KR101880350B1 - Apparatus for sampling of asbestos fibers from the surface of asbestos cement roofing from slate - Google Patents

Abstract

The present invention relates to a non-acid asbestos collecting apparatus in a slate, which is capable of scattering asbestos remaining on the surface of asbestos through naturally flowing external air and collecting asbestos from outside air containing scattered asbestos , It is possible to effectively collect asbestos without a driving device for the house of asbestos, and it is possible to collect asbestos in a condition as close as possible to the external environment in which the asbestos is scattered. Furthermore, the measurement reliability of the asbestos asbestos is measured based on the collected asbestos.

Description

FIELD OF THE INVENTION [0001] The present invention relates to an asbestos asbestos-

The present invention relates to a non-asbestos collecting apparatus in a slate, and more particularly, to an asbestos collecting apparatus capable of effectively collecting asbestos scattered in a building exterior containing asbestos, Asbestos asbestos, and the like.

Asbestos is a generic name for a group of minerals that are produced from natural stone and that make up a set of filigree lustrous polishes with high tensile strength and flexibility. Asbestos is easily split into long, thin and strong fibers and can be woven with cloth. Asbestos has heat, inert and insulating properties and is commonly used where nonflammability, electrical conductivity and chemical inertness are required.

Most asbestos is consumed in building materials, automotive parts and textiles. Among the building materials using asbestos, the asbestos-containing slate is mainly used as a building exterior material (roofing material) for houses, factories, and houses. If an asbestos containing slate is used as the roofing material, the asbestos containing slate is gradually damaged due to the aging of the roofing material and the weather effect.

Due to the damage of the asbestos containing slate, the contained asbestos is scattered to the outside, which can lead to asbestos-related diseases such as lung cancer and malignant mesothelioma in the human body. Therefore, much efforts are currently being made to reduce the damage caused by scattered asbestos (asbestos asbestos) in the current asbestos containing slate (asbestos slate).

In an effort to reduce the damage caused by asbestos, various techniques for measuring asbestos have been introduced. In order to measure asbestos asbestos, it is necessary to collect asbestos by using a non-asbestos collecting device in the slate.

In general, the scattered asbestos collecting apparatus in a slate has a problem that asbestos is collected under conditions different from the external environment where asbestos is scattered. Therefore, there is a problem that the measurement reliability of the asbestos asbestos is deteriorated based on the collected asbestos ash.

The prior art is Korean Patent No. 10-1386459 entitled " Asbestos Monitoring System ".

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to enable effective collection of asbestos scattered on the surface of asbestos, So that it is possible to easily grasp the degree of aging.

The solution to the problem of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

In order to accomplish the above object, according to the present invention, there is provided a non-acid asbestos collecting apparatus in a slate corresponding to an asbestos surface so as to form a fluidized space between a surface contact portion contacting the asbestos surface and a surface of the asbestos, An inlet for allowing air to flow into the flow space, and a discharge unit for discharging the asbestos-containing air formed in accordance with the inflow of the external air to the outside; And an air flow generating unit for forming an air guide flow path between the inflow part and the discharge part so as to increase the contact efficiency between the outside air and the surface of the asbestos.

It is preferable that the air guide passage is formed to have a passage narrower than the vertical width of the inlet side.

The air flow generating unit may further include: a guide rib for forming the air guide passage between the asbestos surface and the guide rib; An inflowing rib for guiding the outside air introduced through the inflow portion of the housing to the air guide channel side; And a discharge rib for guiding the asbestos-containing air to the discharge portion side.

In addition, the surface contact portion preferably includes a contact pad for sealing a space between the housing and the surface of the asbestos.

And a handle provided on the outer side of the housing for smoothly grasping the user.

The asbestos surface collecting apparatus in the slate according to the present invention having the above-described construction is characterized in that the asbestos remaining on the surface of the asbestos is scattered through the movement of the outside air flowing into the flow space inside the housing, The asbestos can be effectively collected without any additional device (fan or the like) for the asbestos house, and the asbestos can be collected in the environmental condition as close as possible to the external environment where the asbestos is scattered, It is possible to easily grasp the aging degree of the building exterior material in which asbestos is collected and to increase the reliability of measurement of asbestos ash based on the collected asbestos.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a perspective view of a non-asbestos surface collecting apparatus in a slate according to an embodiment of the present invention.
2 is a bottom perspective view of an embodiment of the present invention;
3 is a bottom perspective view of an air flow path generating unit employed in an embodiment of the present invention.
4 is a cross-sectional view showing IV of Fig.
5 is a perspective view for explaining various shapes of surface contact portions of a housing adopted in an embodiment of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an ash asbestos collecting apparatus in a slate according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. FIG. 2 is a bottom perspective view of an embodiment of the present invention, and FIG. 3 is a cross-sectional view of the air flow generating unit of the embodiment of the present invention. FIG. 4 is a cross-sectional view of FIG. 1, and FIG. 5 is a perspective view illustrating various shapes of a surface contact portion of the housing employed in an embodiment of the present invention.

As shown in the drawings, the ash asbestos collecting apparatus in a slate according to an embodiment of the present invention includes a housing 100 and an air flow generating unit 200. The housing 100 includes a surface contact portion 101 having a shape corresponding to the asbestos surface S. In addition, the housing 100 forms a flow space for air movement between the asbestos surface S and the asbestos surface S.

In addition, the housing 100 includes an inflow portion 100a through which external air flows into a flow space formed therein. In addition, the housing 100 includes a discharge portion 100b for discharging the asbestos-containing air formed in accordance with the inflow of the outside air to the outside.

In this specification, the flow space refers to the internal space (inside) of the housing 100. In addition, the inflow portion flow space refers to the internal space on the inflow portion 100a side with respect to the air flow path generation unit 200. [ In addition, the outlet portion flow space refers to the internal space on the side of the discharge portion 100b with respect to the air flow path generation unit 200.

The housing 100 forms an inlet flow space on the inlet 100a side and a discharge space flow outlet on the outlet 100b side. The outside air flows into the inflow portion flow space through the inflow portion 100a. The outside air introduced through the inlet portion 100a passes through the air guide passage A, which is a space between the asbestos surface S and the air flow generating unit 200.

The outside air passing through the air guide passage A includes asbestos remaining on the asbestos surface S. The asbestos-containing air containing the asbestos is moved to the discharge space flow space and discharged to the outside through the discharge unit 100b.

The inlet 100a is formed with a plurality of slits on the upper portion of the housing 100. [ The discharge portion 100b is formed on the outer side in the direction opposite to the inflow portion 100a. The discharge unit 100b may be connected to an external pump or the like, and the pump may discharge the external air.

The inlet flow space (flow space on the inlet 100a) formed in the housing 100 is formed to be larger than the outlet flow space (flow space on the outlet 100b side). Accordingly, the housing 100 allows a large amount of outside air to be introduced, and allows the introduced outside air to pass through the asbestos surface S at a high speed and effectively scatter the asbestos.

The air flow path generating unit 200 forms the air guide path A between the inflow portion 100a and the discharge portion 100b so as to increase the contact efficiency between the outside air and the asbestos surface S . The air flow generating unit 200 causes the outside air introduced into the flow space of the housing 100 to scatter the asbestos remaining on the asbestos surface S. [ The air flow generating unit 200 enables generation of asbestos containing air containing the scattered asbestos in the outside air.

The air guide passage A formed by the air passage forming unit 200 forms a passage having a narrower width than the top and bottom width of the inlet 100a of the housing 100. That is, the vertical width of the air guide passage A is narrower than the vertical width of the inflow portion flow space. Therefore, the outside air introduced into the inflow portion flow space flows into the air guide passage A, moves at a high speed, and splashes the asbestos, thereby containing the scattered asbestos.

The present invention allows the outside air to flow into the interior of the housing 100 through the inlet 100a of the housing 100. [ In addition, the present invention allows the introduced outside air to be moved at a high speed in the air guide passage A formed by the air flow generating unit 200, to scatter the asbestos, . Then, the asbestos-containing air containing the asbestos is moved to the discharge portion 100b side.

As described above, according to the present invention, the asbestos remaining on the asbestos surface S is scattered through the movement of the outside air naturally introduced, and the asbestos can be collected from the outside air containing the scattered asbestos, It is possible to effectively collect asbestos even without an additional device (such as a fan) for the house of asbestos, and to collect asbestos in an environmental condition as close as possible to the external environment where the asbestos is scattered. Furthermore, the measurement reliability of the asbestos asbestos is measured based on the collected asbestos.

3, the air flow generating unit 200 includes a guide rib 200a, an inflow rib 200b, and a discharge rib 200c. The air flow generating unit 200 defines the flow space inside the housing 100. The guide rib 200a is provided between the air guide passage A and the asbestos surface S so that the external air introduced into the flow space inside the housing 100 can move with the asbestos surface S, ).

The guide rib 200a has a shape corresponding to the shape of the asbestos surface S (see Figs. 2 and 3). Therefore, the guide rib 200a allows the external air to efficiently contact the asbestos surface S. The guide rib 200a is connected to the inflow rib 200b provided on the inflow portion 110a side into which the outside air flows.

The inflow rib 200b is formed so that the upper and lower widths of the flow space (inflow portion flow space) on the inflow portion 100a side of the housing 100 are gradually narrowed toward the air guide flow path A side The guide channel side slope). Therefore, the outside air introduced through the inlet portion 100a is moved toward the inlet rib 200b, and the outside air is sucked toward the air guide passage A along the inclined path of the inlet rib 200b do.

The discharge rib 200c is provided on the discharging portion 100b side of the housing 100 and is connected to the guide rib 200a. The discharge rib 200c guides the asbestos-containing air moved through the air guide passage A to the discharge portion 100b side. The discharge rib 200c is formed so that the width of the flow space (discharge portion flow space) on the discharge portion 100b side from the side of the air guide passage A toward the discharge portion 100b becomes larger, Side slope).

Therefore, the asbestos-containing air containing the asbestos that has been scattered through the air guide passage A is naturally discharged to the discharge portion 100b. At this time, the asbestos-containing air is effectively moved to the discharge portion 100b side along the inclined path of the discharge rib 200c and discharged.

Referring to FIG. 4, the surface contact portion 101 of the housing 100 may include a contact pad 101a. The contact pad 101a seals a space between the cleaning pad 100 and the asbestos surface S. The contact pad 101a may be made of a buffer material such as rubber, or may be made of various sealing materials. The adhesion pad 101a can be adhered to the surface contact portion 101 by an adhesive.

The housing 100 is provided with the adhesion pad 101a between the surface contacting portion 101 and the asbestos surface S to prevent the outside air flowing into the flow space from flowing out to the outside of the housing 100 do. In addition, the leakage of the asbestos-containing air to the outside can be prevented, and the measurement reliability can be improved when measuring the non-asbestos surface.

External air is introduced into the flow space of the housing 100 through the inlet 100a of the housing 100 due to the organic coupling relationship between the components described above. In addition, the outside air is moved to the air guide passage A along the inflow rib 200b of the air passage generating unit 200. [ In addition, the outside air scatters the asbestos on the asbestos surface S in the guide passage (A).

Here, the outside air for scattering the asbestos contains the asbestos in the air guide passage (A). The asbestos-containing air containing the asbestos is moved toward the discharge portion 100b along the discharge rib 200c and is effectively discharged.

Meanwhile, the present invention can include a handle 300. The handle 300 is provided on the outer side of the housing 100 to smoothly grasp the user. Thus, the user can collect asbestos remaining on the asbestos surface S at different positions on the asbestos surface S.

5, the surface contact portion 101 of the housing 100 may be made different from the surface contact portion 101 shown in FIGS. 1 and 2 along the asbestos surface S. As shown in FIG. For example, when the asbestos is collected on the asbestos surface of the back slat, it is preferable that the surface contact portion 101 has a shape as shown in FIG. Meanwhile, when asbestos is collected on the asbestos surface of the bone slate, it is preferable that the surface contact portion 101 has a shape as shown in Figs. 1 and 2.

The surface contact portion 101 of the present invention is not limited to any one of the shapes and may have a shape corresponding to the asbestos surface S. [

The present invention can effectively collect asbestos by scattering the asbestos remaining on the surface of the asbestos through the naturally inflowing external air and making it possible to collect the asbestos from the outside air containing the scattered asbestos, And asbestos can be easily collected in the environmental conditions as close as possible to the external environment where asbestos is scattered. Furthermore, it is possible to increase the reliability of measurement of asbestos asbestos based on the collected asbestos.

In addition, it is possible to collect asbestos in an environmental condition close to the external environment on the surface of the asbestos such as the building exterior material (asbestos plate), and to make it possible to easily judge the degree of aging of the building exterior material based on the collected asbestos The advantage is also derived.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, It is obvious that all modifications and concrete examples which can easily be devised by those skilled in the art within the scope of technical thought are included in the scope of the present invention.

100: housing 200: air flow generating unit
300: Handle A: Air guide channel

Claims (5)

A surface contact portion that is formed in a shape corresponding to an asbestos surface so as to be in contact with the surface of the asbestos surface, an inflow portion that forms a flow space between the surface of the asbestos surface and external air to flow into the flow space, A housing including a discharge portion for discharging the asbestos-containing air formed along the discharge path to the outside; And
And an air flow generating unit for forming an air guide flow path between the inflow part and the discharge part so as to increase the contact efficiency between the outside air and the surface of the asbestos,
The air flow generating unit includes:
A guide rib for forming the air guide passage between the asbestos surface and the asbestos surface; An inflowing rib for guiding the outside air introduced through the inflow portion of the housing to the air guide channel side; And a discharge rib for guiding the asbestos-containing air to the discharge portion side ,
The guide ribs
Characterized in that the external air introduced into the flow space inside the housing is shaped so as to correspond to the asbestos surface of the bone or arch slate so that the asbestos remaining on the surface of the asbestos can be scattered by moving on the surface of the asbestos surface. Asbestos collecting device. The method according to claim 1,
Wherein the air guide passage is formed to have a passage narrower than the vertical width of the inlet side. delete The method according to claim 1,
The surface-
And a contact pad sealing the space between the housing and the surface of the asbestos. The method according to claim 1,
And a handle provided on the outer side of the housing for smoothly grasping the user.

Images