JPH05237174A - Sterilization treating container for liquid waste - Google Patents

Abstract

(57) [Summary] [Object] The present invention provides a sterilization container for liquid waste that can easily and inexpensively sterilize liquid waste that may be infected with blood, body fluids, and the like, and can also dispose of it. The purpose is that. [Structure] A polyethylene bag 4 is filled with a piece of water-absorbent paper 7a to which calcium hydroxide particles 5b are attached. Then, the tissue paper 6a is layered thereon with the calcium hydroxide particles 5b sandwiched therebetween, and the tissue paper 6a is filled so that the surface of the tissue paper 6a faces sideways. Cardboard 8 with many holes on it
Is posted. A paper bag 5a is filled with calcium hydroxide particles 5b, and a plate-shaped paper bag 5a is placed thereon. A polyethylene bag 4 filled with these items is stored in the cardboard box 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid waste sterilization container for sterilizing liquid waste such as blood, body fluid, or a solution containing bacteria, and a container for discarding liquid waste.

[0002]

2. Description of the Related Art In recent years, new infectious diseases such as AIDS, hepatitis B, hepatitis C, etc., which are highly fatal to be infected by contact with blood or body fluids, etc., or which have serious symptoms, such as viral diseases Is a problem, and disposal of blood and body fluid after diagnosis or treatment of an illness of an infected patient or after the test is an important issue. However, in some cases, these liquid wastes are directly discharged to the sewage. Therefore,
It has become necessary to sterilize blood and body fluids before discarding them.

By the way, generally suitable sterilization methods include heat sterilization with a dry heat machine or the like, high pressure heat sterilization with an autoclave, filtration sterilization with a membrane filter or the like, irradiation sterilization with radiation irradiation, chemical sterilization with a drug, and the like.

[0004]

However, the sterilization apparatuses and the like corresponding to the above sterilization methods have the following disadvantages. As for the device for performing radiation irradiation, it is currently difficult to prepare for a small medical facility such as a clinic because the device itself is expensive, and the operation of the device must be a qualified person who handles radiation. There is also a problem in usage that it cannot be done.

The dry heat machine is used for glass and metal instruments, and cannot be used for liquids that boil at high temperatures. Although the autoclave is currently the most widely used, it is difficult to process a large amount and for a short time.In continuous processing, the temperature of the container containing the high temperature liquid can be easily cooled in a short time after the processing. Otherwise, you may get burned. In addition, in the case of a large-scale apparatus that processes a certain amount, facilities such as a boiler are required and expensive capital investment is required.

[0006] In the sterilization by chemicals, when the liquid waste after sterilization is discarded, the secondary contamination by the chemicals contained in the liquid waste becomes a problem. In normal filter sterilization, viruses etc.
Since it passes through the filter, it is necessary to use an expensive fine filter. Further, in the case of a liquid containing a large amount of solid particles such as cells such as blood, it takes a lot of time to dispose of the filter, and it takes time to sterilize and discard the filter after use.

The present invention has been made in view of the above circumstances, and an object thereof is to provide an inexpensive sterilization container for medical waste which is easy to operate in processing and does not pollute the environment. Especially.

[0008]

The liquid waste sterilization container of the present invention comprises a waterproof container for containing the liquid waste, and a sterilization layer filled in the waterproof container body. The sterilization layer is formed from a large number of sheet-shaped water-absorbing substances and calcium hydroxide adhered to or sandwiched by the water-absorbing substances on the surface, and this was used as a means for solving the above problems.

[0009]

According to the liquid waste sterilization container of the present invention, the liquid waste such as blood is poured into the sterilization layer formed of calcium hydroxide and the sheet-shaped water-absorbing substance, so that the liquid waste is sterilized. Soak in. At this time, the liquid waste is produced by dissolving the marine marine calcium in the liquid waste.
It becomes strongly alkaline, and bacteria and viruses in liquid waste lose their biological properties due to protein denaturation and die.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings. 1 to 3 are views showing a sterilization container for liquid waste of this embodiment, which is a waterproof container 1 for containing liquid waste and a main body of the waterproof container. The sterilizing layer 2 is filled inside.

The waterproof container 1 comprises a cardboard box 3 which forms the shape of the container in this embodiment, and a waterproof bag 4 which is housed inside the cardboard box 3.

The waterproof bag 4 is made of synthetic resin such as polyethylene. And the waterproof bag 4
The cardboard box 3 has a size such that it can be spread in a state where the bag 4 is closely attached to the side and bottom surfaces of the cardboard box 3, and in this state, the upper portion of the bag 4 extends from the opening of the box 3 and can be sufficiently tied with a string or the like. It has a certainness.

A sterilization layer 2 filled in a waterproof container 1.
Are composed of three layers, one above the other in this embodiment. The first layer 5, which is the uppermost layer of the sterilization layer 2, is composed of a bag 5a having substantially the same area as the opening of the cardboard box 3 and calcium hydroxide particles 5b ...

The bag 5a has a rectangular shape made of a sheet having water absorbability and water permeability such as paper or cloth. The first layer 5 is formed by sealing the bag 5a filled with calcium hydroxide particles 5b ... And forming a rectangular flat plate in conformity with the opening of the cardboard box 3. Further, the bag 5a is in a state in which the back sheet and the front sheet of the bag 5a are sewn together in a grid pattern so that the calcium hydroxide particles 5b ...

The second layer 6, which is an intermediate layer of the sterilization layer, comprises a large number of tissue papers 6a which are sheet-shaped water-absorbing substances.
... (used as a substitute for dry crushed waste paper such as newspapers and cardboards) is stacked in layers with calcium hydroxide particles 5b interposed therebetween. The second layer 6 is formed by pressing the layered tissue papers 6a ... In such a manner that the calcium hydroxide particles 5b. It is filled in the waterproof container 1.

That is, in the second layer 6, the second layer 6
The liquids that have not been absorbed by the tissue papers 6a ... In the upper part are in a state in which the layered tissue papers 6a. ..

The third layer 7, which is the lowermost layer of the sterilization layer 2, is
Water-absorbent paper 7 having calcium hydroxide particles 5b on its surface
A large number of paper pieces of a ... Are filled in the waterproof container 1 to be formed. In addition, in the sterilization layer 2, a large number of first layers 5 are provided between the first layer 5 and the second layer 6 so as not to be buried in the soft second layer 6. A cardboard 8 having a through hole (not shown) is sandwiched.

Next, the method of use and operation of the liquid waste sterilization container of this embodiment will be described. As shown in FIG. 2, with the lid of the cardboard box 3 of the sterilization container open, a liquid waste such as blood is poured onto the first layer 5 of the sterilization layer 2 inside the bag 4.

The poured liquid waste quickly passes through the surface sheet of the bag 5a of the first layer 5 and comes into contact with the calcium hydroxide particles 5b ... Filled inside the bag 5a. Then, the calcium hydroxide particles 5b ... Are dissolved in the liquid waste. That is, when the liquid waste flows into the sterilization container, it contacts the excess calcium hydroxide particles 5b ... In the bag 5a to dissolve the calcium hydroxide particles 5b. Next to
Most of the bacteria, viruses, etc. in liquid waste die within a short period of time.

Then, the liquid waste flows into the second layer 6 except for a part retained in the first layer 5. In the second layer 6, the liquid waste is supplied to the tissue papers 6a ... And the liquid waste flowing into the tissue paper 6a in excess of the water supply capacity passes between the tissue papers 6a ... Then, it immediately flows into the third layer 7 or passes through the tissue paper 6a ... And flows into the third layer 7.

That is, the second layer 6 is formed in layers so that the surfaces of the tissue papers 6a ... Orient in the lateral direction so that the liquid waste quickly flows to the lower layer. The liquid waste is prevented from staying in the second layer 6 and overflowing above the sterilization layer 2 when it is discarded in the container.

Further, since the calcium hydroxide particles 5b ... Are sandwiched between the tissue papers 6a ... In the second layer 6, the passing speed of the first layer 5 is fast and the calcium hydroxide particles 5b. The liquid waste that could not be dissolved will further dissolve the calcium hydroxide particles 5b in the second layer 6. In particular, the liquid waste that has been absorbed and retained by the tissue paper 6a ... Without flowing into the third layer 7 comes into sufficient contact with the calcium hydroxide particles 5b ..., and the calcium hydroxide particles 5b. Dissolve
It becomes strongly alkaline and kills bacteria and viruses.

Next, the liquid waste not retained in the second layer 6 flows into the third layer 7 and is absorbed by the water absorbing paper 7a ... With the calcium hydroxide particles 5b. .. Like the second layer 6, the liquid waste absorbed in the third layer 7 comes into sufficient contact with the calcium hydroxide particles 5b, so that the bacteria and viruses in the liquid waste are completely killed and sterilized. The liquid waste discarded in the container will be completely sterilized.

After the liquid waste is absorbed in the sterilization layer 2 as described above, the upper portion of the waterproof bag 4 is tied with a string or the like in the state shown in FIG. 3 and the lid of the cardboard box 3 is closed. Seal the sterilization container. Then, the sterilization container is processed as industrial waste.

According to the container for sterilizing liquid waste as described above, the liquid waste is held by the bag made of the water-absorbing substance, the tissue paper 6a, the water-absorbent paper 7a, etc., and the calcium hydroxide particles 5b. , The calcium hydroxide particles 5b ... Are dissolved to become strongly alkaline, and bacteria, viruses, etc. in the liquid waste can be killed.

In this sterilization container, liquid waste is poured into the container, the bag 4 is sealed, and the lid of the cardboard box 3 is closed. You can Also, when sterilizing with this sterilization container, equipment such as autoclave is not necessary, and the sterilization container itself should be manufactured at a low cost with extremely inexpensive materials such as cardboard boxes, tissue paper, absorbent paper, etc. Therefore, the processing cost of the liquid waste can be reduced.

Further, since the liquid waste is in a state of being held by a water-absorbent substance such as water-absorbent paper 7a ... In the sterilization container,
Almost no liquid waste leaks out even if the waterproof bag 4 has a hole or the like. Even if it leaks, the liquid waste is in a substantially sterilized state because it dissolves the calcium hydroxide particles 5b ... When it passes through the first layer 5.

Further, when the sterilization container is damaged after the liquid waste is absorbed in the sterilization layer 2, the liquid waste retained in the first layer 5 to the third layer 7 is already sufficient. Since the calcium hydroxide particles 5b ... Are dissolved, there is no risk of infection even if the liquid waste leaks.

The sterilization container is a waterproof bag 4 made of polyethylene or the like and paper such as cardboard or water absorbent paper 7a.
And the calcium hydroxide particles 5b ... Are substantially the same as the wastes discharged from a normal household, and do not particularly damage the environment.

Further, the sterilization container is made of a light material and is in a state of being packed in the cardboard box 3 when it is discarded, and even if it is damaged during transportation as described above, it is almost liquid waste. It is extremely easy to handle because there is no leakage and no risk of infection.

The waterproof container is a cardboard box 3.
The container is not limited to the one containing the polyethylene bag 4, but may be a container made of alkali-resistant synthetic resin or the like. The sterilization layer 2 is not limited to the three-layer structure, and may have a single-layer structure or a two-layer structure of only the second layer and the third layer, or the same structure as the first layer under the third layer. The fourth layer may be provided.

(Experimental Example 1) The following test was conducted in order to see the sterilizing effect of calcium hydroxide. The following strains were used for the test.

1) Staphylococcus aureus
ATCC 65923 (Staphylococcus aureus) 2) Escherichia coli
ATCC 25922 (E. coli) 3) Pseudomonas aeruginosa
ATCC 27853 (Pseudomonas aeruginosa) 4) Bacillus subtilis (sporeling) ATCC 6633 (Bacillus subtilis) 5) Salmonella sp
Clinical isolates (Salmonella) 6) Serratia sp
Clinical isolates (Serratia) 7) Klebsiella pneumoniae
Clinical isolates (Klebsiella pneumoniae) 8) Enterococcus Pyogenes
Clinical isolates (Enterococcus) 9) Streptococcus phyogenes
Clinical isolates (Streptococcus)

First, bacterial solutions prepared by diluting each of the above strains with sterile physiological saline so that the numbers of bacteria were 10 ² / ml and 10 ⁵ / ml were used as separate test subjects.

P when calcium hydroxide is dissolved in water
Although H increases in alkaline strength with a concentration gradient of calcium hydroxide, in this test, 10% of sterilized physiological saline was used.
To the solution prepared by adding 1.0 g of calcium hydroxide to 1 ml, add 1 ml of the above-mentioned bacterial solution, and at room temperature (24 ° C),
The state of microbial infestation was observed after 3 hours, 6 hours, 12 hours, 24 hours, and 48 hours. FIG. 4 is a table showing the results of the above test.

The growth state of the microorganisms is determined by inoculating a separation medium (heart infusion agar medium) with one platinum loop of a calcium hydroxide solution containing the bacterial solution after the passage of time, and incubating this medium with an incubator. At 37 ° C for 18 hours,
The presence or absence of growth was examined. Further, in order to see a synergistic effect with temperature, the same test was conducted at a high temperature of 80 ° C., and the results are shown in the table of FIG.

In FIGS. 4 and 5, when there is no growth of bacteria, it is judged that the sterilization is complete, and in the tables of FIGS. 4 and 5, it is indicated by (-). When there is growth of bacteria, sterilization is not performed. It was judged to be complete, and the numbers of bacteria in the culture solution are shown in the tables of FIGS. 4 and 5.

As shown in the table of FIG. 4, the sterilized state of each bacterium treated with the calcium hydroxide solution at room temperature was 10 ² / ml for each bacterium such as Salmonella, Serratia, Klebsiella pneumoniae, Streptococcus pyogenes, etc. No growth of bacteria was observed at each treatment time in both of the bacterial solutions of the number 2 of 10 ⁵ / ml, and the bacteria were completely sterilized.

However, Bacillus subtilis forming spores shows alkali resistance, and as shown in the table of FIG.
The growth of the bacteria was recognized even after the treatment for time.

For Bacillus subtilis, the treatment at 80 ° C. shows a decrease in the number of bacteria in the culture solution, and a synergistic effect between temperature and calcium hydroxide is observed. And 8
As shown in the table of FIG. 5, Bacillus subtilis was completely sterilized by the treatment at 0 ° C. for 48 hours. As mentioned above, Bacillus subtilis cannot be expected to be completely sterilized with calcium hydroxide,
Bacillus subtilis is not a pathogen, and Bacillus subtilis, especially its spores, are more resistant to environmental changes than common pathogens.

Furthermore, Bacillus subtilis inhabits a large number of natural environments such as fallen leaves and dead grass, and has no relation to the influence on human bodies and environmental pollution.

(Experimental Example 2) A test for investigating the relationship between the concentration of calcium hydroxide, pH and sterilization effect was conducted in the same manner as in Example 1 above. Three strains of Staphylococcus aureus, Escherichia coli, and Pseudomonas aeruginosa excluding Bacillus subtilis from Example 1 were used as the strains. The number of bacteria was 10 ⁵ / sterile saline.
It was adjusted to be ml.

The concentration of the calcium hydroxide solution is 10
0.05 ml, 0.10 g, 0.25 g, 0.50 in ml
g, 0.75 g, 1.00 g, 1.50 g were dissolved 7
Adjusted to stages. Using these calcium hydroxide solutions, a bacterial solution containing 10 ⁵ cells / ml was prepared for each bacterial species, and the sterilization effect was examined. FIG. 6 is a table showing the results of the above test.

In the table of FIG. 6, S is Staphylococcus aureus, E is E. coli, and P is Pseudomonas aeruginosa. Further, (+) in the figure shows that the number of bacteria was almost the same after the experiment as compared with the number of bacteria used in the experiment of 10 ⁵ / ml. In addition, when the treatment time was 0, it was not untreated, but it was obtained by inoculating the separation medium immediately after dispersing the bacterial solution in the calcium hydroxide solution.

As shown in the table of FIG. 6, when the calcium hydroxide concentration was treated with 0.25 g / ml for several hours, the sterilizing effect was observed, and when it was 0.5 g / ml, the treatment time was 0. Sterilization effect is observed, 0.75 g / ml
The three strains were completely sterilized by treatment for 1 hour. Regarding the pH of the calcium hydroxide solution,
When the concentration is 0.50 g / ml, the pH is around 12.5,
The PH hardly changes even if the concentration is further increased.

(Experimental Example 3) A bactericidal solution was added to a water absorbent paper having calcium hydroxide attached to it in a sterilization container, and the bactericidal effect of calcium hydroxide was tested. Strains of Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa, and Bacillus subtilis were used as samples, and the number of bacteria in the bacterial solution was set to 10 ² / ml and 10 ⁵ / ml, and Heart Infusion Agar medium was used as a separation medium. , 37
Incubated for hours.

2 g of calcium hydroxide was attached to the water-absorbent paper, and 20 ml of the bacterial solution was dropped on the water-absorbent paper to absorb water. After being left in this state for 18 hours, the medium for separation was inoculated and the growth of each strain was observed.

FIG. 7 is a table showing the results of the above test.
As shown in FIG. 7, it was confirmed that all the strains except Bacillus subtilis were completely sterilized by allowing the water-absorbent paper to which calcium hydroxide was attached to absorb water.

In Examples 1 to 3,
Although tests were conducted on representative bacteria and not on viruses, viruses did not have a strong cell wall like bacteria, and the surface was covered with a protein, Will not function due to the transformation of. Thus, viruses are generally less alkaline tolerant than bacteria and will also die in conditions where the bacteria die.

[0050]

Industrial Applicability As described above, the liquid waste sterilization container of the present invention can be disposed of by a simple operation of pouring the liquid waste into the sterilization layer in the waterproof container and sealing the waterproof container. Can handle things. Therefore, sterilization equipment is not required and liquid waste can be processed at low cost.

Further, the liquid waste is sterilized by calcium hydroxide by being absorbed by the sterilization layer, and since the liquid waste is absorbed by the water-absorbing substance, the waterproof container is damaged during transportation. However, the possibility that the liquid waste will leak out is low, and it is possible to prevent the environment from being polluted by the liquid waste.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a container for sterilizing liquid waste according to the above embodiment.

FIG. 2 is a perspective view showing a sterilization container for the liquid waste.

FIG. 3 is a perspective view showing a sterilization container for the liquid waste.

FIG. 4 is a table showing the results of Experimental Example 1 above.

5 is a table showing the results of Experimental Example 1 above. FIG.

FIG. 6 is a table showing the results of Experimental Example 2 described above.

FIG. 7 is a table showing the results of Experimental Example 3 above.

[Explanation of symbols]

 1 Waterproof Container 2 Sterilization Treatment Layer 3 Cardboard Box 4 Waterproof Bag 5 First Layer 5a Bag (Water Absorbing Material) 5b Calcium Hydroxide Particles 6 Second Layer 6a Tissue Paper (Water Absorbing Material) 7 Third Layer 7a Water Absorption Paper (water-absorbing substance)

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[Procedure amendment]

[Submission date] March 4, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] Brief description of the drawing

[Correction method] Change

[Correction content]

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing a container for sterilizing liquid waste according to the above embodiment.

FIG. 2 is a perspective view showing a sterilization container for the liquid waste.

FIG. 3 is a perspective view showing a sterilization container for the liquid waste.

FIG. 4 is a chart showing the results of Experimental Example 1 above.

FIG. 5 is a chart showing the results of Experimental Example 1 above.

FIG. 6 is a chart showing the results of Experimental Example 2 described above.

FIG. 7 is a chart showing the results of Experimental Example 3 above.

[Explanation of symbols] 1 waterproof container 2 sterilization layer 3 cardboard box 4 waterproof bag 5 first layer 5a bag (water-absorbing substance) 5b calcium hydroxide particles 6 second layer 6a tissue paper (water-absorbing substance) 7 Third layer 7a Water absorbent paper (water absorbent material)

Continuation of the front page (71) Applicant 000183266 Sumitomo Cement Co., Ltd. 1 Kanda Mitoshiro-cho, Chiyoda-ku, Tokyo (72) Inventor Ei Matsuoka 1-11 Takezono-cho, Ashiya-shi, Hyogo (72) Inventor Koichi Mimura Hyogo 8-25-3 Takakuradai, Suma-ku, Kobe-shi, Japan (72) Inventor Masayuki Matsumoto 3-1-364-105 Kitaochiai, Suma-ku, Kobe-shi, Hyogo (72) Inventor, Masaru Matsunami 392, Shininaga, Ibikawa-cho, Ibi-gun, Gifu Prefecture -1 (72) Inventor Minoru Okamura 2-19 Yanagibashi, Taito-ku, Tokyo Sumitomo Cement Co., Ltd. Related Business Headquarters (72) Inventor Toru Yamakawa 2-19 Yanagibashi, Taito-ku, Tokyo Sumitomo Cement Co., Ltd.

Claims (1)

[Claims] 1. A sterilization container for liquid waste for sterilizing liquid waste such as blood, which is a waterproof container for containing the liquid waste, and sterilization filled in the waterproof container. The sterilized layer is composed of a number of sheet-shaped water-absorbing substances, and calcium hydroxide adhered to or sandwiched between the surfaces of the water-absorbing substances (the term "seafoodized calcium" means limestone or dolomite). A sterilization container for liquid waste, characterized in that it is formed from an alkaline mineral containing calcium as a raw material and is a general term for slaked lime and the like produced.