NL9302287A - Dilution apparatus - Google Patents

Abstract

Dilution apparatus for mixing odoriferous substances with odour-free air in a number of specific ratios. The apparatus is provided with a collection of scent cups to which the mixture and the odour-free air can be fed nonselectively via a main feed line and a second supplementary feed line. A reservoir for odour-free air can be connected to the main feed line, and in the direction towards the scent cups, the main feed line is provided with a first pressure controller, a first constriction, a first gap and a first, wider opening which is larger than the constriction. A first supplementary feed line connects to the first gap. The first supplementary feed line includes a critical capillary and can be connected to a reservoir for the odoriferous substances.

Description

Dilution device.

The invention relates to a dilution device for mixing odor-containing substances with odor-free air in a number of certain ratios, provided with a collection of olfactory cups to which the mixture and the odor-free air can be supplied selectively via a main supply line and a second auxiliary supply line.

Such a diluent, called an olfactometer, is used in the evaluation of fragrances. A number of dilutions of the mixture are offered to panels of observers in order to determine the odor concentration of the undiluted mixture using the forced selection method. The assessment generally begins by offering a dilution where none of the panelists can distinguish the mixture from clean, odor-free air. The dilution is halved after each offer. The dilution at which a given number of panelists can distinguish the odor of the odorless air mixture is a measure of the odor concentration of the sample. In order to obtain a reliable quality / quantity assessment of a particular substance, the number of dilutions should be at least fourteen, so the largest dilution should be at least 214.

It is therefore an object of the present invention to provide a dilution apparatus for mixing odor-containing substances with odor-free air in a number of certain ratios with a greatest dilution of at least 214 while maintaining a constant flow of the odor-free and odor-containing air to the olfactory cups .

For this purpose, a dilution device of the type mentioned in the opening paragraph according to the invention is characterized in that a first odor-free air container is connectable via the main supply line to the collection of olfactory cups and in the direction towards the olfactory cups the main supply line is provided with a first pressure regulator, a first constriction, a first slit and a first wider opening which is larger than the constriction, and which connects a first auxiliary supply line to the first slit, which first auxiliary supply line contains a critical capillary and is connectable to a container for the fragrances. The invention is based on the insight that by realizing the dilution by means of a first so-called ejector and a critical capillary, not only a reproducible dilution can be realized but, moreover, the flow of the diluted odor-containing air to the fragrance cup can be kept constant. A critical capillary is a very small opening, behind which - in the direction towards the olfactory cups - a negative pressure is generated by the ejector, as described below. Due to this underpressure, odor-containing air (rinsing during times, odor-free air) is drawn in through the very small opening, which air can reach a maximum speed equal to the speed of sound. The negative pressure is generated by the first ejector which is formed by a first constriction, a first slit and a first wider opening in the supply line. The first pressure regulator pushes odor-free air through the first constriction at a high speed. The outflowing air flows through the first opening which is larger than the first constriction, the air passing through the first slit. An underpressure is created in the first gap, which is used for suction through the critical capillary. The air flowing through the capillary is entrained directly by the air flow therein through the first narrow slit in the first ejector, and thus the dilution is realized. Depending on the required capacity, the first ejector can consist of two or three ejectors connected in parallel. The effect remains the same.

When the first auxiliary supply line contains five series circuits of a critical capillary with a tap arranged in parallel, each tap being placed between the critical capillary and the first gap, it is possible to use critical capillaries with different flow rates to make five different obtain dilutions. Of course, the number of critical capillaries placed parallel to each other can be varied depending on the desired number of dilutions.

In an embodiment of a dilution device according to the invention, characterized in that the container for odor-free air is connected via a third pressure regulator, a tap, a parallel circuit of the container for the fragrance-containing substances and a connecting line, a tap to a fourth port of a four-port tap is that the container, for odor-free air via a second pressure regulator, a second constriction, a second slit, and a second wider opening is connected to a second port of the four-port valve, the second pressure regulator being connected to the connection between the container for odor-free air and the third pressure regulator, that the connection between the second more spacious opening and the second port of the four-port valve is connected with a restriction, that the second slit is connected via two series circuits of a valve with a critical capillary to a third port in parallel to each other of the four-port crane is connected, that a first port of the four-port crane valve is connected via the first auxiliary supply line to the five series-connected series circuits of a critical capillary with a tap with the first gap, of the four-port tap the fourth port with the first port and the second port with the third port or the fourth port can be connected to the third port and the second port to the first port, it is possible to realize fifteen dilutions by connecting the two critical capillaries placed parallel to each other and the five critical capillaries placed in parallel. Of course, the number of critical capillaries placed parallel to each other can be varied depending on the desired number of dilutions.

In a further embodiment of a dilution device according to the invention, characterized in that the first larger opening is connected to a first port of a multi-port valve, the connection between the second constriction and the second pressure regulator is connected via a second auxiliary supply line to a critical capillary is with a second port of the multi-port tap, and that the other ports of the multi-port tap are connected to the olfactory cups, it is possible by the multi-port tap to supply odor-free or odor-containing air to the olfactory cups a-select.

Preferably, the first pressure regulator is an electronically controlled pressure regulator for accurately regulating the pre-pressure, which determines the speed at which air is forced through the ejector, so that a negative pressure is obtained at a critical capillary in a reproducible and rapid manner, which negative pressure is preferably at least critically is.

The invention will be described below by way of example on the basis of an exemplary embodiment, which is shown in the drawing.

The figure shows a diluent or olfactometer according to the invention. In this exemplary embodiment, the dilution device is provided with a holder 7 for odor-free air, which is formed, for example, by a 6 bar air compressor provided with moisture, dust and carbon filters. The odor-free air container 7 is connected via a main supply line 4 to a first electronically controlled pressure regulator 6 and a first ejector 5 to a first port a of a multi-port valve 3, in this case a four-port valve. A third c and fourth d port of the multi-port tap 3 are respectively connected to a first olfactory cup 1 and a second olfactory cup 2.

The container 7 for odor-free air is connected via a third pressure regulator 22, and a tap 21, a parallel circuit of a container 19 for the odor-containing substances and a connecting pipe 20, a tap 18 to a fourth port d of a four-port tap 11. The two valves 18 and 21 can alternatively be replaced by a single four-port valve.

In addition, the odor-free air container 7 via a second pressure regulator 15, a second ejector 14 with a second constriction, a second slit and a second wider opening, the second larger opening being larger than the second constriction, with a second port b of the four-port crane 11 connected. The second pressure regulator 15 is herein connected between the holder 7 for odor-free air and the third pressure regulator 22.

The connection between the second wider opening and the second port b of the four-port crane 11 is connected with a restriction 12. The second gap is connected via two series circuits of a crane 17 and a critical capillary 16 connected in parallel to a third port c of the four-port crane 11. A first port a of the four-port crane 11 is connected via a first auxiliary supply line 8 with five parallel series circuits connected to one another are connected to the first slot via a critical capillary 10 and a tap 9.

Of the four-port crane 11, the fourth port d can be connected to the first port a and the second port b to the third port c or the fourth port d to the third port c and the second port b to the first port a. The former connection is indicated by solid lines in the figure, the latter by broken lines.

The connection between the second constriction and the second pressure regulator 15 is connected via a second auxiliary supply line 23 with a critical capillary 24 to a second port b of the multi-port valve 3.

The first port a of the multi-port crane 3 can be connected to the fourth port d and the second b to the third c port or the first port a to the third port c and the second b to the fourth d port. The former connection is indicated by solid lines in the figure, the latter by broken lines.

The first ejector 5, in the direction of the holder 7 towards the olfactory cups 1, 2, is formed by a first constriction 25, a first slit 26 and a first wider opening 27 larger than the first constriction. Air is forced through the ejector 5 via the first electronically controlled pressure regulator 6, so that it passes at high speed along the first gap.

By controlling the pressure regulators 6 and 15, the speed at which air passes along the first and second slit, respectively, is adjustable, and consequently the negative pressure at the critical capillaries 10 and 16, respectively. Due to the negative pressure, which is preferably at least critical, air is passed through the critical capillaries sucked. The dilution then takes place at the gap. By suitable operation of the valves 9, 17, 18 and 21 and the four-port valve 11, it is possible to realize fifteen different dilution steps, when the critical capillaries have a different flow value. Switching on and off a pre-dilution, supplied by the critical capillaries 16, takes place with the four-port valve 11.

The ejectors must generate a sufficient negative pressure at the critical capillaries. The electronically controlled pressure regulator 6 regulates its pre-pressure depending on the capillary switched on, so that the amount of air from the associated capillary together with the amount of air through the ejectors always flows at a constant amount of, for example, 20 liters per minute to the olfactory cups. In addition to a reproducible dilution, a constant flow of odor-containing air to the olfactory cups is thus obtained.

Capillary tube 24 is designed such that because of the pre-pressure controlled by the pressure regulator 15, the amount of odor-free air that flows via additional supply line 23 to the fragrance cups is equal to the above amount of odor-containing air, for example 20 liters per minute.

Claims (5)

1. Dilution device for mixing odor-containing substances with odor-free air in a number of specific ratios, provided with a collection of olfactory cups to which the mixture and the odor-free air can be supplied at random via a main supply line and a second auxiliary supply line, characterized in that a odorless air container is connectable to the collection of olfactory cups via the main supply line and in the direction towards the olfactory cups the main supply line is provided with a first pressure regulator, a first constriction, a first slit and a first wider opening larger than the constriction, and that a first auxiliary supply line connects to the first gap, which first auxiliary supply line contains a critical capillary and is connectable to a container for the odor-containing substances. Dilution device according to claim 1, characterized in that the first auxiliary supply line comprises five series circuits of a critical capillary with a tap arranged in parallel, each tap being placed between the critical capillary and the first gap. Dilution device according to claim 2, characterized in that the odor-free air container via a third pressure regulator, a tap, a parallel circuit of the fragrance-containing container and a connecting line, a fourth-port tap of a four-port tap is connected, that the odorless air container is connected via a second pressure regulator, a second constriction, a second slit, and a second wider opening to a second port of the four-port valve, the second pressure regulator being connected to the connection between the container for odor-free air and the third pressure regulator, that the connection between the second more spacious opening and the second port of the four-port valve is connected with a restriction, that the second slit is connected via two series circuits of a tap with a critical capillary to a third port of the four-port crane is connected, that a first port of the four-port crane is connected via the first supply line m The five series-connected series circuits of a critical capillary are connected to a tap with the first slot, of the four-port tap the fourth port with the first port and the second port with the third port or the fourth port with the third port and the second gate is connectable to the first gate. Dilution device according to claim 3, characterized in that the first wider opening is connected to a first port of a multi-port valve, the connection between the second constriction and the second pressure regulator is connected via a second auxiliary supply line with a critical capillary to a second port of the multi-port tap, and that the other ports of the multi-port tap are connected to the olfactory cups. Dilution device according to claim 1, characterized in that the first pressure regulator is an electronically controlled pressure regulator.