NL2001580C2 - Medical waste disinfecting method, involves removing liquid components from waste, heating resulting mixture, and subjecting mixture to treatment with UV radiation for disinfecting mixture - Google Patents

Abstract

The method involves fragmenting a waste, and removing liquid components from the waste. The resulting mixture is heated, and the mixture is subjected to treatment with UV radiation for disinfecting the mixture, where the disinfected mixture is collected. An independent claim is also included for a disinfection device for disinfecting medical waste.

Description

- 1 -

GRINDING AND DISINFECTING DEVICE FOR RISK WASTE

The present invention relates to a method suitable for processing, whether or not biological or chemical, mainly medical, often contaminated, hereinafter referred to as risk waste.

The present invention also relates to a grinding and disinfecting device for processing in particular, but not exclusively, such waste.

Such a method and device are known. Hereby, after the central collection of the risk of waste, it is deposited in the establishment. The waste may be medical waste and may, for example, contain bags which may still be partially filled with, inter alia, moisture, blood, urine, infusion fluid, sometimes slightly radioactive cytostatics and the like. The risk of waste is then reduced, shredded or ground by means of shredding members in the form of rotating blades or rollers. After this, steam, hot or cold water and / or a disinfectant are usually supplied to the resulting mixture, so that after removal of the moisture from the heated mixture, a disinfected shredded mixture remains, which can be reused if desired. The inside of the device is then cleaned in a similar manner. Reference is made here to the international patent application PCT / FR00 / 01199.

A drawback of the known method and device is that with more decentralized application at, for example, the departmental level of a care institution or hospital, the device may only occupy a limited volume and therefore the drive of the shredder members may only have a limited power. In practice - 2 - the shredding members often appear to get stuck, causing the processing to stagnate and undesirable and even dangerous situations can occur.

The aim of the present invention is to provide a reliable and safe method that can also be carried out decentrally with a device that has a limited capacity and occupies a small volume and is easy to fit at the departmental level of a care institution in the interior of the existing kitchens, sink kitchens, laboratories, workspaces or the like.

To that end, the method according to the invention has the features of claim 1 and accordingly the device according to the invention has the features of claim 10.

The advantage of the method and device according to the invention is that no means generally harmful to the environment are used for simultaneously disinfecting both the shredded mixture, the liquid components and the inside of the device. Moreover, the aforementioned simultaneous cleaning leads to a further saving of time, both of the disinfection process and the waste processing process. Because the liquid components have also been disinfected, they can be discharged into the sewer even more advantageously, if desired. If the mixture obtained is already stripped of liquid components prior to heating, these can generally only be discharged untreated into the sewer if it does not contain harmful germs or other harmful substances.

In principle, the method and device according to the invention can also process a mostly limited amount of waste containing glass, metal or the like, although in practice the medical waste will mainly contain various types of plastics, rubber and the like. Water, which will usually be cool tap water, is supplied to the waste not yet shredded, so that it possibly cools together with the shredder members to the temperature of the water. As a result, plastics and the rubber, which usually have temperature-dependent properties, become harder, so that they can be shredded better and with less drive power. Moreover, it is advantageous that at this relatively low temperature, the working shredding members, in particular if they are designed with relatively short spaced blades or rollers, are less likely to be filled with, also less rapidly adhering to, plastic or rubber. . The risk of malfunctions in the device according to the invention therefore decreases.

The water also lubricates the shredders slightly, so that even less drive power for the shredders is sufficient. The device according to the invention can also be compact, whereby, furthermore, only a limited installation space is required, which makes the autonomously operating device eminently suitable for installation at places close to the source, in particular of their source. medical waste bags with a potential liquid content are used and consumed.

Because the method and device operate under hermetically sealed conditions, potentially harmful vapors or aerosols formed in the processing process do not get a chance to escape. The shredded disinfected mixture from which the liquid components have been removed is also safe, has a limited transport volume and weight, and is very suitable for disposal as normal waste, so-called gray waste. If the mixture mainly contains plastic, it is very suitable for inclusion in recycling processes in the (bio) polymers or plastic processing industry.

5

A preferred embodiment of the method and device according to the invention is characterized in that an underpressure is maintained in the device after hermetically sealing the device.

Creating and maintaining a pressure below atmospheric during at least a part of the processing process in the device provides an additional indication of being hermetically sealed off from the device. This gives the guarantee that as long as the underpressure is present, no germs containing aerosols can escape from the device with certainty.

The method and device according to the present invention will now be further elucidated with reference to the figures below, in which corresponding parts are provided with the same reference numerals. It shows:

Figure 1 shows a view of a possible embodiment of a grinding and disinfecting device according to the invention, on the basis of which the corresponding method will also be explained; and

Figure 2 shows a part of the device of figure 1 with roller rolls and roller knives between which scraper fingers are arranged.

30

Figure 1 shows a grinding and disinfecting device 1 that is suitable for processing in particular, but not exclusively, medical or general risk-bearing waste. That waste contains, among other things, certain laboratory supplies including glassware, pipes, hose clamps, glass petri dishes, pipettes, injection substance holders, and holders and bags possibly still filled with fluid, infusion fluid, urine, blood and the like, but possibly also for example plasters, bandages, needles or 5 plaster residues. This waste is thrown per department into a, generally mainly funnel-shaped, collecting container 2 of the installation 1 installed on site. The collecting container 2 can be hermetically sealed with a lid 3. The possible liquid content of the waste can thereby simply remain in the bags, so that there is no risk of contamination. The funnel of the container 2 tapers downwards and opens out above shredding members 4. When the container 2 is filled with waste and the method is to start, the lid 3 is hermetically sealed. The collected waste is then located in the container 2 above the members 4. At various locations, for example in the lid 3 and in the collection container 2, nozzles 5 are connected to a supply of cold water and are shown schematically. The supply may be connected to the tap water system, from which generally cool tap water can be taken. If the method is started by switching on the device 1 by means of a processor-controlled control which is not further described here, the processing only starts if the cover 3 is airtightly locked. Relatively cool water is then supplied by the nozzles 5 to the collected waste, which in practice will be spread over the waste, sinks through it and flows over and through the shredding members 4. The cool water makes the plastic-containing part of the risk of waste harder, making it easier to shred. Possibly, in connection with the resulting time saving of the processing, at the same time as the water is supplied, the waste is subjected to the action of the shredding members 4, which will be further explained below, with which the waste is reduced or ground up or shredded. Below this, the resulting mixture is collected in collection means 6, for example a removable collection tray or collection tray. Above the collecting means 6 or in some way combined therewith, the device 1 is provided with controllable valve or closing means (not shown) if necessary. The device 1 is further provided with sieving means 7, so that, if desired initially, only the shredded mixture stripped of liquid components ends up in the collecting means 6. The superfluous liquid constituents, if the liquid content of the waste that allows or makes necessary, cannot be collected in a disinfected manner or, if permitted untreated, can be discharged into the sewer. The discharged liquid components 15 do not need to be heated in that case, which saves energy. If direct untreated discharge is not permitted and it is desired in connection with energy saving to nevertheless discharge the liquid components prior to heating, the liquid components to be discharged can be subjected to a germ-killing microwave or UV radiation and then discharged.

In general, after shredding, disinfection is necessary at least once and for this purpose the device 1 is provided with heat-generating and spreading means 8 for heating the possibly remaining liquid and solid components of the mixture and the inside of the device 1. with which the mixture has been in contact for a time and at a temperature sufficient for that disinfection. Heating is envisaged on the basis of possibly a combination of microwave radiation, electrical heating and / or heating by means of steam generated locally, for example, in a steam unit 9 of the then fully self-operating device 1, or which is locally installed. available from steam pipes.

If desired, the nozzles 5 can be given a double function by also connecting them controllably to the means 8 or the steam unit 9. The means 8 are mounted at various locations not all extensively indicated in the figures. In general: the higher the temperature, the shorter the heating can last to effectively destroy bacteria, microbes, parasites, viruses and other sources of contamination. Steam with a prescribed temperature of 134.4 ° C has proven to be effective and economical to generate. In general, steam with a temperature between 100 ° C and 150 ° C is sufficient. Steam of, for example, 105 ° C is available at a pressure of 1.6-1.7 atmospheres. After disinfecting with steam, the pressure in the device rises to a superatmospheric pressure. After the necessary time has elapsed, given the temperature of the interior of the device 1 during heating, the then disinfected liquid components can be safely discharged into the sewer after the interior has been brought to atmospheric pressure. The disinfected shredded mixture from the collecting means 6 can be removed and further processed by the biopolymers, polymers and / or plastic processing industry into, for example, plastic street furniture, posts and the like.

In a possible embodiment, the device 1 comprises means (not shown), such as a controlled suction-pressure pump with one or more sensors 10 arranged in the device 1, in order to, after hermetically closing the cover 3, underpressure in the device 1 for at least some time. to maintain. With a reduced pressure in the device 1, no vapors or mists can leave the device 1 during, in particular, shredding. In the last part of the method, when the inside of the device, the shredded waste and the possibly remaining liquid components are disinfected, the hermetically sealed lid 3 is only opened at atmospheric pressure. If the lid is opened in the device 1 under a slight underpressure, this initially does not lead to the annoying escape of steam when the lid 3 is opened.

The shredder members 4, which are often explained below the collecting container 2, can be provided with, for example, one or more cutting and / or rolling members.

If desired, facilities can be provided in the device 1 for carrying the waste along the members 4 more than once. When rolling members 4 shown in Figure 2 are used, preferably use is made of rotating rollers 11 engaging with each other.

Such rollers 4 are usually provided with parallel cutting edges or knives 12 at some distance from each other. In order to prevent the shredding members 4, but in particular the interlocking rollers 11, from getting stuck as a result of pieces of waste which in between getting stuck or sticking to it, the cold water is supplied before or during shredding. In a further embodiment, the device 1 is provided with scraper fingers 13 which engage between the knives 12 situated at a certain distance. The possibly fixed fingers 13 grip between the knives 12 and scrape stuck plastic or other surplus material from the knives 12 and lead it away from the knives 12. This promotes reliable, trouble-free operation of the shredder members 4 in the grinding and disinfecting device 1.

Claims (15)

Method according to which, after being deposited in a hermetically sealed mill / disinfecting device, water is supplied to mostly risk-bearing waste with possible liquid content, and the waste is shredded in the device, after which the resulting mixture, after possibly being stripped of any liquid constituents, heated and simultaneously the inside of the device 10 with which the mixture has been in contact, is disinfected, after which the disinfected shredded mixture is collected after being stripped of liquid constituents. Method according to claim 1, characterized in that the supply of water, possibly tap water, and the shredding are carried out at least partially simultaneously. 3. Method as claimed in claim 1 or 2, characterized in that after shredding, but prior to heating, the liquid components of the mixture are discharged, which components, after being subjected, if necessary, to a treatment with for instance microwave, or UV radiation, are discharged. 4. Method as claimed in any of the claims 1-3, characterized in that an underpressure is maintained in the device after hermetically sealing the device. A method according to any one of claims 1-4, characterized in that, after collecting the disinfected chips, a previously applied underpressure in the device 35 is brought back to atmospheric pressure. - 10 - Method according to one of claims 1 to 5, characterized in that the liquid components are supplied to the sewer. 5 A method according to any one of claims 1-6, characterized in that heating of the mixture is carried out by means of microwave heating, electrical heating and / or heating by means of steam generated locally or locally available in the device 10 with a temperature between 100 ° C and 150 ° C. 8. Method as claimed in any of the claims 1-7, characterized in that the shredding is carried out by means of shredding members, which can be provided with one or more cutting and / or rolling members, through which the mixture can be fed one or more times if desired. lined. 9. Method as claimed in any of the claims 1-8, characterized in that the waste contains glass, metal parts, plastic or the like and that the content of the waste contains liquid components such as blood, urine, infusion or injection liquid or the like. 10. Grinding and disinfecting device for hazardous waste, comprising: - a hermetically sealable lid via which the waste with its possible content is brought into a collection container of the device; 30. spray nozzles substantially present at the waste present in the collecting container with which relatively cool water can be brought into contact with the waste; shredders arranged under the collecting container, whereby a mixture of waste, shreds and water is formed; Heat generating means for heating the mixture and the interior of the device with which the mixture has been in contact for a time and at a temperature sufficient for disinfection; 5. sieves for removing liquid components from the shredded mixture; - collection means for collecting the disinfected mixture. Device as claimed in claim 10, characterized in that the device further comprises means for maintaining an underpressure in the device during operation of the shredding members. Device as claimed in claim 10 or 11, characterized in that the heat-generating means are adapted to operate on the basis of microwave heating, electrical heating and / or heating by means of preferably locally generated steam in the device. 20 13. Device as claimed in any of the claims 10-12, characterized in that the shredding members are arranged under the collecting container and are provided with one or more cutting and / or rolling members which are preferably provided with rollers rotating against each other. 14. Device as claimed in claim 13, characterized in that the roller members are provided with parallel knives which are at some distance from each other, between which scraper fingers engage which are designed to divert excessively shredded waste residues between the knives. 15. Device as claimed in any of the claims 10-14, characterized in that the device comprises microwave-killing agents or UV-bacteria.