KR200292126Y1 - Sanitary device for treatment of infections medical wastewater - Google Patents

Abstract

The present invention seeks to develop a device for collecting liquid components in medical waste. First of all, liquid blood, body fluids, and so on contain a large number of bacteria, so if you do not sanitize it, you may be infected by other people.

First, a vacuum suction device is used for collection at the site where the medical waste liquid is generated, the vacuum suction container (1), the vacuum suction lid (10), the vacuum suction handle (20), which will hold the waste liquid sucked as a component thereof, Stopper 100 to prevent backflow, the suction bottle cap 200 is configured.

The medical waste fluid sucked into the vacuum suction container (1) not only contains various germs but also has a high risk of transmission when it is broken, and thus contains a coagulant that solidifies the liquid component immediately and makes it into a gel or 固 狀. It makes the liquid solid and contains a lot of bacteria, so it contains a strong disinfectant so that medical waste can be sterilized immediately when it is sucked into the vacuum suction bottle, so that it can be sanitized even during disposal (mainly incineration). It was.

Description

Sanitary device for treatment of infections medical wastewater

Diversification of life leads to various diseases around us. Therefore, medical waste generated in hospitals also varies. In addition, there are a variety of pathogens buried in this way, the infectious pathogens are contaminated, causing social controversy.

The present invention will describe a device for sanitizing such medical waste, in particular liquid components. First, a large amount of liquid blood, body fluids or medicines in medical wastes are generated during surgery and treatment, which often contain many pathogens and cause social problems that are transmitted to others.

The present invention produced a 2L suction vacuum bottle to store the medical waste fluid sucked from the patient through the vacuum suction tube of the vacuum reservoir and to stop the reverse flow of the medical waste liquid by installing a stopper. In addition, special coagulants were developed and used to absorb and coagulate both inhaled hydrophilic and hydrophobic medical waste fluids.

More specifically, there are hydrophilic and hydrophobic substances in the medical waste fluid generated during surgery or medical treatment. Both of them are coagulants that can coagulate and gelate the superabsorbent polymers such as starch-sodium acrylate copolymer or acrylic acid-based superabsorbent polymers. Rice bran (rice bran), which can absorb hydrophobic substances, can be mixed from 6: 4 to 9: 1, and used as an optimum ratio of 8: 2. In addition, it contains a bactericide such as cresol, which coagulates medical waste and sterilizes pathogens. At this time, the fungicide was used while changing the coagulant and mixing ratio from 30% to 5% of the total weight. Optimal conditions were good at 10% of the total weight. In this way, it was possible to devise an easy way to deal with infectious medical waste.

The present invention relates to a sanitary treatment apparatus for infectious medical waste, and more particularly, to a sanitary treatment apparatus for recovering extracts and infectious liquid waste generated in a hospital.

In general, most of the wastes generated in hospitals are infected with pathogens, and wastes, bandages, dialyzed blood, injections, etc., which are extracted from the body of a surgical patient and used for treating patients, are highly likely to be infected with bacteria. It must be collected separately and incinerated.

The infectious medical waste liquid hygiene treatment apparatus collects the medical waste liquid in a vacuum suction container and incinerates the suction container itself, which is hygienic and safe and economically excellent because waste materials can be used.

The present invention is to solve the above problems, the medical waste fluid is sucked into the vacuum suction tube through the suction tube is gelated by the superabsorbent polymer. It contains fungicides, so stoppers were installed to prevent germs from being sterilized and refluxed. The aim is to provide a device that can safely and prevent contamination of medical waste fluid generated from patients.

1 is a perspective view of a vacuum suction device according to the present invention

2 is a perspective view of a vacuum suction container according to the present invention

3 is a perspective view of the vacuum suction device lid according to the present invention

4 is a perspective view of the handle of the vacuum suction device according to the present invention

5 is a perspective view of a vacuum suction device according to the present invention

6 is a perspective view of the lid cap of the vacuum suction device according to the present invention

**************** Explanation of the main symbols in the drawings ******************

1: vacuum suction bottle 10: vacuum suction device lid

20: vacuum suction device handle 100: vacuum suction device stopper

200: vacuum suction device lid cap

In order to achieve the above object, the present invention provides a sanitary treatment device to be attached to the handle, the lid cap and the stopper attached to the lower side of the lid cap in more detail to the vacuum suction lid.

Example 1

As a super absorbent polymer, 80% (by weight) of starch-sodium acrylate copolymer crosslinker powder and 20% (by weight) of rice bran (by weight) are mixed, and then cresol is uniformly adsorbed by 10% of the total weight. The composite polymer was dried to a powder of about 100 mesh.

In this way, after making medical waste adsorbent, in order to see the adsorption effect according to the ion concentration of leachate of medical waste (liquid), add 80% salt by weight and 20% cooking oil by weight to salt, 1%, 2.5%, 5% was added to prepare the ion concentration in the effluent.

After a small amount of adsorbent was added to the glass cup, a randomly prepared medical waste solution was placed in the cup, and after 5 minutes, the cup was inverted and the maximum amount of adsorption was determined until the artificial medical waste absorbed by the adsorbent did not flow down. . As a result, the maximum amount of adsorption without adding salt adsorbed 330 times the weight of the adsorbent.

However, in the case of artificial waste containing 1% salt, 50 times of self weight, 45 times of self weight when 2.5% salt was contained, and 34 times of self weight when 5% salt was included were obtained. After precipitating with the actual pig blood and absorbed with the serum component absorbed 43 times its own weight.

[Test Example 1]

In Example 1, except that the polyacrylic type superabsorbent polymer was used instead of the superabsorbent polymer of Example 1, the experiment was carried out in the same manner as in Example 1, except that Example 1 and the type superabsorbent polymer were used.

As a result, it is adsorbed 91 times of self weight for artificial medical waste without salt, 33 times of self weight for 1% salt concentration, 24 times self weight for 2.5% salt concentration, and 17 times self weight for artificial salt 5% salt concentration. The results were shown.

Example 2

YM prepared by adsorbing and dispersing a small amount of adsorbent in 10 ml of sterile distilled water after adsorbing the actual medical waste liquid to the adsorbent which did not contain 10% of the total weight of cresol as the disinfectant in the adsorbent coagulant prepared in Example 1 After inoculation by inoculating 1 ml of each of E, N and N, the colony numbers were examined after 48 hours in a 30 ° C. incubator.

As a result, all of the YM, E, and N medium did not form colonies in the cresol treatment. On the other hand, hundreds of colonies were found in non-cresol adsorbents.

Example 3

Adsorption experiment was carried out using a liquid made of 20% silicon oil and 80% water, which is a hydrophobic medical waste solution, used as a model for hydrophobic medical waste fluid by using the adsorbent coagulant and commercially available adsorbent prepared in Example 1. As a result of use, all of the adsorption coagulants made in Example 1 were adsorption coagulation. On the other hand, commercially available adsorption coagulants resulted in the adsorption of the hydrophilic water component but the hydrophobic oil component flowed out as it was, so that it could not be solidified.

Example 4

Inhalation collection by vacuum at the site (or location) where medical waste (liquid) occurs is the suction tube and there is a suction vacuum chamber to store the sucked waste liquid. In addition, the collected medical waste was sucked into the transparent vacuum suction container, which was convenient to observe the medical waste liquid. The medical waste liquid enters the vacuum suction tube by continuous vacuum suction input and reacts with the flocculant and gelates or denatures immediately.

In addition, the vacuum pump could not be sucked due to the failure of the vacuum pump in order to prevent the backflow of the medical waste in the vacuum suction can be used to prevent the backflow.

Infectious medical waste hygiene treatment device according to the present invention made as described above, the suction of medical waste was stored in a vacuum suction container and installed to stop the medical waste fluid was produced to prevent backflow. In addition, special coagulants were developed and used to absorb and coagulate both inhaled hydrophilic and hydrophobic medical waste fluids.

Although the present invention has been described with reference to specific preferred embodiments, the present invention is not limited to the above-described embodiments, and the present invention has ordinary knowledge in the technical field to which the present invention belongs without departing from the gist of the present invention. Various changes and modifications can be made by the user.

Claims (1)

In infectious medical liquid waste sanitation apparatus, A vacuum suction container (1) for sucking waste liquid and a lid (10) for preventing leakage of the vacuum suction container (1), a handle (20) mounted to carry the vacuum suction container (1), And a sanitary treatment device consisting of a stopper (100), a lid stopper (200) to block the hole of the lid, characterized in that the plastic floater floating only in a high viscosity liquid as shown in Figure 5 is mounted inside the stopper to prevent backflow .