NL1006137C2 - Ultrafiltration device. - Google Patents

Description

Ultrafiltration device

The present invention relates to an ultrafiltration device for water sterilization, comprising a filter housing provided with an inlet and an outlet connection, and containing a bundle of capillary ultrafiltration membranes, the capillary membranes being open at a first end and at a other end are closed, and at the first end are contained in a membrane holder which closes the space between the capillary membranes and the filter housing.

Such an ultrafiltration device is described in Dutch patent application no. 1,004,210. This ultra-filtration device is suitable for the removal of micro-organisms and organic contaminants from tap water and can be used in or near a water tap, such as the outflow pipe from a mixing chamber or, for example, a dental drill. The hydrophilic capillary ultrafiltration membranes used herein are extremely efficient in removing the living micro-organisms and organic contaminants from the tap water. Tests have shown that at approximately 7 x 106 colony-forming units per ml of a bacterial suspension of E. coli, after filtration using the ultrafiltration device, no E. coli could be detected in the filtered water. Such microorganisms can develop in the pipeline network, but also after leaving this pipeline network.

This is specifically the case in dental instruments, among other things. In dental instruments, water is used, among other things, for rinsing the mouth, as cooling water during drilling and for cleaning the drilled tooth 30 using an air / water mixture. In the dental instruments there are very long thin pipes and their flow is low, because not much water is used and the pressure is too low. It has been shown that a "biofilm" 35 forms on the inside of these pipes, causing the number of bacteria in the water in the pipes of this dental instrument to multiply explosively, even when the water from the supply pipe network. work contains virtually no micro-organisms, and therefore far exceeds acceptable standards. Thus, when such water is used in dental procedures, large numbers of pathogens enter the patient's oral cavity, posing a risk to his or her health. The use of the ultrafiltration device described above leads to a marked improvement in hygiene in dental procedures. However, problems can arise when air bubbles are present in the water supplied. Such air bubbles can clog the pores of the asymmetric membrane, so that not enough water is available for adequate cooling of the drill and for rinsing the mouth.

The object of the present invention is to further improve this ultra-filtration device by preventing the air present in the tap water from collecting in the pores of the membrane wall of the capillary ultrafiltration membranes and thus "clogging" the pores. Namely, this leads to a loss of capacity of the ultrafiltration in-20 direction. This is a problem specifically with the said dental instruments, because there is little space available for placing an ultrafiltration device, since the ultrafiltration device must be positioned as close as possible to the place where the water exits, for example the drill bit of a dental drill. The ultrafiltration device in this case must be arranged in the drilling instrument or in its supply line. The available space is limited in both places.

The invention now provides an ultrafiltration device for water sterilization, comprising a filter housing having a supply and a discharge connection, and including a bundle of hydrophilic capillary ultrafiltration membranes, the capillary membranes being open at one end and at another end are closed, and at the first end are contained in a membrane container which closes the space between the capillary membranes and the filter housing, characterized in that the hydrophilic ultra-filtration membranes are asymmetrical, the large pores being located on the upstream side (outside) of the membrane and the small pores are on the inside thereof or vice versa, that the first end forms a permeate drain of a capillary ultrafiltration membrane, and that at least one hydrophobic capillary membrane is included in the bundle 5 capillary hydrophilic ultrafiltration membranes, the hydrophobic capillary mem brane at one first end is open and closed at the other end, and at the first end is contained in the membrane holder.

Research has shown that when one or more hydrophobic capillary membranes are included in the bundle of capillary ultrafiltration membranes, the air bubbles present in the water to be filtered collect mainly in the wall of the hydrophobic capillary membrane and are discharged via the lumen of the membrane . The inclusion of such a hydrophobic membrane thus results in a considerable capacity improvement of the ultrafiltration device and ensures a continuous constant water supply. The number of hydrophobic capillary membranes to be included in the bundle of hydrophilic capillary ultrafiltration membranes may depend on the specific application and the number of ultrafiltration membranes used.

In a preferred embodiment, the filter housing consists of a flexible material, so that it can be easily fitted in a flexible hose for water.

Usually, the hydrophobic capillary membrane is made from a hydrophobic material such as nylon, polysulfone, polyether sulfone or other suitable material, and in particular nylon. Namely, nylon has favorable hydrophobic properties and a capillary membrane can be manufactured from nylon in various dimensions in a simple and inexpensive manner.

The invention is further elucidated hereinafter with reference to the drawing, in which the only figure shows a cross-sectional view of the ultrafiltration device according to the invention.

In the figure, the filter housing is indicated by the reference numeral 10. The filter housing 10 is provided with a supply connection 11 and a discharge connection 12. In the filter housing 10, a bundle of capillary ultrafiltration membranes 20 is arranged, as well as a hydrophobic capillary membrane 25 At a first end 21, the capillary membranes 20 and 25 are contained in a filter holder 30 which closes the space between the capillary membranes and the filter housing. This filter-holder can for instance consist of a resin, such as epoxy or polyurethane, in which the membranes 20 and 25 are embedded and on this side the capillary membranes are open. At the other end 22, the capillary membranes 20 and 25 are closed by, for example, heat sealing or by using resin plugs 40. In a preferred embodiment, the filter housing 10 is made of a flexible material, so that the ultrafiltration device can be placed in a flexible hose for water. be placed.

A carbon-15 filter can advantageously be accommodated in the filter housing 10. This filter can be constructed with activated carbon granules contained in a flow-through housing. Organic impurities dissolved in the water which could pass through the capillary ultrafiltration membranes 20 are removed by the carbon filter. The carbon filter can be received in the filter housing 10 in various ways.

Water to be filtered enters the filter housing 10 of the ultrafiltration device via the supply connection 11.

The water can pass through the pores in the wall of the ultrafiltration capillary membranes 20, after which the filtered water, the permeate, leaves the ultrafiltration capillary membranes 20 at the first end 21. The discharge connection 20 of the ultrafiltration device is also located here. Contaminants such as pathogenic bacteria cannot pass through the pores in the wall of the capillary ultrafiltration membranes 20 and are filtered out of the water in an extremely efficient manner.

The pores have an asymmetrical structure, the pore diameter decreasing in the flow direction of the liquid flow in the membrane wall, ie with the larger pores on the inflow side of the capillary ultrafiltration membranes 20. The asymmetrical structure of the pores creates a large storage capacity for filtered particles. and the capillary ultrafiltration membranes can be excellently cleaned and reused after a period of use by reversing the water flow.

There will always be some air in the water to be filtered. This air is relatively difficult to pass through pores of the ultra-5 capillary filtration membranes and will collect in these pores. When air collects in a pore of the ultrafiltration membrane, this pore "clogs". No or insufficient water will be able to pass through this pore, as a result of which a capacity loss of the ultrafiltration device will occur. This is prevented by adding one or more hydrophobic capillary membranes to the ultrafiltration membrane bundle.

It has been found that when one or more such hydrophobic capillary membranes 25 are present in the bundle of ultrafiltration membranes 20, the air bubbles contained in the water to be filtered initially accumulate mainly in the pores of these hydrophobic capillary membranes 25 and then enter the lumen of the hydrophobic membrane. The collected air bubbles will be vented through the lumen 20 of the hydrophobic capillary membrane 25 with the permeate. By incorporating a hydrophobic capillary membrane, substantially no more air accumulates in the pores of the hydrophilic capillary ultrafiltration membranes 20. This results in a considerable improvement of the ultrafiltration device.

An extremely suitable material for producing the hydrophobic capillary membranes is nylon. This material has favorable hydrophobic properties and is easy to process for the production of hydrophobic capillary membranes of various sizes.

The ultrafiltration device described above can be used in one of its many possible embodiments in a place where water is used, such as in a tap water tap or in dental instruments. In the supply hose for a dental drill, for example, in addition to the electric lines and the air line, there is also a water pipe for cooling water for cooling the drill bit. Such a plastic water pipe has a diameter of about 2 mm. In such a conduit, an effective 10061 37 6 operating ultrafiltration device may be provided comprising only five capillary ultrafiltration membranes and one hydrophobic capillary membrane. The length of these capillary membranes is about 20 cm, the diameter of the capillary ultrafiltration membranes is about 0.8 mm, and the diameter of the hydrophobic capillary membrane is about 0.03 mm. It will be understood that the length, diameter, number of the ultrafiltration membranes and hydrophobic materials depend on the application purposes. Such an ultra-10 filtration device makes a liquid flow of about 200 ml / min. possible.

The embodiment described above should not be construed as a limitation of the invention. Within the scope of the present invention and the following claims, the ultrafiltration device can be realized in various embodiments, all of which are within the scope of the invention.

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Claims (5)

An ultrafiltration device for water sterilization, comprising a filter housing provided with a supply and a discharge connection, and containing a bundle of hydrophilic capillary ultrafiltration membranes, the capillary membranes being open at one first end and closed at another end , and at the first end are contained in a membrane container which closes the space between the capillary membranes and the filter housing, characterized in that the hydrophilic ultrafiltration membranes are asymmetrical, the large pores being located on the inflow side (outside) of the membrane and the small pores are on the inside thereof or vice versa, that the first end forms a permeate drain of a capillary ultrafiltration membrane, and that at least one hydrophobic capillary membrane is contained in the bundle of capillary hydrophilic ultrafiltration membranes, the hydrophobic capillary membrane at a first end is open and at the other end is closed, and at the first end is contained in the membrane holder. Ultrafiltration device according to claim 1, characterized in that the filter housing consists of a flexible material. Ultrafiltration device according to claim 1 or 2, characterized in that the hydrophobic membrane is made of a hydrophobic material such as nylon, polysulfone, polyether sulfone or another suitable material. Ultrafiltration device according to any one of the preceding claims, characterized in that the device is provided with a carbon filter. Dental instruments provided with an ultrafiltration device according to any one of claims 1-4. 10061 37