JPH02122884A - Water discharge sterilization device - Google Patents

Abstract

PURPOSE:To provide a water discharge sterilization device of low cost, superior safety, large treatment volume, large freedom degree of treatment and operation and superior convenience by connecting a washing basin with a sterilization autoclave through a water storage tank of freely controlled water level and making storage and sterilization of washing water freely. CONSTITUTION:A heater 4 is built in a sterilization autoclave 1 and discharged water is heated. Soil water from a hand washing basin 2 as a washing basin is guided into a sterilization autoclave 1 through pumps 6 and 7. Soil water heated and high pressure sterilization treated by the heater 4 in the autoclave 1 is discharged automatically through a valve 8 and a discharge filter 9. Thus, treatment of discharged water from a biological experiment, medical facilities and the like can be carried out efficiently by a compact device of superior safety and convenience.

Description

[Detailed description of the invention] (Technical field) This invention relates to a wastewater sterilizer.

More specifically, the present invention provides for wastewater from biotechnology research facilities and the like to be contaminated with pathogenic microorganisms or
This invention relates to a wastewater sterilization device for effectively preventing contamination by I.

(Background of the Invention) With the rapid development of biotechnology such as genetic recombination, cell fusion, and monoclonal antibody technology, the importance of biohazard countermeasure equipment in research facilities has become more important.

These facilities pose problems such as infection by pathogenic microorganisms or RI contamination, and it is necessary to give top priority to ensuring safety to protect the living environment of researchers and surrounding residents from such risks.

The basic principle of biohazard countermeasures is to contain pathogenic microorganisms inside experimental research facilities and to completely sterilize them when they are discharged to the outside.

Measures have been taken to prevent contamination by pathogenic microorganisms or RI in various research facilities, but there have been several problems with conventional wastewater sterilization devices and systems.

In other words, sterilization equipment that has been used in research facilities or hospitals has, for example, a system that collects wastewater from washing hands, showers, cleaning wastewater from floors and walls, etc. from individual laboratories. It is generally known that wastewater is stored in a storage tank weighing several tons, and a large amount of wastewater is treated by pressurizing and heating it from the outside using a high-pressure steam blower and heating device. There is.

However, these devices require enormous running costs and maintenance costs, and since they are large-scale facilities, the construction costs are also enormous.

It is also difficult to respond flexibly to changes in the amount of wastewater treated due to expansion of research laboratories and the installation of new drainage systems. moreover,
Currently, biomonitoring is not performed in conventional ills.

Therefore, it has been desired to realize a wastewater sterilization treatment device that is not only low-cost, but also highly efficient and safe, and can be easily adapted to new and expanded research laboratories.

In order to overcome the drawbacks of such conventional techniques and devices, the inventors of this application have already proposed a wastewater sterilization device based on a completely new idea, and have made earnest efforts to put it into practical use.

This wastewater sterilizer includes an autoclave that enables automatic sterilization, a pressure and heating control system for the autoclave, a control system for the inflow and outflow of wastewater into the autoclave, and a system for controlling wastewater, exhaust steam, and air supply. It is characterized by consisting of a filter system.

This device has the advantage of being low in cost, excellent in safety, compact in size, and easy to install and expand.

However, the inventor of this invention investigated the already proposed wastewater sterilization device and found that the processing capacity as a wastewater treatment system was limited, and a water washer such as a hand wash was not used during sterilization in an autoclave. We found that the problem was that the Therefore, we focused on developing an improved wastewater sterilization device that overcomes this limitation, has a large processing capacity, and has a greater degree of freedom in its operation, and as a result, we have completed this invention.

(Purpose of the Invention) This invention was made against the background as described above, and it is a low-cost, excellent safety device that has been proposed so far, and can flexibly cope with the installation of new and expanded equipment. It is an object of the present invention to provide a wastewater sterilization device that takes advantage of the advantages of a wastewater sterilization autoclave device, has a large processing capacity, and has a high degree of freedom in processing operations, making it highly convenient.

(Disclosure of the Invention) In order to achieve the above object, the present invention connects a water washer to a sterilizing autoclave having a heating device and a wastewater inflow/outflow device via a water storage tank whose water level can be freely controlled. To provide a wastewater sterilizer which is characterized by being able to freely store and sterilize water.

Further, the present invention provides a waste water sterilization tank, which is characterized in that a sewage sterilization tank is arranged between the above-mentioned sterilization autoclave and the water storage tank, and the washing water from the water storage tank connected to the water washer is treated in the sewage sterilization tank. It provides a sterilization device.

The waste water sterilizer of the present invention will be explained along with the attached drawings.

FIGS. 1(a) and 1(b) are a front view and a side view showing an example of a waste water sterilizer of the present invention. In this example, the sterilization autoclave (1) is installed vertically and the handwash (
2). Further, a water tank (3) is connected to this handwash basin (2). As is clear from this external shape, the device of the present invention is small and compact.

The example in Figure 1 is shown as a treatment system for wastewater sterilization.
It is a diagram.

The sterilization autoclave (1) is capable of high-pressure steam sterilization, and has a built-in heater (4) that heats the wastewater.Heating can usually be about 100 to 200°C. The pressure is also controlled accordingly.

Dirty water from a washbasin (2) serving as a water washer is first led to a water tank (3) in this example. The capacity of this water tank is large enough to allow use of the wash basin (2) even when the sterilizing autoclave (1) is in operation, and preferably exceeds the capacity of the sterilizing autoclave (1).

A water level sensor (5) is provided in the water storage tank (3) to keep the water level within an appropriate range and to control the water level according to the operating status of the sterilizing autoclave (1).

The waste water is led to the sterilization autoclave (1) through a pump (6) and a valve (7).

The waste water heated by the heater (4) in the sterilization autoclave (1) and subjected to high pressure sterilization is automatically drained through the valve (8) and the drainage filter (9). A part of the steam of the sterilizing autoclave (1) can also be led to the water reservoir (3) through the line (10).

The sterilization autoclave (1) is also provided with an air release valve (11).

In a wastewater sterilization device consisting of such a system, even if the sterilization autoclave (1) is in operation and sterilization is in progress,
You can use the hand wash basin (2), and this hand wash basin (2)
The waste water from the tank can be stored in a water tank (3) and guided to the sterilization autoclave (1) while controlling the water level.

All of these processes can be controlled electronically or manually as appropriate.

It goes without saying that the sterilization autoclave (1) is not limited to a vertical arrangement.

FIG. 3 shows another example of the invention. In this example, the sterilization autoclave (1) is installed horizontally and is operable on both sides. A device having such a shape has the feature that it can be used in both a clean area (A>) and a dirty area (B), for example.

In this example, a sewage sterilization tank (20) is installed between the sterilization autoclave (1) and the water storage tank (3).

For example, dirty water from the washbasin (2) is led to the water tank (3) in the same way as in the previous example. The sewage whose water level is controlled by the water level sensor (5) in this water storage tank (3) passes through the pump (21) and valve (22) to the sewage sterilization tank (20).
).

The sewage sterilization tank (20) has a built-in heater (23), and the heater (23) heats the water to flush the handwash (
2) Sterilize the wastewater from. In this case as well, the water level is controlled by the water level sensor (24). Sewage sterilization tank (2
Unlike the previous example, the wastewater treated in step 0) is not led to the sterilization autoclave (1), but is automatically drained to the outside through the valve (25) and filter (26).

In this way, since the waste water from the wash basin (2) is treated in the dedicated waste water sterilization tank (20), it is possible to sterilize it regardless of the operation of the sterilization autoclave (1). Such a device is particularly preferred as a 24 level biological laboratory device.

Another feature of this device is that the steam generated in the wastewater sterilization tank (20) can be used as a heat source and pressurized steam for the sterilization autoclave (1). Steam enters the sterilized autoclave (1) via the valve (27)
can lead to.

The level of sterilization in the sterilization autoclave (1) and the sewage sterilization tank (20) is differentiated, allowing efficient sterilization of wastewater.

Of course, a heater may also be installed in the sterilization autoclave (1), which further increases the degree of freedom in processing operations.

In the above example, the control system, sensor group, and other detailed equipment are not limited at all, and various configurations are possible for the autoclave capacity, safety system, and piping system.

(Effects of the invention) With this invention, wastewater from biological experiments, medical facilities, etc. can be treated efficiently and conveniently using a small and compact device that is low-cost and has excellent safety. becomes possible.

[Brief explanation of drawings]

FIGS. 1(a) and 1(b) are a front view and a side view showing the appearance of an example of the present invention. FIG. 2 is a device configuration diagram showing the processing system. FIG. 3 is an apparatus configuration diagram of a processing system showing another example of the present invention. 1... Sterilization autoclave 2... Hand washer 3... Water tank 4... Heater - 5... Water level sensor 20... Sewage sterilization tank 23... Heater - 24 ...Water level sensor

Claims (3)

[Claims] (1) Drainage characterized by connecting a water washer to a sterilizing autoclave having a heating device and a wastewater inflow and outflow device via a water storage tank whose water level can be freely controlled, so that washing water can be stored and sterilized freely. Sterilization equipment. (2) A sewage sterilization tank is arranged between the wastewater sterilization autoclave and the water storage tank according to claim (1), and the washing water from the water storage tank connected to the water washer is treated in the sewage sterilization tank. Waste water sterilization equipment. (3) The waste water sterilizer according to claim (2), wherein the steam generated in the sewage sterilization tank is supplied to the sterilization autoclave.