NO339672B1 - Filter device and method for sampling and presentation of odorant - Google Patents

Description

Technical subject area

The invention generally relates to a system and a method for the collection of volatile trace elements and their presentation. More specifically, the invention relates to a container comprising a filter and a method for presenting volatile trace substances in the filter for analysis with a detector such as a canine animal, in a suitable environment.

Known technique

From 1990, a system called MEDDS (Mechem Explosives and Drugs Detection System) was developed by Mechem, a South African demining company. This system was essentially a mapping methodology based on the use of dogs to detect remnants of landmines or explosives after war. The system consisted of taking air samples in a filter system that was in a test tube. After sampling, the filter is removed from this sample tube and stored in a separate container. For analysis, the filter is removed from the storage container and placed in a presentation rack. A dog that has been trained to detect explosives is then used as a detector.

This system has been generically described as REST: Remote Explosive Scent Tracing and was published by the Geneva International Center for Humanitarian Demining in 2000. It is still in use by Mechem for demining.

The system is also a recognized method for screening air cargo, and is used in this way by DiagNose, a France-based company that offers detection services in a number of countries. In the UK the system has been renamed "RASCargO"

(Remote Air Sampling for Canine Olfaction) and is in use there for cargo scanning by a number of service providers.

It is known from the prior art that animals such as dogs, or other animal species, have a remarkable sense of smell, especially compared to humans. Dogs are used to find well-wrapped drugs that are hidden deep inside trucks, based on trace substances that escape from inside the packaging. They are used to track people down based on the trace substances they leave behind. Dogs trained to detect money are used to counter illegal trade at national borders. Other interesting applications of dogs are the detection of fungi in buildings and gardens, land mine detection and the detection of certain bacteria.

Other animals that are used because of their sense of smell are pigs and rats. Pigs have been trained to detect truffles, a type of mushroom that grows underground and is therefore difficult to locate. Rats are used as a model animal for studying the smell of the sense of smell, and are also used for a number of detection tasks, such as the detection of landmines and tuberculosis.

The patent document US 4389372A describes a container which is adapted to sampling, storing and presenting a fluid for analysis. A problem with this invention is that it cannot be split in two to reveal a filter that contains the fluid. Because of this, it is not designed for suitable use with dogs as testers in a suitable environment and requires more careful handling during the analysis phase.

Patent document US 2003/0083826A1 presents a method for testing, but it does not include a step of removing a container comprising a housing comprising fluid to be tested. Consequently, this application also requires careful handling in the analysis phase.

The patent document DE 10050863A presents another solution, but does not present a solution for removing a container containing fluid to be tested. Consequently, this invention also requires careful handling in the analysis phase.

Problems with known techniques

The main problem with the known technique is the necessary handling of the filters in the process of sampling and presentation to the dogs. Every handling activity is an opportunity for contamination, for accidental mixing and for losing the target's trace elements. Current systems require handling when the filter is inserted into the test tube, when it is removed from the test tube, when placed in a storage cassette, when retrieved from storage and when it is inserted into the presentation system for the dog. Dogs are very attentive to signals/signs from the dog handler. Gloves are no barrier to contamination, and the actual sampling is not part of a sterile laboratory environment, but usually outdoors or in warehouses.

Summary of the invention

One example of this invention is a container a filter for sampling, storing and presenting fluid, including odor, for analysis, and further has a housing surrounded by the container and where the housing surrounds the filter to protect the housing from contamination by an external environment.

Alternatively, the invention further comprises an entrance opening for admitting fluid from the outside of the container and an exit opening for evacuating fluid from the container.

Alternatively, the invention further comprises means for closing an entrance opening and means for closing an exit opening on containers.

Alternatively, the invention further comprises that the housing is divisible into two housing parts, where the second housing part contains the filter, where the first side of the filter is immersed more than 2 mm below the edge of the lower part of the housing.

A preferred embodiment of the invention is a method which has the steps of directing an entrance comprising an entrance opening to a first part of a container as mentioned above to a volume from which a sample is to be taken, where the entrance is fluidly connected to an entrance opening on a first part of a house; to a filter; to another part of the house; evacuating a volume of fluid from the exit opening to the second part of the container, thereby encapsulating a volume of fluid inside the container collected from said entrance; and close the inlet opening and the outlet opening of the container.

Another preferred embodiment of the invention is a method for presenting fluid stored in a container as mentioned above which has a filter by including the steps of removing a container; removing a first part of a house; and arranging a second part of the housing comprising the filter comprising the odor to be tested on a testing station for testing with the nose of an animal.

Brief review of the drawings

Fig. 1 illustrates a cross section of the container;

Fig. 2 is an exploded view of the container; and

Fig. 3 illustrates a carousel for dog animal testing seen from above.

Detailed description of the invention

Embodiments of the present invention are directed to a container and a method for use in sampling, storing and presenting odors disclosed below with reference to the attached drawings. Fig. 2 is an exploded view of a preferred embodiment of the invention. In the description relating to this figure, the references to "input" and "output" refer to the initial use of the invention, the sampling of odorants. Accordingly, when the invention is further used, when presenting odorants for testing, the flow of fluid is the opposite. Reference to "input" still refers to the same part as before, although in this case it is used as an output. Fig. 2 shows a container 1 which has a second part 5 and a first part 6 which has integrated threads. The threads are used as a way to achieve a tight connection of these two parts 5, 6. Other ways of achieving a tight connection could be used as alternatives for these parts 5, 6, such as an elastic snap connection on the edge, this is not shown.

The second part 5 of the container 1 comprises an entrance opening 9. The first part 6 comprises an exit opening 10.

On the inside of this container 1, 5, 6, is a housing 3, 4. The second part 3 and the first part 4 of this housing 3, 4 are prepared for tight connection by a connection method such as integral threads or the like. The second part 3 of the house comprises an entrance opening. The first part 4 comprises an exit opening. Finally, a filter element 2 is arranged to be positioned on the inside of the second part 3 of the housing and is tightly fitted to the inside of the second part 3. The second 3 and the first part 4 are then assembled resulting in an airtight housing with a first entrance opening and a second exit opening.

After the filter element has been put in place, the second 5 and the first part 6 of the container are assembled around the housing. The second parts 3, 5 and the first parts 4, 6 are made so that when they are assembled there is fluid connection between the inlet opening 9 of the first part 6 of the container, through the first opening of the first part 4 to the housing, through the filter from one side to the opposite side, further through the second opening to the second part 3 of the housing and still further through the exit opening 10 to the second part 5 of the container. This defines a path for fluid flow. Preferably, this fluid path does not have openings leading out of this path, i.e. across this fluid path. The indication of first and second here relates to the drawing. When in use, the container can have any orientation at any time.

The various parts of the container are produced so that said fluid openings are sealed when the container 1 is assembled. This can be done by using controlled pressure and flexibility in the material involved or alternatively by adding suitable seals, not shown in the drawings.

Fig. 1 illustrates a cross-section of the container 1 to be assembled. The container 1 is also equipped with lids 11,12 which cover the aforementioned two openings 9, 10 for sealing container 1. The lids 11,12 can be made of the same material as the container itself. Fixing the lids 11,12 can be done by press fitting, snapping, screwing on or in another way.

A container 1 assembled as in Fig. 1 and sealed with lids 11,12 is a product that can be stored. The material used for such a container must be more or less neutral and which does not emit odorous substances that could interfere with an odorant to be tested. It is also important that the material used represents a risk of odorous substances migrating inwards or outwards. Some plastic materials are available which are suitable for such use. Other suitable materials are glass or metal.

The filter is adapted to what is to be sampled, and can have different qualities depending on many parameters, depending on the target odor and the detector.

A system that uses the container 1, which comprises the housing 3, 4, the filter 2 and the lids 11, 12 will now be described.

A container 1 is assembled as in Fig. 1. To prepare for sampling, the lids 11,12 of the container 1 are removed. The entrance opening 9 to the container is presented to a volume that includes the odorant from which a sample is to be taken. This can be done directly, or often with one end of a tube which is connected to the entrance opening 9 and which extends further with its other end to the relevant position next to or on the inside of the volume from which a sample is to be taken. A suction device is connected to the outlet opening 10 of the container 1. The suction device can be a vacuum pump, either manual, electric or driven in another way and can be controlled. The control parameters can be current, pressure or extracted volume. When fluid containing odorants is to be sampled, a sample is sucked from the volume to be sampled and is led through the filter 2 where a sample of odorant must remain. Pipes or other conductors used to direct the flow are then removed and the container 1 is sealed with lids 11,12. Container 1 is often marked with relevant information. Sealing can also include using tape with an adhesive and adding a signature that can prevent manipulation and improve monitoring of the odorant sample.

After the sample is taken and sealed inside the container, the container can be handled in a normally aggressive environment and handled without any particularly high hygienic standards. Acceptable temperature range during transport and storage depends on the materials used, in the final container as well as the filter and odorant being sampled. Useful life can also be limited by the integrated temperature over time.

When the odorants that have been sampled are to be tested, this should be done in a controlled environment. When the odorants are expected to be at the limit of being detectable, the container including the lids can be cleaned of possible interfering odorants on the outside of the container to improve the possibilities of detection.

The first part 6 and the second part 5 of the container 1 and the first part 4 of the housing and the second part 3 of the housing comprising the filter 2 are arranged on a test station in a position that makes the filter accessible to the nose of a dog. The lid 12 is advantageously sunk at least 2 mm below the bottom edge of the second part 3 of the housing to prevent the nose from touching the surface of the filter and contaminating it.

The arrangement of the test station 8 is often done with more than one test station 8 on a carousel 7 to improve efficiency. A carousel 7 is an arrangement where test stations 8 are placed at intervals of the same distance along a periphery of a circle. One way of arranging a carousel is illustrated in Fig. 3. The dog is trained so that it moves on its own between the various positions of test stations 8.

After the actual test process is prepared, a dog that has been trained for this is allowed to enter the room where the test is to be carried out and to arrive at the first test station 8. The dog will then sniff the edge of the second part 3 until the house closes at a surface of the filter 2 which possibly contains an odorant to be searched for. When and if the dog recognizes an odor it has been trained to sniff it out, it alerts its handler, for example by sitting down or in some other way.

A carousel 7 can also be used as an arrangement for doing blind tests where the relative positions of certain filters are unknown to the dog handler and dog. In this way and also by using different dogs to carry out the tests, the quality of the tests can be significantly improved. With a carousel there is no beginning or end and the dog will not be inclined to make assumptions.

The number of test stations 8 in a carousel 7 can be any number. In Fig. 3, 6 stations are indicated, but the number can be less than 6 or significantly more, depending only on practical use, dog behavior and experience.

An alternative to arranging test stations 8 in a carousel 7 is to use a linear arrangement of test stations 8 in a row, not shown in the drawings.

By using housings 3, 4 in standard sizes, the withdrawal to the filter 2 can vary with the properties of the target odorants.

Very important in the field of obtaining reliable test results is the selection and training of the dogs.

An alternative construction of the container 1 of this invention is to use a layer of plastic which acts as the container enclosure 1 on the outside of the housing 3, 4 and the filter 2. Such a layer can be applied by shrink wrapping or in another way. It will then be possible to reduce the costs of manufacturing the container. The container 1 can then be produced as a sealed product, comprising composite second and first parts 5, 6 of a housing with filter. When the container 1 is arranged in this way, the container does not include first and second parts. The layer of plastic remains in place during the sampling phase and during the storage phase when using container 1. When the container is to be made ready to be used for testing the odorant from which a sample has been taken, the layer of plastic is stripped off instead of unscrewing the first 6 and second part 5 of a container 1 as described in the previous example. After this, the first part 4 of the housing is removed and the second part 3 of the housing which includes the filter 2 is arranged on the test station 8.

An alternative to sealing the entire container with a lid is to have valves to the inlet opening 9 and/or the outlet opening 10 of the container 1 and/or the housing 3, 4. Such valve openings can be opened with a physical connection of a pipe and/or a suction device as as previously described. Removing the same can then result in closing a valve.

The extent of the protection appears from the attached requirements.

Reference list

1 Container

2 Filters

3 Filter housing, second part

4 Filter housing, first part

5 Container, second part

6 Container, first part

7 Carousel

8 Test station

9 Entrance opening

10 Exit opening

11 Lid for entrance opening

12 Cover for output opening

Claims (4)

1. Container (1) comprising a first (6) and a second (5) part that can be assembled with integral threads or equivalent, wherein the first and second parts surround a housing (4,3) comprising a first (4) part comprising an inlet opening (9) and a second (3) part comprising an outlet opening (10) arranged to be assembled with integrated threads or equivalent, where the housing (4,3) surrounds a filter (2), for sampling, storage and presentation of fluid, including odor, where the container comprises an entrance opening (9) to allow fluid to enter from the outside of the container and an exit opening (10) to release fluid from the container, characterized by means for closing the entrance opening (9) in one of the container parts (5,6) and means for closing the exit opening (10) of the second container part (5,6) to protect the housing (3,4) from being contaminated by an external environment. 2. Container (1) according to claim 1, further comprising that the housing (3,4) is divisible into two housing parts (3,4), where the second housing part (3) contains the filter and a first side of the filter (2) is drawn more than 2 mm below an end edge of the other part (3) of the housing (3,4). 3. Method for sampling fluid to be stored in a container (1) according to claim 1), characterized in that it comprises the following steps: leading an entrance comprising the entrance opening (9) on the first part (6) of the container (1) to a fluid volume to be sampled, where the entrance is fluidly connected: to the entrance opening (9) to the first part (6) of the container (1); to an entrance opening to the first part (4) of the housing (3, 4); to the filter (2); to the second part (3) of the housing (3, 4); to the exit opening (10) of a second part (5) of the container (1); and further out of the container (1); to evacuate a volume of fluid from the exit opening (10) to the second part (5) of the container (1) so that the container surrounds a volume on the inside of the housing and where the fluid volume is taken in through said entrance; and to close the inlet opening (9) and the outlet opening (10) of the container (1). 4. Method for presenting fluid stored in the container (1) according to claim 1 where the method is characterized by the following steps: removing the container (1) which reveals a housing (3,4); removing the first part (4) of the housing (3,4); and to arrange the second part (3) of the housing (3,4) comprising the filter (2), comprising the fluid to be tested, at a testing station (8) for testing with a nose belonging to an animal.