NL2013041B1 - Method for collecting particles. - Google Patents

Abstract

The invention relates to a method for collecting particles, comprising providing a collection strip with an adhesive surface, placing the adhesive surface of the collection strip on a substrate to be sampled, and analyzing the adhesive surface of the collection strip on particles. The method is characterized in that the collecting strip is provided on a fixed base, wherein the fixed base comprises a cover that can be detachably coupled thereto, wherein the cover, in a condition coupled to the base, covers the collecting strip and is situated at a distance therefrom.

Description

P149 / NLpd

METHOD FOR COLLECTING PARTICLES

The present invention relates to a method for collecting particles according to the preamble of claim 1. In particular, the invention is directed to a method for collecting asbestos particles.

Such a method is known in the art. For example, such a method is performed to check whether such particles are present or to determine their concentration.

In the art, the method of measurement is mainly determined by legal requirements, for example according to an SEM analysis in accordance with VDI 3877 Blatt 1 or ISO 16000-27 and NEN 2991. One of the requirements is that an adhesive collection strip, for example an adhesive tape, is used which is printed on a surface to be examined for sampling. The way in which the sampling is carried out is largely free. However, for example according to a method prescribed by NEN 2991, the method comprises placing an adhesive collection strip with a pair of tweezers on a substrate to be sampled and pressing on the collection strip. The collection strip with the tweezers must then be removed from the substrate. The collection strip must then be glued to the transport container with the sampled surface. When applying and removing the collection strip with the tweezers, when storing the collection strip in a transport container, for example a plastic sample bag, there is a great risk of influencing or contamination of the sample, as well as during removal from the container and handling of the collection strip for inspection with a microscope. In particular, the collection strip may crumble or fold during these various handling movements with the tweezers, rendering it unusable.

This known method therefore has the disadvantage that contamination of the sample can be obtained. Contamination during measurement and storage in a transport container as well as later cross-contamination during analysis are possible with this known method.

The invention now has for its object to provide an improved method of the type mentioned in the preamble.

In particular, it is an object of the invention to provide a method of the type mentioned in the preamble which can be used without the risk of contamination or cross-contamination.

A further object of the invention is to provide an improved method with which a sample can easily be coded.

In order to obtain at least one of the aforementioned advantages, the invention according to a first embodiment provides a method comprising the features of claim 1. This method has the advantage that the risk of cross-contamination is completely prevented. It has also surprisingly been found that due to the construction of the base with the cover and the manner of handling defined thereby, there is no chance of contamination of the sample during sampling and during the measurement in the laboratory. Also, due to the structure of the base and cover, coding of each sample is easy to perform.

According to the invention, the basis is formed of a manually gripable grip part and a collection strip holder detachably coupled thereto. This carrier can be combined with the grip part. As a result, different collecting strip holders, and thus possibly different types of collecting strips, can be combined with the same kind of grip part, for instance in order to be able to handle different sizes of collecting strips.

This synergistic combination of benefits is completely unexpected.

Because the base is formed of a combined grip part and collection strip holder, it is preferred that the grip part is adapted for releasable coupling with the cover. As a result, the collection strip holder and the collection strip are not touched during the covering with the cover, for example for transport or storage. This provides further protection against contamination and cross-contamination.

It is particularly preferred here that the collection strip is sealed off from the environment by means of the covering. This provides a safe environment and protection of the sample during transport and storage. Contamination of the sample is therefore not possible.

Effective sampling and simultaneous connection, or coupling, with the base can be achieved if the collection strip is a double-sided adhesive strip of material, the collection strip being glued to the base on the one hand and placed on the surface to be sampled on the other.

Optimal contacting of the collection strip with the base, together with a good uptake of particles on the collection strip is obtained when the adhesion of the collection strip to the base is greater than the adhesion of the base to the surface to be sampled. Upon removal of the collection strip from the substrate to be sampled, the collection strip will remain coupled to the base. A certain and accurate sampling is hereby obtained, because the collecting strip does not become detached from the base.

In order to be able to easily ascertain from which position a sample originates, it is preferable that each sample is coded. To that end, it is preferred that the base comprises a coding surface.

According to a further aspect, it is preferred here that the cover comprises a coding surface, optionally in combination with the coding surface on the base.

Optimal contacting of the collection strip with the substrate to be sampled is obtained when the surface of the base on which the collection strip is adhered supports at least the entire collection strip.

Excellent adhesion of particles, in particular asbestos particles, is obtained when the collection strip comprises a carbon-based adhesive strip. Such a collection strip also has the advantage that the sample is directly suitable for analysis in an SEM or the like.

A simple and rapid coupling of the collecting strip holder to the grip part is obtained when the collecting strip holder is coupled to the grip part by means of a snap connection.

It has been found that a most secure sampling is obtained when the collection strip is placed on a substrate without deformation and removed from it again. For that reason, it is preferred that the surface of the base to which the collection strip is adhered comprises a substantially dimensionally stable surface. According to the prior art, a flexible adhesive strip is adhered to a substrate and removed therefrom with a rolling movement. The present invention provides a greatly improved accuracy when sampling a substrate.

Furthermore, reference is made to the European patent application EP 0826141 which describes a method and apparatus for performing a sampling of a surface. The device comprises a resiliently placed collection strip holder which is releasably placed in a base. This placement with an adhesive requires a drying time for many hours to ensure accurate sampling. This known method is therefore not easy to implement because of the extensive and long-term pre-processing of the device for performing the method.

In addition, U.S. Patent No. 50,630,226 describes an apparatus and method for performing surface sampling. Hereby an adhesive strip is stuck on the surface to be interested and subsequently unrolled from the surface by means of an axis which is coupled to an end of the adhesive strip and around which the adhesive strip is rolled up. The adhesive pressure cannot be set accurately. Moreover, there is a problem that when storing the axis with adhesive strip, the surface of the adhesive strip touches the container wall, which influences the accuracy of the measurement.

These known methods therefore have disadvantages which are eliminated with the invention.

The invention will be explained in more detail below with reference to a drawing. The drawing shows in:

FIG. 1 is a schematic perspective exploded view of a device for performing the method according to the invention,

FIG. 2 is a schematic perspective side view of a device for performing the method according to the invention.

In the figures, the same parts are indicated by the same reference numerals. However, the parts necessary for a practical implementation of the invention are not all shown, due to the simplicity of the representation.

FIG. 1 shows a schematic perspective exploded view of a device 1 for carrying out the method according to the invention. The device 1 comprises a collection strip 2 which comprises an adhesive surface 3. The adhesive surface 3 is placed on a substrate to be sampled, whereby any particles present adhere to the adhesive surface 3. The surface 3 can be analyzed to show the presence of particles.

The collecting strip 2 is coupled to a collecting strip holder 4 which is connected to a grip part 5. In the embodiment shown, the collecting strip holder 4 is connected to the grip part 5 by means of a click connection, but a different coupling method is also possible, for example a screw connection. A user can manually handle the grip part 5 to place the collection strip 2 with the adhesive surface 3 on a substrate to be sampled. The collecting strip 2 can then be removed from the substrate, whereafter a cover 6 can be coupled to the grip part 5, for example by means of a screw movement. As a result, the collection strip 2 with any particles present is safely stored and shielded from the environment. Contamination of the adhesive surface 3 cannot occur as a result.

FIG. 2 shows a schematic perspective side view of a device for performing the method according to the invention. Herein, the grip part 5 is shown in the condition coupled to the collecting strip holder 4. The collecting strip 2 is arranged on the collecting strip holder 4. The collection strip is advantageously a double-sided adhesive tape which has a greater adhesion to the collection strip holder 4 than to the substrate to be sampled. As can be clearly seen, the collection strip 2 protrudes above the edge of the grip part 5, so that a good sampling can be obtained at all times and sufficient force can be exerted to press the adhesive surface 3 of the collection strip 2 onto the substrate. .

In the embodiment shown, a coding surface 7, 8 is provided on the grip part 5 and on the cover 6. For example, this surface can be described with a pen or the like to provide a coding whereby it can be recognized at all times which sampling has been carried out with the device.

The invention is not limited to the embodiments described above and shown in the figures. The invention is only limited by the appended claims.

The invention also extends to any combination of measures described above independently of each other.

Claims (11)

A method for collecting particles, comprising providing a collection strip with an adhesive surface, placing the adhesive surface of the collection strip on a sample to be sampled, and analyzing the adhesive surface of the collection strip for particles, the collecting strip is provided on a fixed base, characterized in that the fixed base comprises a cover that can be detachably connected thereto, the cover in a condition coupled to the base covering the collecting strip and being spaced apart, provided that the base is formed from a manually manageable grip part and a collection strip holder detachably coupled thereto. Method according to claim 1, wherein the collection strip is sealed off from the environment by means of the covering. Method according to claim 1, wherein the collection strip is a double-sided adhesive strip of material, the collection strip being glued to the base on the one hand and placed on the surface to be sampled on the other hand. The method of claim 1, wherein the adhesion of the collection strip to the base is greater than the adhesion of the base to the surface to be sampled. The method of claim 1, wherein the grip member is adapted for releasable engagement with the cover. The method of claim 1, wherein the base comprises an encoding surface. The method of claim 1, wherein the cover comprises an encoding surface. The method of claim 1, wherein the surface of the base to which the collection strip is adhered supports at least the entire collection strip. The method of claim 1, wherein the collection strip comprises a carbon-based adhesive strip. The method of claim 1, wherein the manifold holder is coupled to the grip member by a snap connection. The method of claim 1, wherein the surface of the base on which the collection strip is adhered comprises a substantially dimensionally stable surface.