NL1006675C2 - Treatment of liquid with a gas, especially for disinfecting water with ozone - Google Patents

Abstract

Liquid is passed through a stream of gas bubbles. An apparatus for the continuous treatment of a liquid with a gas, comprises a storage tank (1), a gas supply (2), a liquid supply (3), and an outlet (4) for the treated liquid. A stream of gas bubbles is formed in the apparatus, crossing the flow of liquid through the storage vessel. An Independent claim is also included for a water disinfection process using ozone, carried out using this apparatus.

Description

Device for continuously treating a liquid with a gas

The present invention relates to a device for continuously treating a liquid with a gas, comprising a storage vessel, means for supplying the gas, means for supplying the liquid and means for discharging the treated liquid.

When treating a liquid with a gas, in particular to change its properties, there may be a risk that the discharged liquid has not been treated or has been treated insufficiently. In order to solve this problem, complicated devices are used or only, because a certain time is required to treat all the liquid present in the storage vessel, periodically treated liquid can be discharged.

The object of the present invention is to provide a device for continuously treating a liquid with a gas while maintaining normal line pressures, which is simple, can be used continuously and which also ensures that all the discharged liquid has been treated with the gas.

To this end, an apparatus of the above-mentioned type is provided in which a path of gas bubbles intersects the liquid passage in the storage vessel.

This ensures that there is no short-circuit current between the supply and discharge means for the liquid and that all liquid is treated by the gas, so that continuously treated liquid can be drained.

In order to make optimum use of the gas and allow it to act on the liquid, the storage vessel is closed and means are provided for discharging the gas. The gas discharge means can be discharged in a controlled manner and it is determined how long the gas can act on the liquid.

1006675 2

In a preferred embodiment, the storage vessel has the shape of an inverted U. The direction of the liquid flow is opposite to the direction of the path of gas bubbles, whereby a better treatment of the liquid is obtained, since the distance traveled by the liquid in contact with the gas bubbles is larger.

Preferably, a gas buffer in contact with the liquid is provided, so that use can be made of the liquid level to control the gas discharge means. In addition, the device can function in continuous operation, even if no liquid is taken off.

In a particularly advantageous preferred embodiment, the legs of the inverted U-shaped storage vessel are extended upwards to an H, the gas discharge means being arranged in one leg and the gas buffer in the other leg. The collection of the treatment gas and the gas buffer are separated from each other. This prevents the treatment gas from entering the gas buffer and from leaving the storage vessel.

The storage vessel is preferably provided with observation means. This makes it easy to check whether the device is in operation.

The present invention also includes a method of disinfecting tap water with ozone using the above-described device according to any of its embodiments. This method is of particular advantage for dentists to disinfect the rinse water, which is used in dental installations and which mainly consists of tap water, with ozone. The advantage of this method and device 35 over the disinfection techniques known from the prior art is that it is possible to disinfect continuously, while it is ensured that the drained rinse water is disinfected at all times. In addition, the device 1006675 3 can be universally combined with all common dental equipment and can be easily integrated without having to adapt the existing equipment, such as a pump and a compressor. Finally, the device and the method according to the invention are inexpensive and present no danger to the patient and dentist.

For example, the method and apparatus of the present invention can also be used in the hospital to sterilize surgical tools, assistive devices, equipment, etc.

The present invention will be explained in more detail with reference to a preferred embodiment, which is shown in the attached drawing. The drawing shows a side view, partly in section, of the device according to the present invention.

The device comprises a storage vessel 1, which in the preferred embodiment is closed and H-shaped. Means for supplying the gas 2 2, means for supplying the liquid 3, means for discharging the treated liquid 4 and means for discharging the gas 5 are connected to the storage vessel 1.

The gas supply means 2 are formed by a diffuser element 6, which comminutes the introduced gas in the active leg 7 of the storage vessel 1. In the drawing, the active leg 7 is the left leg and the passive leg 8 the right leg of the storage vessel 1. The liquid discharge means 4 and the gas discharge means 5 are also arranged in the active leg 7 of the storage vessel 1. The latter means 5 are formed by a float element 9, which is received in a downwardly widening outflow opening 10.

The gas supply means 2 are connected to a gas generator 11, which is placed in an airtight box 12, so that no special and expensive pressure-resistant gas generator has to be used. Means for supplying compressed air 13 and means for connecting 1006675 4 to a power source 14 are connected to the gas generator 11 via airtight passages in the box 12. A pressure control valve 19 for adjusting the pressure of the compressed air is arranged in the compressed air supply means 13. The gas supply means 2 are also connected to the gas generator 11 via an airtight passage in the box 12. The gas supply means 2 has a non-return valve 15 to prevent liquid from entering the gas generator 11 when the pressure of the compressed air drops.

Furthermore, an observation window 16 is arranged in the active leg 7 of the storage vessel 1 in order to easily check whether the device is in operation.

The liquid supply means 3 are connected to the passive leg 8 of the storage vessel 1. The liquid supply means 3 has a non-return valve 17 and a pressure regulating valve 18 for controlling the flow direction and the pressure of the liquid.

Finally, at the top of the passive leg 8 of the storage vessel 1, a gas buffer 20 in contact with the liquid is provided.

The treatment of liquid with a gas using the device according to the present invention takes place as follows. The liquid enters the passive leg 8 of the storage vessel 1 via the pressure control valve 18, with which the pressure of the liquid on the secondary side thereof is adjusted. Only when the treated liquid falls into the active leg 7 of the storage vessel 1 when the pressure in the device drops below the pressure set by the pressure control valve 18, will liquid be introduced into the storage vessel 1 again by the supply means 3. The gas introduced via a diffuser element 6 fizzles in the active leg 7 of the storage vessel 1 and will accumulate at the top of the active leg 7. Because gas is continuously introduced, the pressure in the active leg 7 will rise and the gas accumulated therein will depress the liquid level in the active leg 7 1066675. The gas buffer 20 present at the top of the passive leg 8 of the storage vessel 1 is in contact with the liquid, which will rise under the influence of the built-up pressure in the active leg 7. With sufficient pressure build-up in the active leg 7, the liquid level therein will bring the float element 9 down into the downwardly widening outflow opening 10, whereby part of the gas accumulated on the top of the active leg 7 is discharged. By lowering the pressure in the active leg 7, the still prevailing pressure in the gas buffer 20 will push the liquid level in the passive leg 8 down, and push the liquid level in the active leg 7, so that the float element 9 in the outflow opening 10 is pressed and the gas discharge means 5 are closed. Since the liquid passage in the storage vessel 1 from the liquid supply means 3 to the liquid discharge means 4 cuts through the path of gas bubbles in the active leg 7, it is ensured that all liquid extracted from the device has been treated with the gas.

The above-described method provides a device operating in continuous operation, even if no liquid removal takes place. The purpose of the observation window 16 is to check in a simple manner whether the device is active. When upward gas bubbles can be seen, the device functions.

This observation window 16 can also be used for fine-tuning the pressure of the liquid and the treatment gas.

When disinfecting tap water with ozone, in particular intended for disinfecting rinsing water at dentists, tap water is introduced into the device and the gas generator 11 is formed by an ozone generator, which is also used in aquariums. The ozone generator known from the prior art is placed in an airtight box, whereby it is achieved that no special and expensive pressure-resistant ozone generator has to be used. In this way, a simple and inexpensive device for disinfecting tap water with ozone is provided, which functions without danger to the patient and dentist and which can be universally combined and integrated with the equipment already present in the dental practice.

From the above it can be deduced that the device does not require its own provision for generating or maintaining liquid and / or gas pressure. The 10 pressures prevailing in the external liquid and gas circuits are utilized and, if necessary, adjusted in a controlled manner.

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Claims (7)

1. Apparatus for continuously treating a liquid with a gas, comprising a storage vessel, means for supplying the gas, means for supplying the liquid and means for discharging the treated liquid, characterized by a path of gas bubbles which intersects the liquid passage in the storage vessel. 2. Device as claimed in claim 1, characterized in that the storage vessel is closed and that means 10 are provided for discharging the gas. Device according to claim 2, characterized in that the storage vessel has the shape of an inverted U. 4. Device according to claim 2 or 3, characterized in that a gas buffer in contact with the liquid is provided. 5. Device as claimed in claims 2,3 and 4, characterized in that the legs of the inverted U-shaped storage vessel are extended upwards to an H, wherein the gas discharge means are arranged in one leg and the gas buffer in the other leg. . Device according to one of the preceding claims, characterized in that the storage vessel is provided with observation means. Method for disinfecting tap water with ozone, characterized in that use is made of the device according to one of the preceding claims. 1006675