FI90726C - Method for the treatment of laboratory waste containing recyclable material for the recovery of its raw material - Google Patents

Description

90726

The invention relates to a method for treating laboratory waste containing recyclable material, in which method the laboratory waste is disinfected in a washbasin and then the disinfected laboratory waste is crushed for further treatment.

10 In laboratory tests, microbiological tests in particular, petri dishes are used as sample containers and, in some cases, as a culture medium for bacterial cultures. There are still several other uses for petri dishes where they require almost absolute purity. After the use of petri dishes and laboratory equipment in general, pathogenic microbes have often remained, which have been destroyed and at the same time disinfected by autoclaving, after which some of the petri dishes have undergone general waste treatment and some 20 have been incinerated.

DE 3 627 367 discloses an apparatus in which laboratory waste is disinfected by heating it in a microwave chamber to the desired temperature. The laboratory waste is fed into the microwave chamber, after which the compression piston closes the mouth of the microwave chamber, whereby heating can be performed.

The disinfected waste is then dropped through the hatch into a shredder, where the waste is crushed and torn into a whole of the desired size. The torn and crushed waste is then transferred to suitable waste containers by means of a conveyor belt.

30 It should be noted that all laboratory waste disinfected by the device becomes waste, in which case any potentially reusable material in it cannot be recovered. This method also has the disadvantage of high energy consumption and high costs due to the structure of the device.

2 DE 4 028 101 discloses an apparatus for disinfecting waste and then tearing it to a form which is easier to dispose of. Laboratory waste is first placed in a disinfection chamber where it is disinfected with hot water or separate disinfectant chemicals. The disinfected laboratory waste is then recycled through the rinsing chamber to a shredder and further disposed of for either normal waste management or incineration. The problem with this solution is that all laboratory waste stored in various containers after use has to be removed from the storage containers when placed in the disinfection chamber. In this case, it is possible that various bacteria and micropathological organisms may spread to the environment. 15 Furthermore, the storage vessels themselves have also become laboratory waste, in which case they must also be disinfected and disposed of in a similar way. In this case, laboratory waste cannot be sorted separately and therefore re-use of the waste is not possible.

The object of the present invention is to provide a method which eliminates the above-mentioned drawbacks and makes it possible to reuse laboratory waste. This object is achieved by the method according to the invention, characterized in that after laboratory use, the laboratory waste is stored in disinfectant-soluble intermediate storage boxes, that the laboratory waste is placed in its intermediate storage after which laboratory waste can be disinfected.

The invention is based on the idea that laboratory waste, in particular petri dishes, is enclosed after use in a storage box for interim storage, which storage box is made of a substance such that it dissolves in water or disinfectant and it is further essential that the closure member or strip is also soluble in water or disinfectant. A further idea is to combine laboratory waste sorting with disinfection and subsequent waste crushing, after which appropriately sorted waste can be reused as a raw material. The advantage of this method is that when storing laboratory waste in soluble containers, it is no longer necessary to remove it from the intermediate storage boxes when it is placed in the disinfectant 10, but when it is placed in the disinfector and water or disinfectant is introduced into the disinfectant. The disinfected and already sorted laboratory waste can then normally be transferred to a crusher where the waste is crushed into a suitably sized raw material for reuse.

The invention is explained in more detail in the accompanying drawings, in which Figure 1 shows the flow of the method according to the invention in block diagram form and Figure 2 shows an apparatus according to an embodiment of the method according to the invention.

Figure 1 shows a block diagram for illustrating a method according to the invention. In the block diagram, block 1 shows a situation in which laboratory waste is enclosed in an interim storage in a separate storage box, which may be a bag, box or the like, and which is nevertheless made of a substance that is soluble in water or disinfectant. In this case, the laboratory waste is easy to handle because it is hygienically packed in interim storage containers, so that various microbes and other similar microopathological organisms cannot spread and thus cause dangerous situations in their environment. In the block diagram 4 of Fig. 1, block 2 shows a situation in which laboratory waste placed in an interim storage box is transferred to a sink where the interim storage boxes dissolve in liquid under the action of water or disinfectant and then laboratory waste can be disinfected with or without heating water or surrounding water. bacteria and other micropathological organisms die and at the same time laboratory waste is disinfected. The disinfectant liquid and the material detached and dissolved therein can then be removed from the sink. Disinfected recyclable laboratory waste such as petri dishes or similar trays, measuring cups, etc. made of a suitable material can thus be transferred to the space shown in block 3 in the block diagram of Figure 1, where the laboratory waste is crushed to the desired size, reusable raw material. Block 4 of the diagram illustrates the situation where disinfected and crushed laboratory waste is ready for reuse as a raw material.

Figure 2 shows a laboratory waste treatment apparatus 5 suitable for carrying out the method, which apparatus comprises a sink 6, a silo part 7 and a crusher 8 below the silo. Water or disinfectant is introduced into the sink 6 via a hose or pipe 9 and removed from the hose or pipe. 10 through. The washbasin 6 25 has a built-in agitator member, which is driven by a belt-driven electric motor 11. Furthermore, a liquid level sensor member 12 and a liquid temperature monitoring thermostat 13 are attached to the side of the sink 6, which at the same time controls the heating resistors if necessary. Furthermore, the washbasin 6 has a filling hatch 14 to which is connected a pneumatic cylinder 15 controlling the opening and closing of the hatch 14. The silo part 7 is typically a conical part which directs the disinfected laboratory waste 18 to the crusher 8. The figure further shows an electric motor 16 sink 6 after its wash cycle 90 degrees

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90 726 5 17 kselin around in the direction of arrow A so that the door 14 has a downward hopper part 7 as shown in Figure 2. In this case, it is possible to open the sink 6 with a pneumatic cylinder 15, whereby the basin 6 5 is emptied of disinfected laboratory waste 18 into the silo 7. Before the washing cycle, the sink 6 is turned so that its filling door 14 points to the side of the apparatus 5. In this case, the hatch 14 can be opened by means of a cylinder 15 and the sink 6 can be filled with intermediate storage boxes 10 in which laboratory waste 18 is stored. Once the sink 6 is filled with the desired amount of intermediate storage boxes containing laboratory waste 18, the disinfection program can be started. In this case, the disinfectant or water dissolves the intermediate storage boxes, after which the laboratory waste 15 18 itself can be disinfected. This is done either by heating the water to boiling point or by using chemicals specifically designed for disinfection. During disinfection, the disinfectant or water simultaneously removes excess organic and inorganic material from the petri dishes, measuring cups or similar laboratory waste, while at the same time cleaning the actual laboratory waste into a reusable raw material. In this case, when the disinfectant liquid is emptied from the washbasin after the washing step, this dissolved and separated material is removed with the disinfectant and the washbasin is left mainly with only reusable laboratory waste, which is most often a certain plastic material. After the washing cycle, the washing tub 6 is rotated by 90 degrees from the axis 17 in the direction of arrow A. The turning is performed by means of an electric motor 16 via a chain transmission. The pneumatic cylinder 15 opens the door 14 and the disinfected laboratory waste 18 falls into the silo 7 as described above. The laboratory waste 18 then falls into the crusher 8, which crushes the laboratory waste into particles of the desired size, which are blown with compressed air into the crushed laboratory waste.

The disinfection and crushing device 5 can be implemented in many different ways, whereby the apparatus shown here is only intended to illustrate the essential idea of the invention, therefore the laboratory waste treatment apparatus shown in Figure 2 can be implemented in many different ways. The drawing and the related explanation are only intended to illustrate the idea of the invention. The details of the method according to the invention may vary within the scope of the claims of patent-10.

Claims (6)

A process for treating laboratory waste (18) containing recyclable material in which the process waste (18) is disinfected in a washing vessel (6), after which the disinfected laboratory waste (18) is crushed for further processing, characterized in that after in the laboratory use, the laboratory waste (18) is stored in intermediate storage capsules which are dissolved in a disinfecting liquid, that the laboratory waste in its intermediate storage capsules is placed in the washing vessel (6), that the laboratory waste (18) is disinfected with the disinfecting liquid, 18) 15 can be disinfected. Process according to claim 1, characterized in that the material dissolved in the disinfecting liquid is removed from the washing vessel (6) with the disinfecting liquid. 20 Method according to claim 1 or 2, characterized in that the intermediate storage capsules are sealed with closure means which are dissolved in the disinfecting liquid. Method according to any of claims 1-3, characterized in that water-soluble capsules are used as intermediate storage capsules. 5. Method according to any of claims 1-4, characterized in that thin-walled passes are used as intermediate storage capsules. 30 Method according to any of the preceding claims, characterized in that a belt closure means is dissolved in the disinfecting liquid. Il