapping in the third direction (Z) from the plane viewpoint.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a medical waste collection system 1 according to an embodiment of the present invention. FIG. 2 is an exploded perspective view of the medical waste collection container 11 of FIG. 1 .

1 and 2 , the medical waste collection system 1 according to the present embodiment includes a medical waste collection container 11 and a suction nozzle 410 and a pump nozzle 420 connected to the medical waste collection container 11 . may include

The medical waste collection container 11 may include a container body 100 and a cover 201 configured to be coupled to an upper end of the container body 100 . The container body 100 and the cover 201 may each have a screw thread, and may be screwed together. For example, a screw thread (not shown) may be provided on the inner circumferential surface of the cover 201 , and a screw thread may be provided on the outer circumferential surface of the side wall of the container body 100 . However, the present invention is not limited thereto.

The container body 100 may be in the shape of a bowl having a sufficient accommodating space therein. The storage capacity of the container body 100 may be approximately 2,000cc or 4,000cc. The container body 100 and the cover 201 may be made of a plastic material having predetermined elasticity, rigidity, and strength, respectively. As will be described later, the medical waste collection container 11 may be connected to a vacuum pump, and thus the container body 100 and the cover 201 are formed in the process of forming a negative pressure inside the container by making the container body 100 and the like have a predetermined elasticity. ) is not destroyed, and it is possible to prevent the container body 100 and the cover 201 from being forcibly separated.

In addition, the container body 100 and the like may be made of a material having relatively low thermal conductivity. Medical waste aspirated from the body of the patient may have a temperature approximately equal to the body temperature of a human. Therefore, it is possible to prevent heat from being transmitted to the outside through the medical waste collection container 11 by configuring the container body 100 to have a low thermal conductivity.

A first nozzle 410 (ie, a suction nozzle) connects the medical waste collection container 11 and a suction device (not shown), and the second nozzle 420 (ie, a pump nozzle) connects the medical waste collection container 11 . ) and a vacuum pump (not shown) can be connected. That is, the first nozzle 410 and the second nozzle 420 may be a suction nozzle and a pump nozzle, respectively.

In addition, the first nozzle 410 and the second nozzle 420 may include a nozzle body NZ and a flange FG, respectively. The flange FG may be configured for easy connection with the first port 210 and the second port 220 to be described later. In an exemplary embodiment, the flange FG may be a ball flange.

Although not represented in the drawings, the medical waste collection container 11 according to the present embodiment may include a superabsorbent polymer package (not shown) accommodated in the inner space of the container body 100 . The superabsorbent polymer package may include superabsorbent polymer powder.

In an exemplary embodiment, the superabsorbent polymer package may include a water-soluble packaging film and a superabsorbent polymer powder packaged or packaged by the water-soluble packaging film. That is, although the superabsorbent polymer has a powdery state in the initial state, it is possible to maintain a state not scattered by the water-soluble packaging film.

The water-soluble packaging film may be made of a material that dissolves the film when it comes into contact with a liquid containing water. Examples of the water-soluble packaging film include polyvinyl alcohol, vinyl acetate acrylic acid, and ester copolymer, but the present invention is not limited thereto.

The superabsorbent polymer powder refers to a powdery superabsorbent polymer (SAP). The superabsorbent polymer is a synthetic polymer material having a function of absorbing about 500 to 1,000 times its own weight in moisture. Super absorbent polymers are also called SAM (super absorbency material) or AGM (absorbent gel material). When the superabsorbent polymer and superabsorbent polymer powder dried in the initial state come into contact with liquids such as moisture, they absorb moisture and may change to a gel state. The superabsorbent polymer, which has changed to a gel state by absorbing moisture, has a rapid decrease in fluidity and can maintain a semi-solid state.

The medical waste collection container 11 according to this embodiment contains superabsorbent resin powder packaged by a water-soluble packaging film therein, and when the liquid medical waste sucked from the patient's body flows into the container, Medical waste may come into contact with the superabsorbent polymer packaging. At this time, the water-soluble packaging film is dissolved by the medical waste, the superabsorbent polymer powder is gradually released therein, and the liquid medical waste can be absorbed. As described above, when the internal capacity of the medical waste collection container 11 is about 2,000 cc or more, when the medical waste is full, the weight is considerable and may cause inconvenience in handling. In particular, when the medical waste collection container 11 full of medical waste is transported, there is a problem in that liquid medical waste may be sloshed and poured to the outside. According to the medical waste collection container 11 according to the present embodiment, since the medical waste sucked into the liquid can be stored in a gel form and the fluidity disappears, the medical waste collection container 11 can be transported very easily.

Although not shown in the drawings, in some embodiments, the medical waste collection container 11 according to the present embodiment may further include a dye and/or a neutralizing agent accommodated in the inner space. The dye and/or the neutralizing agent may be packaged or packaged by the water-soluble packaging film described above. In addition, the dye and/or the neutralizing agent may be in a mixed state with the super absorbent polymer powder, respectively.

As described above, medical wastes aspirated from the patient's body are yellowish, brown or red in color and often have an ugly appearance. As described above, when liquid medical waste flows into the medical waste collection container 11, the water-soluble packaging film is dissolved, and accordingly, the dye and neutralizer packaged therein leaks out and can be mixed with the liquid medical waste. .

Although the present invention is not limited thereto, for example, when a green dye or a blue dye is included, the dye is dissolved in the liquid medical waste, and the stored medical waste may be dyed with green or blue. That is, the medical waste collection container having a capacity of about 2,000cc in actual medical sites is used for about 2 to 3 days, and the color of the stored medical waste is dyed with green or blue to make the appearance better. can be made, and it is possible to provide work convenience to an operator who handles the medical waste collection container 11 .

On the other hand, the liquid medical waste sucked from the patient's body contains a large amount of body fluid components existing in the patient's organs. Although the present invention is not limited thereto, for example, when an acidic body fluid is stored in the medical waste collection container 11 for a long period of time, it may cause rapid decay and generate a very severe odor. Therefore, there is an effect of solving these problems by including a body fluid neutralizing agent in powder form that can neutralize body fluids.

Hereinafter, the medical waste collection container 11 according to the present embodiment will be described in more detail with further reference to FIGS. 3 to 8 .

3 is a perspective view of the cover 201 of FIG. 2 . 4 is an enlarged perspective view of an enlarged port portion of the cover 201 of FIG. 3 . 5 is a rear perspective view of the cover 201 of FIG. 2 . 6 is a cross-sectional view of the medical waste collection container 11 and the first nozzle 410 and the second nozzle 420 of FIG. 1 cut in the first direction (X), specifically, the medical waste collection container 11 of FIG. It is a cross-sectional view cut to show the first port 210 and the second port 220 . 7 is an enlarged cross-sectional view of the first port 210 and the second port 220 of FIG. 6 . FIG. 8 is an enlarged cross-sectional view of the nozzle of FIG. 6 .

3 to 8 , the cover 201 according to the present embodiment includes a cover plate 250 having a first hole H1 and a second hole H2 formed therein, and a first connected to the first hole H1. The first port 210 and the second port 220 connected to the second hole H2 may be included, and one or more grip units 260 may be further included. 3 illustrates a case in which two grip parts 260 are spaced apart in the second direction Y, but the present invention is not limited thereto.

The first hole H1 and the second hole H2 may be formed to pass through the cover plate 250 , respectively. In a state in which the container body 100 and the cover 201 are coupled, the inside of the medical waste collection container 11 may be connected to the outside through the first hole H1 and the second hole H2 . The sizes of the first hole H1 and the second hole H2 may be different from each other. When the first hole H1 is connected to an external suction mechanism (not shown) and the second hole H2 is connected to an external vacuum pump (not shown), the size of the second hole H2, for example A size on a plane may be larger than a size of the first hole H1 .

The first port 210 is connected to the first hole H1 to form a structure for coupling with other components, and the second port 220 is connected to the second hole H2 to be coupled with other components. structures can be formed for The first port 210 (or the first hole H1) and the second port 220 (or the second hole H2) may have different functions. To this end, an identification mark for distinguishing the first port 210 and the second port 220 may be provided on the upper surface of the cover plate 250 . In an exemplary embodiment, the first port 210 is an external suction device (not shown) and a suction nozzle 410 (ie, the first nozzle 410 ) that connects the suction device and the medical waste collection container 11 . and can be connected to the euro. In addition, the second port 220 may be connected to an external vacuum pump (not shown) and a pump nozzle 420 (ie, the second nozzle 420 ) that connects the vacuum pump and the medical waste collection container 11 to the flow path. there is. That is, the suction device and the vacuum pump may form a regulator system together, and the medical waste collection container 11 may be located on a flow path from the suction device to the vacuum pump. When a negative pressure is formed in the medical waste collection container 11 by the vacuum pump, the medical waste in the patient's body is sucked by the suction mechanism, and the suctioned medical waste may be accommodated in the medical waste collection container 11 .

First, the first port 210 may include an upper conduit portion 211 extending to one side (eg, upward) in the third direction (Z) of the cover plate 250 . Also, the first port 210 may further include a first protrusion 211a and a second protrusion 211b protruding from the outer circumferential surface of the upper conduit 211 . The first protrusion 211a and the second protrusion 211b may be spaced apart from each other in the third direction Z, and a groove 211g may be formed between the first protrusion 211a and the second protrusion 211b.

The first nozzle 410 connecting the medical waste collection container 11 and the suction device (not shown) may be fitted with the first port 210 . Also, the first nozzle 410 may include a nozzle body NZ and a flange FG disposed at an end of the nozzle body NZ. The flange FG may be a ball flange. A first protrusion 211a and a second protrusion 211b and a groove 211g formed therebetween are provided on the surface of the upper conduit 211 of the first port 210, and the flange of the first nozzle 410 ( By configuring the ball of the FG) to be inserted into the groove portion 211g, it is possible to facilitate repeated mounting and detachment between the first port 210 and the suction nozzle. The nozzle body NZ may be made of a material having elasticity, such as a silicon material, and the flange FG may be made of a metal material.

Specifically, the flange FG of the first nozzle 410 includes the inner tube IT, the elastic body SP, one or more balls B disposed in the hole of the sidewall of the inner tube IT, and the external manipulation unit OC. may include As shown in FIG. 8 , when the external manipulation unit OC is pulled upwards, the ball B of the side wall of the inner tube IT can be moved to protrude relatively outward, and accordingly, the flange of the first nozzle 410 Separation between (FG) and the first port 210 becomes very easy. On the other hand, when the external force applied to the external manipulation unit OC is removed, the external manipulation unit OC may move downward by the elastic body SP. The inner wall of the external manipulation unit OC presses the ball B in the inward direction, and the ball B may move relatively protruding inward. Accordingly, a firm coupling between the ball B of the flange FG and the recessed portion 211g of the first port 210 may be made.

The medical waste collection container 11 needs to be inserted/removed at a very high frequency with the nozzle of the suction device. In this case, the medical waste sucked from the patient's body may remain in the suction nozzle 410 , and in the process of detaching the suction nozzle 410 from the medical waste collection container 11 , the nozzle of the suction nozzle 410 . There is a problem that medical waste may be scattered around due to the elasticity of the body NZ. As a non-limiting example, there is an effect that allows easy separation by disposing the first port 210 having a structure that can be combined with the flange (FG) as in the present invention as compared to the case where the suction nozzle is press-fitted.

In addition, however, in order to form a negative pressure in the medical waste collection container 11, the coupling between the medical waste collection container 11 and the nozzle must be very strong. Therefore, as a non-limiting example, there is an effect that allows easier separation by disposing the first port 210 having a structure that can be combined with the flange (FG) as in the present invention compared to the case where the suction nozzle is press-fitted. For example, the suction nozzle 410 and the first port 210 can be mounted and detached only by one-touch operation using one hand.

In some embodiments, the average inner diameter of the first nozzle 410 , for example, the average inner diameter of the nozzle body NZ of the first nozzle 410 is the inner diameter of the upper conduit 211 of the first port 210 . (D ₂₁₁ ) may be smaller. Through this, the moving speed of the fluid passing through the upper conduit 211 of the first port 210 may be configured to be smaller than the moving speed of the fluid inside the first nozzle 410 . As will be described later, when the liquid medical waste introduced through the first port 210 is poured with excessively high pressure, the medical waste or superabsorbent polymer powder already stored in the container body 100 is transferred to the second port 220 ) and there is a problem that may cause damage to the vacuum pump (not shown). The medical waste collection system 1 according to the present embodiment forms a specific relationship between the average inner diameter of the first nozzle 410 and the inner diameter D ₂₁₁ of the upper conduit 211 of the first port 210 to form a specific relationship. can be minimized.

In some embodiments, the first port 210 may further include a third protrusion 211c. The third protrusion 211c may be disposed in contact with the second protrusion 211b, but the present invention is not limited thereto. When the suction nozzle 410 is provided to include the flange FG, the third protrusion 211c may set a coupling limit of the flange FG to space the flange FG and the cover plate 250 apart. When the flange FG is spaced apart from the cover plate 250 without abutting against it, for example, a negative pressure is formed in the medical waste collection container 11 and this causes the medical waste collection container 11 to contract and expand repeatedly. In, it is possible to prevent the flange FG and the first port 210 from being separated.

Next, the second port 220 may include an upper conduit portion 221 extending in one side (eg, upward) in the third direction (Z) of the cover plate 250 . The inner diameter D ₂₂₁ of the upper conduit 221 of the second port 220 may be substantially the same as the inner diameter D ₂₁₁ of the upper conduit 211 of the first port 210 . In addition, the second port 220 may further include a first protrusion 221a and a second protrusion 221b protruding from the outer circumferential surface of the upper conduit 221 . The first protrusion 221a and the second protrusion 221b may be spaced apart from each other in the third direction Z, and a groove may be formed between the first protrusion 221a and the second protrusion 221b.

Similarly, the second nozzle 420 connecting the medical waste collection container 11 and the vacuum pump (not shown) may be fitted with the second port 220 . Also, the second nozzle 420 may include a nozzle body NZ and a flange FG disposed at an end of the nozzle body NZ. The flange FG may be a ball flange. A first protrusion 221a and a second protrusion 221b and a groove formed therebetween are provided on the surface of the upper pipe part 221 of the second port 220, and the flange FG of the second nozzle 420 is formed. By configuring the ball to fit into the groove, it is possible to facilitate repeated mounting and detachment between the second port 220 and the pump nozzle. Since the detailed configuration of the second nozzle 420 is substantially the same as that of the first nozzle 410 , a detailed description thereof will be omitted. In addition, the average inner diameter of the second nozzle 420 , for example, the average inner diameter of the nozzle body NZ of the second nozzle 420 is the inner diameter D ₂₂₁ of the upper conduit 221 of the second port 220 . ) may be smaller than Through this, the moving speed of the fluid passing through the upper conduit 221 of the second port 220 may be configured to be smaller than the moving speed of the fluid inside the second nozzle 420 .

In some embodiments, the second port 220 may further include a third protrusion 221c. The third protrusion 221c may be disposed in contact with the second protrusion 221b, but the present invention is not limited thereto. When the pump nozzle 420 includes the flange FG, the third protrusion 221c may set a coupling limit of the flange FG to separate the flange FG from the cover plate 250 . Through this, it is possible to prevent the flange FG from being separated from the second port 220 .

Meanwhile, the cover plate 250 includes a first plate 251 having a substantially circular shape in plan view, a first sidewall part 252 extending downward from an outer peripheral edge of the first plate 251 , and a first sidewall part 252 . It may include a second plate 253 having a substantially annular shape in plan view and extending from a lower end thereof in an outer circumferential direction, and a second sidewall portion 254 extending downward from an outer circumferential edge of the second plate 253 . A first hole H1 and a second hole H2 may be formed in the first plate 251 . The inner diameters of the first hole H1 and the second hole H2 may be different from each other. In addition, the screw thread 200s may be formed on the inner circumferential surface of the second side wall portion 254 . The screw thread 200s of the cover plate 250 may be configured to be screwed-coupled with the screw thread 100s of the container body 100 . In addition, the cover plate 250 may further include a closing jaw 200t protruding downward from the second plate 253 . The sealing jaw 200t may be disposed to contact the inner wall of the container body 100 in a state in which the cover 201 and the container body 100 are coupled.

In some embodiments, the first port 210 may further include a lower conduit portion 215 extending to the other side (eg, the lower side) in the third direction (Z) of the cover plate 250 . The lower conduit portion 215 may have a shape extending in the third direction (Z). A cross-section of the lower conduit part 215 may have a substantially circular shape. The inner diameter D ₂₁₅ of the lower conduit 215 of the first port 210 may be substantially the same as the inner diameter D ₂₁₁ of the upper conduit 211 of the first port 210 . In addition, inner diameters D ₂₁₁ and D ₂₁₅ of the upper conduit 211 and the lower conduit 215 of the first port 210 may be substantially the same as the size of the first hole H1 .

Since the first port 210 includes the lower conduit 215 extending in the third direction Z, it is possible to uniformly induce the liquid medical waste sucked from the patient's body to pour out. For example, when the first port 210 does not include the lower conduit portion 215 , liquid medical waste may be scattered inside the medical waste collection container 11 , at least a portion of which is the second port 220 . ) and may cause the vacuum pump to malfunction.

In addition, the second port 220 further includes a first lower conduit portion 225 extending to the other side (eg, the lower side) in the third direction (Z) of the cover plate 250 , It may further include a second lower conduit portion 227 extending to the other side in the three directions (Z). Each of the first lower conduit part 225 and the second lower conduit part 227 may have a shape extending in the third direction (Z). The cross-sections of the first lower conduit part 225 and the second lower conduit part 227 may be approximately circular. Also, the second lower conduit 227 may be located in the first lower conduit 225 . That is, in a plan view, the second lower conduit 227 may be surrounded by the first lower conduit 225 . Also, the extended length L ₂₂₅ of the first lower conduit 225 may be greater than the extended length L ₂₂₇ of the second lower conduit 227 .

In this case, the inner diameter D ₂₂₇ of the second lower conduit 227 of the second port 220 may be greater than the inner diameter D ₂₂₁ of the upper conduit 221 of the second port 220 . Accordingly, a step may be formed between the inner wall of the second lower conduit 227 and the inner wall of the upper conduit 221 . Meanwhile, the inner diameter D ₂₂₇ of the second lower conduit 227 of the second port 220 may be greater than the inner diameter D ₂₁₅ of the lower conduit 215 of the first port 210 .

Also, the inner diameter D ₂₂₅ of the first lower conduit 225 of the second port 220 may be greater than the inner diameter D ₂₂₇ of the second lower conduit 227 of the second port 220 . The inner diameter D ₂₂₇ of the second lower conduit portion 227 may be substantially the same as the size of the second hole H2 . Accordingly, the size of the second hole H2 may be larger than the size of the first hole H1 . The size of the second hole (H2) connected to the vacuum pump (not shown) is larger than the size of the first hole (H1) connected to the suction mechanism (not shown) to increase the suction pressure from the patient's body. It is possible to maximize and prevent the negative pressure induced by the vacuum pump from being lost.

The second port 220 of the medical waste collection container 11 according to the present embodiment includes both the first lower conduit 225 and the second lower conduit 227 to suppress negative pressure loss and at the same time vertical direction suction power can be maximized. Although the present invention is not limited thereto, for example, when the second port 220 includes only the first lower conduit 225 , the size of the second hole H2 and the size of the first lower conduit 225 are Due to the sharp difference between the inner diameters (D ₂₂₅ ), the negative pressure inside the container is lost and the suction power of the suction mechanism (not shown) may be significantly reduced. On the other hand, for example, when the second port 220 includes only the second lower conduit portion 227, the suction force in the vertical direction (eg, the third direction Z) and the lateral direction (eg, the diagonal direction) ) may be absorbed. The suction force in the lateral direction not only generates an unnecessary vortex inside the container, but also increases the possibility that a foreign material is introduced into the second hole H2. Therefore, the structure of the second port 220 of the hole of the medical waste collection container 11, specifically, the second hole H2 connected to the vacuum pump (not shown) side is formed as described above to improve suction power and the second hole. It is possible to suppress the inflow of foreign substances into (H2).

In some embodiments, the extended length L ₂₂₅ of the first lower conduit portion 225 of the second port 220 may be smaller than the extended length L ₂₁₅ of the lower conduit 215 of the first port 210 . can That is, the lower end of the lower conduit 215 of the first port 210 may be located at a lower level than the lower end of the first lower conduit 225 of the second port 220 . As described above, the first port 210 may be connected to the suction mechanism to form an air flow into the vessel, and the second port 220 may be connected to a vacuum pump to form an air flow to the outside of the vessel. Although the present invention is not limited thereto, if the lower end of the lower conduit 215 of the first port 210 is at a higher level than the lower end of the first lower conduit 225 of the second port 220 In this case, an air flow from the lower end of the lower conduit 215 of the first port 210 to the first lower conduit 225 of the second port 220 may occur. Therefore, the medical waste sucked from the patient's body may flow into the vacuum pump through the second port 220 to cause damage to the vacuum pump. Alternatively, the water-soluble packaging film may be dissolved and the superabsorbent polymer powder leaked to the outside may be introduced into the vacuum pump through the second port 220 to cause damage to the vacuum pump.

Further, both the lower end of the lower conduit 215 of the first port 210 and the lower end of the first lower conduit 225 of the second port 220 are lower than the lower end of the second sidewall 254. It can be located at a higher level. The inventors of the present invention, when the lower ends of the lower conduit portions of the first port 210 and the second port 220 are located at a lower level than the lower end of the second side wall portion 254, the medical waste collection container ( 11) It was found that the suction efficiency of the suction mechanism (not shown) sharply decreased at the time when the liquid contents were half filled inside, and the present invention was completed by paying attention to this. That is, the suction efficiency may be different depending on the relationship between the position where the coupling between the lid 201 and the container body 100 is formed and the position of the lower end of the first port 210 and the second port 220, which theory Although not limited to, it may be the effect of the vortex inside the container.

In an exemplary embodiment, the cover 201 may further include a tube member 271 coupled to the first port 210 and/or a filter member 280 coupled to the second port 220 .

The tube member 271 may be fitted into the lower conduit portion 215 of the first port 210 . The tube member 271 may have a shape bent to one side in the first direction (X). Specifically, the tube member 271 may be in a bent state in the direction of the inner wall of the closest container body (100).

Medical waste drawn by a suction device (not shown) may be poured into the medical waste collection container 11 with a significant pressure or strength. At this time, when the suctioned medical waste vertically falls in the third direction (Z) toward the bottom of the container body 100, the medical waste already filled in the container is momentarily scattered and flows into the second port 220 side. can be In addition, medical waste pouring into the medical waste collection container 11 with a significant pressure or strength may scatter powdery superabsorbent polymer powder scattered at the bottom of the container body 100 . At this time, the scattered superabsorbent polymer powder is introduced into the second port 220 side, may be introduced into the inside of the pump nozzle 420 or the inside of the vacuum pump, and the volume expands inside the pump nozzle 420 or inside the vacuum pump to generate a vacuum It may cause pump failure.

Therefore, a curved tube member 271 is disposed in the lower conduit portion 215 of the first port 210, and the medical waste is directed along the tube member 271 toward the side wall rather than the bottom of the container body 100. By configuring it to flow, the problem of damage to the vacuum pump can be minimized.

Furthermore, by disposing the filter member 280 in the second port 220 , it is possible to further prevent foreign substances from flowing into the vacuum pump. The drawing illustrates a case in which the filter member 280 is a filter member including a sieve, but the present invention is not limited thereto. The filter member 280 is not particularly limited as long as it is a member that does not allow relatively large-sized liquid particles or solid particles to permeate and allows gas to permeate, for example, a porous solid filter such as gypsum or a sponge. . The filter member 280 may be fitted to the first lower conduit 225 of the second port 220 .

The medical waste collection container 11 according to the present embodiment prevents the deterioration of the suction function through the first port 210 by the shape of the cover 201, and, while preventing the deterioration of the suction function through the second port 220, The inflow of foreign substances can be suppressed as much as possible. In addition, although the present invention is not limited thereto, even when only the container body 100 and the cover 201 are configured, foreign substances can be prevented from flowing into the vacuum pump, so the structure is relatively simple and the manufacturing cost can be reduced. there is an effect

Hereinafter, a medical waste collection container according to other embodiments of the present invention will be described. However, the description of the components overlapping with the medical waste collection container 11 according to the above-described embodiment will be omitted, which will be clearly understood by those skilled in the art from the accompanying drawings.

9 is an exploded perspective view of the medical waste collection container 12 according to another embodiment of the present invention. 10 is a plan view of the lid 202 of FIG. 9 .

Referring to FIGS. 9 and 10 , the first port 230 and the second port 240 of the cover 202 of the medical waste collection container 12 according to the present embodiment are located on one side, such as in FIG. 1 , etc. It is different from the medical waste collection container 11 according to the embodiment.

Although not represented in the drawings, the point that the medical waste collection container 12 further includes a superabsorbent polymer package, a dye, and/or a body fluid neutralizer therein is the same as described with the embodiment of FIG. 1 and the like.

In an exemplary embodiment, the lid 202 has a substantially circular shape in a plan view, and an imaginary line VL passing through the center CP of the lid 202 extends the lid 202 to one side (eg, the upper side in FIG. 9 ). ) and the other side (eg, the lower side of FIG. 9 ). In this case, the first port 230 (or the first hole) and the second port 240 (or the second hole) according to the present embodiment may be located on the same side.

As described above, the first port 230 may be connected to an external suction mechanism (not shown) and the second port 240 may be connected to an external vacuum pump (not shown). In this case, although not limited to any theory, when the first port 230 and the second port 240 are in mutually symmetrical positions, that is, an imaginary line VL passing through the center CP of the cover 202 . ) passes through both the first port 230 and the second port 240 , a direct air flow connecting the first port 230 and the second port 240 may occur. For example, the air introduced through the first port 230 may be reflected by the bottom surface of the container body 100 and then toward the second port 240 . In addition, by the flow of air directly connecting the first port 230 and the second port 240, the medical waste and/or powdery superabsorbent polymer powder introduced through the first port 230 is transferred to the second port ( 240) through the vacuum pump (not shown) may cause a problem.

Therefore, the medical waste collection container 12 according to the present embodiment has the effect of solving this problem by arranging the first port 230 and the second port 240 not to be located on the same virtual line VL. there is. In addition, although not limited to any theory, the inventors of the present invention have found that when arranging the first port 230 and the second port 240 biased toward either side in a plan view, foreign substances flowing out through the second port 240 It was confirmed that the amount of was significantly reduced, and the present invention was completed by paying attention to this. This may be due to the vortex generated inside the container, but the present invention is not limited thereto.

Although not shown in the drawings, the medical waste collection system may be configured including the medical waste collection container 12 according to the present embodiment and the first nozzle 410 and the second nozzle 420 according to FIG. 1 , of course. am.

11 is a cross-sectional view of a medical waste collection container 13 according to another embodiment of the present invention.

Referring to FIG. 11 , the tube member 273 of the medical waste collection container 13 according to the present embodiment has a shape that is substantially bent toward the first direction (X), and the end of the tube member 273 is cut off. The point is different from the medical waste collection container 11 according to the embodiment of FIG. 1 and the like.

Although not shown in the drawings, the point that the medical waste collection container 13 further includes a superabsorbent polymer package, a dye and/or a body fluid neutralizer therein is the same as described with the embodiment of FIG. 1 and the like.

In an exemplary embodiment, on a cross-section cut along the first direction (X), that is, on a cross-section cut to simultaneously show the first port 210 and the second port 220, the tube member 273 is the container body ( 100) may have a surface facing the inner wall (eg, the right side of FIG. 10 ) and an opposite side (eg, the left side of FIG. 10 ). A surface facing the inner wall of the container body 100 may mean a concave surface of the bent tube member 273 , and the opposite surface may mean a convex surface of the bent tube member 273 .

In this case, the opposite surface of the tube member 273 may more protrude than the surface facing the inner wall of the container body 100 . As described above, the medical waste discharged into the container body 100 through the tube member 273 may be poured with a significant pressure or strength. Therefore, when the tube member 273 is bent in the direction of the inner wall of the container body 100, and furthermore, the end of the tube member 273 is cut in an oblique direction to form the opposite surface in a more protruding shape, It is possible to further prevent the medical waste from directly facing the bottom of the container body 100 .

Although not shown in the drawings, the medical waste collection system may be configured including the medical waste collection container 13 according to the present embodiment and the first nozzle 410 and the second nozzle 420 according to FIG. 1 , of course. am.

12 is an exploded perspective view of a medical waste collection container 14 according to another embodiment of the present invention. 13 is a rear perspective view of the overflow preventing member 300 of FIG. 12 . 14 and 15 are views illustrating an example of use of the medical waste collection container of FIG. 12 .

12 to 15 , the medical waste collection container 14 according to the present embodiment includes a container body 100 and a cover 201 thereof, but is accommodated in the container body 100 and is stored in the container body 100 to prevent overflow. It is different from the medical waste collection container 13 according to the embodiment of FIG. 11 in that it further includes a member 300 .

Although not shown in the drawings, the point that the medical waste collection container 14 further includes a superabsorbent polymer package, a dye and/or a body fluid neutralizer therein is the same as described with the embodiment of FIG. 1 and the like.

In an exemplary embodiment, the overflow prevention member 300 may include a ceiling portion 310 and a plurality of support portions 320 protruding downward from the ceiling portion 310 in the third direction (Z). The ceiling portion 310 and the support portion 320 may be integrally formed without a physical boundary. In addition, the overflow prevention member 300 may be made of a material having a lower density than that of the container body 100 and the cover 201 . For example, the overflow preventing member 300 may be made of plastic.

In the initial state, that is, in a state where there is no medical waste in the container body 100 , the overflow preventing member 300 may be disposed in the container body 100 in a non-fixed state. As a non-limiting example, the overflow prevention member 300 may include three support parts 320 , and the support part 320 may support the bottom of the container body 100 . Through this, the bottom portion of the container body 100 and the ceiling portion 310 of the overflow prevention member 300 may maintain a spaced apart state in the third direction (Z).

When medical waste is stored inside the container body 100 according to the use of the medical waste collection container 14 , the liquid medical waste is absorbed by the superabsorbent polymer powder to form a gel-like medical waste W. As the volume of the gel-like medical waste W gradually increases, the overflow prevention member 300 may rise. In addition, as the amount of medical waste (W) stored inside the container body 100 increases, the height of the overflow prevention member 300 also increases, and the ceiling 310 and the first port ( The distance between the 210 and the second port 220 may gradually decrease. Ultimately, for example, when the overflow prevention member 300 and the tube member 273 come into contact, a smooth air flow may not be formed inside the container and the suction efficiency of the suction mechanism (not shown) may be significantly reduced.

The medical waste collection container 14 according to this embodiment includes a freely movable overflow prevention member 300 therein, and suction when the amount of medical waste (W) accommodated in the medical waste collection container 14 approaches the maximum. It has the effect of lowering the efficiency. Through this, even if a doctor who performs a suction procedure, etc. misses the replacement time of the medical waste collection container 14 due to carelessness, the medical waste W flows into the vacuum pump (not shown) through the second port 220 . can be prevented in advance.

Although not shown in the drawings, the medical waste collection system may be configured including the medical waste collection container 14 according to the present embodiment and the first nozzle 410 and the second nozzle 420 according to FIG. 1 , of course. am.

In the above, the embodiment of the present invention has been mainly described, but this is only an example and does not limit the present invention. It will be appreciated that various modifications and applications not exemplified above are possible. For example, each component specifically shown in the embodiment of the present invention may be implemented by modification. And differences related to such modifications and applications should be construed as being included in the scope of the present invention defined in the appended claims.

1: Medical waste collection system
11: Medical waste collection container
100: container body
201: cover
210: first port
220: second port
250: cover plate

Claims (7)

container body; and
A container cover coupled to the upper portion of the container body, a cover plate having a first hole and a second hole, a first port protruding from the cover plate and connected to the first hole, and the second hole protruding from the cover plate A second port connected to, a tube member coupled to the first port from the lower side of the cover plate; and a container cover including a filter member coupled to the second port from the lower side of the cover plate,
The lower end of the tube member is a medical waste collection container located further lower than the lower end of the filter member. According to claim 1,
In a state in which the container body and the container cover are coupled, the tube member is curved toward the inner wall of the container body that is closest to it,
On the cross section cut along the bending direction of the tube member,
A medical waste collection container having a shape in which the opposite surface of the tube member more protrudes than the surface facing the container body. According to claim 1,
a powdery superabsorbent polymer disposed in the container body; and
The medical waste collection container further comprising a body fluid neutralizing agent disposed in the container body, the powdery body fluid neutralizing agent capable of neutralizing acidic body fluid. According to claim 1,
A planar size of the second hole is larger than a planar size of the first hole,
The first port and the second port include a first lower conduit portion and a second lower conduit portion extending toward the inside of the container body, respectively,
An extended length of the first lower conduit portion is longer than an extended length of the second lower conduit portion. 5. The method of claim 4,
The inner diameter of the second lower conduit portion is greater than the inner diameter of the first lower conduit portion, the medical waste collection container. delete delete

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