KR20130085775A - Sensor for measuring moisture in concrete - Google Patents

Abstract

PURPOSE: An apparatus for measuring relative humidity in a concrete having moisture condensation prevention function is provided to prevent error generation in measuring the relative humidity due to moisture condensation, and to measure the relative humidity in the concrete accurately. CONSTITUTION: An apparatus for measuring relative humidity in a concrete having moisture condensation prevention function includes a sensor part (100) and a moisture condensation prevention member (300). The sensor part measures relative moisture by changing electrical characteristics of an electrode when the sensor part is exposed to water molecule. The humidity condensation prevention member comprises a main body (303) and a moisture-permeable and water-proof fiber (301). The main body is installed to surround the outside of the sensor part, and comprises a through-hole connected to the outside. The moisture condensation prevention member passes water molecules through the through-hole so that the water molecules are flowed into the inside, but is installed not to pass the water through the through-hole by blocking the through-hole.

Description

Sensor for Measuring Moisture in Concrete with Moisture Condensation Prevention

The present invention relates to a device for measuring relative humidity in concrete, that is, a concrete relative humidity measuring device (measuring sensor), and specifically prevents moisture condensation from occurring in the sensor unit due to moisture present in the voids in the concrete. Thus, the present invention relates to a concrete relative humidity measuring apparatus having a moisture condensation preventing function so that an error does not occur when measuring relative humidity in concrete.

The physical and chemical properties of the concrete are affected by the moisture variation inside the concrete. Moisture in concrete has a great influence, in particular, on the hydration of cement, self shrinkage and dry shrinkage. Therefore, it is very important to accurately measure and monitor the exact moisture distribution in the concrete under the atmospheric environment in which the concrete is used, in order to prevent cracking due to shrinkage, which is a serious problem in the concrete structure.

The key to monitoring the moisture distribution in the concrete is to accurately measure the relative humidity in the concrete. Figure 1 is a schematic diagram of a conventional concrete relative humidity measuring device for measuring the relative humidity used in the concrete to measure the relative humidity in the concrete. Conventional capacitance-type concrete relative humidity measuring device is provided with a sensor unit 100 embedded in the concrete, the sensor unit 100 includes an electrode made of a moisture-sensitive film and a dielectric. In FIG. 1, the member number 200 is a coated wire 200 connected to the sensor unit 100. The conventional capacitance-type concrete relative humidity measuring device measures relative humidity using a change in electrical characteristics of the electrode when the moisture-sensitive film and the electrode provided in the sensor unit 100 are exposed to water vapor, that is, water molecules. Done. Korean Patent No. 10-965835 described below in the prior patent document discloses an example of such a conventional capacitance-type concrete relative humidity measuring device.

In order to measure the relative humidity of concrete, the sensor unit 100 of the conventional capacitance-type concrete relative humidity measuring device is embedded in the concrete, and at this time, because of condensation due to moisture in the concrete There is a problem that the reliability of the measured relative humidity value is considerably inferior.

Concrete generally has a configuration that includes water, cement, admixtures, fine aggregates, coarse aggregates, and the like. Hydration products are produced by the hydration of cement and water, so water is consumed in this hydration process. In addition, the moisture inside the concrete is moved to the outside due to the difference in relative humidity with the outside. Due to this phenomenon, the relative humidity in the concrete generally decreases over time. Figure 2 is a graph showing the result of measuring the relative humidity in the concrete using a conventional capacitance-type concrete relative humidity measuring device, the dotted line in Figure 2 shows the case where the internal relative humidity of the concrete is 100% The solid line shows the actual measured value. As shown by the solid line in FIG. 2, in the measurement result by the conventional capacitance-type concrete relative humidity measuring device, although the relative humidity in the concrete decreases slightly over time, water droplets form in the sensor unit or water droplets in the sensor unit. As a result of condensation (moisture condensation / condensation) of the moisture in the sensor part such as wrapping, the relative humidity measurement in the concrete is increasing again, and even more than 100% is returned as the measurement value. As described above, since the conventional capacitance type concrete relative humidity measuring apparatus is not provided with any configuration that can prevent moisture condensation, there is a problem of generating an incorrect concrete relative humidity measurement value.

See Republic of Korea Patent No. 10-965835 (June 28, 2010).

The present invention has been developed to solve the problems of the prior art as described above, specifically, in the sensor unit embedded directly into the concrete in the capacitive-type concrete relative humidity measuring device, further configured to prevent moisture condensation phenomenon By installing additionally, the object of the present invention is to provide a technique for improving the concrete relative humidity measurement accuracy by preventing the occurrence of concrete relative humidity measurement errors due to moisture condensation.

In order to achieve the above object, the present invention, the sensor unit for measuring the relative humidity by changing the electrical properties of the electrode when exposed to water molecules; It is provided to surround the sensor unit is provided with a through hole communicating with the outside, the through hole comprises a water condensation preventing member is blocked by a moisture-permeable waterproof fiber material that passes through the water molecules but does not pass water. ; When the moisture condensation preventing member and the sensor unit are embedded in the concrete, only the water molecules pass through the moisture-permeable waterproof fiber material and not penetrate the through-holes while the water itself inside the concrete is blocked by the water-permeable waterproof fiber material. An electrostatic concrete relative humidity measuring device having a moisture condensation preventing function is provided, which is introduced into the moisture condensation preventing member through contact with the sensor to measure the relative humidity of the concrete.

In the present invention as described above, the moisture condensation preventing member is made of a cylindrical member having one end is opened to form an open end, the moisture-permeable waterproof fiber material may have a configuration that is closed by covering the open end. In particular, in this case, the side through-hole may be further formed on the side of the cylindrical member forming the moisture condensation preventing member, and the side through-hole may also have a configuration that is closed by the moisture-permeable waterproof fiber material.

In another embodiment of the present invention, the moisture condensation preventing member is composed of a network member having a space in which the sensor unit can be located; The moisture-permeable waterproof fiber material is provided with an electrostatic concrete relative humidity measuring apparatus having a moisture condensation preventing function, characterized in that the cover is closed to the mesh member of the mesh member.

When the relative humidity in the concrete is measured by using the relative humidity measuring device inside the concrete having a moisture condensation preventing function according to the present invention, even if the water condensation preventing member and the sensor is located in the concrete voids, the through hole Since the water-permeable waterproof fiber material blocking the water does not pass through the liquid water, the water condensation phenomenon that water directly touches the outer surface of the sensor part does not occur, while the water molecules freely pass through the water-permeable water-proof fiber material to prevent moisture. The sensor unit is located inside the anti-condensation member, and the sensor unit measures the relative humidity of the concrete by measuring it.

Therefore, by measuring the relative humidity in the concrete using the relative humidity measuring apparatus according to the present invention, it is possible to prevent the occurrence of errors when measuring the relative humidity due to moisture condensation, it is possible to accurately measure the relative humidity in the concrete The effect is exerted.

1 is a schematic view of a conventional capacitance-type concrete relative humidity measuring device used to measure the relative humidity in the concrete.
Figure 2 is a graph showing the results of measuring the relative humidity in the concrete using a conventional capacitance-type concrete relative humidity measuring device.
3 and 4 are schematic exploded perspective and assembly perspective views of the sensor unit and the moisture condensation preventing member, respectively, provided in the moisture condensation preventing concrete relative humidity measuring apparatus according to the exemplary embodiment of the present invention.
5 is a schematic cross sectional perspective view along the line AA of FIG. 4.
6 is a schematic view showing a state in which the sensor portion and the moisture condensation preventing member of the water condensation-prevention concrete relative humidity measuring apparatus according to an embodiment of the present invention shown in FIG.
7 and 8 are schematic exploded perspective and assembly perspective views of a sensor unit and a moisture condensation preventing member having a side through-hole forming structure, respectively, of the moisture condensation preventing concrete relative humidity measuring apparatus according to another embodiment of the present invention. to be.
9 and 10 are schematic exploded perspective and assembly perspective views of a sensor unit and a moisture condensation preventing member having a mesh shape, respectively, of the moisture condensation preventing concrete relative humidity measuring apparatus according to another exemplary embodiment of the present invention.
11 is a graph showing the results of measuring the relative humidity in the concrete using the moisture condensation-prevention concrete relative humidity measuring apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

3 and 4 are schematic exploded perspective views (FIG. 3) of the sensor unit 100 and the moisture condensation preventing member 300 provided in the moisture condensation-prevention concrete relative humidity measuring apparatus according to an embodiment of the present invention, respectively; An assembly perspective view (FIG. 4) is shown, and in FIG. 5 a schematic assembly cross-sectional perspective view along the line AA of FIG. 4 is shown.

As illustrated in the drawings, the water condensation-prevention concrete relative humidity measuring apparatus (hereinafter, referred to as "relative humidity measuring apparatus") according to the present invention is a relative humidity by changing the electrical properties of the electrode when exposed to water molecules It is provided with a sensor unit 100 for measuring the, and a through-hole installed to surround the outside of the sensor unit 100 and communicating with the outside, the through-hole is blocked by a fiber material that allows water molecules to pass but does not pass water. It is configured to include a moisture condensation preventing member 300.

The sensor unit 100 is a portion embedded in the unconsolidated concrete, and has the same configuration as the sensor unit of the conventional capacitance-type concrete relative humidity measuring apparatus described above with respect to the background art. Therefore, description of the structure of the sensor part 100 itself is abbreviate | omitted.

The moisture condensation preventing member 300 includes a body 303 surrounding the sensor unit 100 and having a through hole, and a moisture-permeable waterproof fiber material 301 blocking the through hole. do. The moisture-permeable waterproof fiber material 301 is a member for blocking the through-holes formed in the main body 303, the gap size between the fibers is smaller than the water droplets and water molecules, that is, the water vapor (moisture) or more, so that the water does not pass from the outside to the inside Water vapor (humidity) and gas is made of a material that passes freely from the outside to the inside. Representative examples of those commercialized as a moisture-permeable waterproof fiber material is a fiber material marketed under the name of "Gore-Tex", which is usually used for mountaineering clothes, etc., when used in mountaineering clothes, while blocking the liquid water such as external raindrops Water vapor due to sweat generated in the wearer's body is released to the outside.

3 to 5, the body 303 of the moisture condensation preventing member 300 has a hollow member and has an open end, and is formed of a cylindrical member having an open end forming a through hole. The open end of the tubular body 303 is covered with a moisture-permeable waterproof fiber material 301. In other words, the moisture-permeable waterproof fiber material 301 is closed by covering the open end. In the figure, reference numeral 311 denotes a sealing band 311 for sealing the lower end of the moisture-permeable waterproof fiber material 301 to the main body 303 or the coated wire 200 as described later.

The sensor unit 100 of the relative humidity measuring apparatus according to the present invention is located inside the hollow of the moisture condensation preventing member 300. That is, the moisture condensation preventing member 300 is covered on the outside of the sensor unit 100 so that the sensor unit 100 is positioned inside the hollow of the moisture condensation preventing member 300. In this case, between the other end of the cylindrical body of the moisture condensation preventing member 300 and the coated wire 200 connected to the sensor unit 100 is sealed by a sealing material 310.

6 is a sensor of the relative humidity measuring apparatus according to the present invention shown in Figs. 3 to 5 to measure the relative humidity in the concrete using the relative humidity measuring apparatus according to the present invention shown in Figs. A schematic diagram showing a state in which the part 100 and the moisture condensation preventing member 300 are embedded in the unconsolidated concrete is shown. As shown in the figure, in order to measure the relative humidity in the concrete, the moisture condensation preventing member 300 having the above-described configuration is provided in the sensor unit 100, the moisture condensation preventing member 300 and the sensor The part 100 is embedded in the unconsolidated concrete (C). Therefore, the concrete only comes into contact with the outer surface of the moisture condensation preventing member 300 and is not in direct contact with the sensor unit 100. However, the moisture condensation preventing member 300 has an open end to function as a through hole, so that moisture inside the concrete, that is, water molecules, passes through the moisture-permeable waterproof fiber material 301 and prevents water condensation through the open end ( It freely flows into the inside of the 300 to contact the sensor unit 100, through which the sensor unit 100 measures relative humidity. The through-hole formed of the open end is blocked by the moisture-permeable waterproof fiber material 301, so that water in the liquid state does not flow into the sensor unit 100 through the moisture-permeable waterproof fiber material 301, but the moisture-permeable waterproof fiber material 301 ) Passes through the water molecules freely, so that the moisture inside the concrete freely passes through the through-holes to reach the sensor unit 100.

In this way, when measuring the relative humidity in the concrete, when the water condensation preventing member 300 and the sensor unit 100 is located in the concrete void in the liquid water is present, even though the water condensation preventing member 300 Water droplets are formed on the outside or the liquid water is in direct contact with each other, but the water-permeable waterproof fiber material 301 blocking the through hole does not pass through the water itself in a liquid state such as water droplets, so that the water is transferred to the sensor unit ( Moisture condensation, which is directly in contact with the outer surface of 100), does not occur. That is, the occurrence of moisture condensation in the sensor unit 100 is prevented. Therefore, by measuring the relative humidity in the concrete using the relative humidity measuring apparatus according to the present invention, it is possible to prevent the occurrence of errors when measuring the relative humidity due to moisture condensation, it is possible to accurately measure the relative humidity in the concrete will be.

3 to 5, the moisture condensation preventing member 300 is formed at both ends of the open end, but one open end is sealed by the sealant 310 together with the coating 110 of the signal line, and the opposite open end. It functions as a through hole and moisture is introduced into the sensor unit 100 through the open end, but the through hole is not limited to the open end as described above, and the shape of the moisture condensation preventing member 300 is also passed through. It is not limited to a shape.

7 and 8 are exploded perspective views and assembly perspective views corresponding to FIGS. 3 and 4, respectively, and the sensor unit 100 and the moisture provided in the moisture condensation preventing concrete relative humidity measuring apparatus according to another embodiment of the present invention. A schematic exploded perspective view (FIG. 7) and an assembled perspective view (FIG. 8) of the condensation preventing member 300. 7 and 8, the main body 303 of the moisture condensation preventing member 300 is formed of a cylindrical member as in the above-described embodiment, but is also provided on the side surface of the main body 303 having a cylindrical shape. An additional side through hole 313 is further formed, and each side through hole 313 formed on the side is also blocked by the moisture-permeable waterproof fiber material 301. Also provided with the moisture condensation preventing member 300 according to this embodiment, when the sensor unit 100 and the moisture condensation preventing member 300 is embedded in the concrete, the moisture inside the concrete is the end of the body 303 It is freely introduced into the moisture condensation preventing member 300 through the side through hole 313 formed on the side of the main body 303, as well as the through hole 302 formed in the open end portion, contacting the sensor unit 100 However, the water existing in the concrete voids, etc. do not pass through the moisture-permeable waterproof fiber material 301 blocking the open end of the body 303 and the side through hole 313. When the main body 303 of the moisture condensation preventing member 300 is made of a cylindrical member as described above, by covering the entire cylindrical member with the moisture-permeable waterproof fiber material 300, the open end of the cylindrical main body 303 The formed openings and side through holes 313 may be blocked by the moisture-permeable waterproof fiber material 300. Of course, each of the open end of the opening and the side through-hole 313 may be separately blocked with a moisture-permeable waterproof fiber material 300.

9 and 10 are exploded perspective views and assembly perspective views respectively corresponding to FIGS. 3 and 4, wherein the main body 303 has a moisture condensation preventing member 300 formed of a mesh member. A schematic exploded perspective view (FIG. 9) and an assembled perspective view (FIG. 10) of the configuration of the sensor unit 100 of the moisture condensation preventing concrete relative humidity measuring apparatus.

9 and 10, the outer surface of the main body 303 of the moisture condensation preventing member 300 is formed of a mesh member covered with the moisture-permeable waterproof fiber material 300. That is, the moisture-permeable waterproof fiber material 300 is covered on the outer surface of the main body 303 made of a mesh member having a hole (mesh), so that the sensor unit 100 may be located inside the mesh main body 303. There is a space, but the open mesh of the mesh-shaped body 303 is covered with a moisture-permeable waterproof fiber 300 to be blocked, so that moisture passes through the mesh but does not allow water to flow into the interior from the outside. It is. Since the method of using the embodiments shown in FIGS. 9 and 10 and the effects thereof are the same as those of the above-described embodiments, a repeated description thereof will be omitted.

When measuring the relative humidity in the concrete using the water condensation-prevention concrete relative humidity measuring device of the present invention having the configuration as described above, the water condensation preventing member 300 and the sensor unit 100 in the concrete void in which water exists ) Is located, although water droplets are formed on the outside of the water condensation preventing member 300 or water is in direct contact, the moisture-permeable waterproof fiber material 301 blocking the through hole does not pass through the water droplets or the water itself. , The water condensation phenomenon that the water is in direct contact with the outer surface of the sensor unit 100 does not occur. That is, the occurrence of moisture condensation in the sensor unit 100 is prevented. On the other hand, moisture, that is, water molecules, freely pass through the moisture-permeable waterproof fiber material 301 to reach the sensor unit 100 located inside the moisture condensation preventing member 300, and the sensor unit 100 measures the concrete Relative humidity is measured.

Figure 11 is a graph showing the results of measuring the relative humidity in the concrete using the relative humidity measuring apparatus according to the present invention, which is shown as a solid line in Figure 11 is the result of measuring the relative humidity in the concrete. As can be seen in Figure 11, when measuring the relative humidity in the concrete using the relative humidity measuring apparatus according to the present invention, unlike the measurement results of the prior art shown in Figure 2, relative humidity in the concrete over time A measurement result with a tendency to decrease can be obtained. As such, by measuring the relative humidity in the concrete using the relative humidity measuring apparatus according to the present invention, it is possible to prevent the occurrence of errors when measuring the relative humidity due to moisture condensation phenomenon, it is possible to accurately measure the relative humidity in the concrete The effect is made.

100:
300: moisture condensation preventing member
301: breathable waterproof fiber material

Claims (4)

A sensor unit 100 measuring relative humidity by changing electrical characteristics of the electrode when exposed to water molecules;
It comprises a body 303 surrounding the sensor unit 100 having a through hole, and a moisture-permeable waterproof fiber material 301 blocking the through hole.
The main body 303 and the water molecules are installed to surround the outside of the sensor unit 100 and have a through hole in communication with the outside to allow the water to pass through the through hole, but the water does not pass through the through hole. It comprises a moisture condensation preventing member 300 having a moisture-permeable waterproof fiber material 301 is installed to block the through-holes so as to prevent;
When the water condensation preventing member 300 and the sensor unit 100 is embedded in the concrete, the water itself existing inside the concrete is blocked by the moisture-permeable waterproof fiber material 301 and not introduced into the through hole, only the water molecule Water condensation prevention function, characterized in that through the permeable waterproof fiber material 301 is introduced into the water condensation preventing member 300 through the through hole to contact the sensor unit 100 to measure the relative humidity of the concrete Electrostatic concrete relative humidity measuring device having a.
The method of claim 1,
The main body 303 of the moisture condensation preventing member 300 is formed of a cylindrical member having one end open to form an open end;
The moisture-permeable waterproof fiber material (301) has a configuration that is closed by covering the open end of the main body 303, the electrostatic concrete relative humidity measuring device having a moisture condensation preventing function.
The method of claim 2,
A side through hole 313 is further formed on a side surface of the cylindrical body 303 constituting the moisture condensation preventing member 300;
Electrostatic concrete relative humidity measuring device having a moisture condensation preventing function, characterized in that the side through-hole 313 also has a configuration that is closed by the moisture-permeable waterproof fiber material (301).
The method of claim 1,
The main body 303 of the moisture condensation preventing member 300 is made of a network member having a space in which the sensor unit 100 can be located;
The moisture-permeable waterproof fiber material 301 is covered with the main body 303 made of the mesh member to close the mesh eye of the mesh member, characterized in that the electrostatic concrete relative humidity measurement having a moisture condensation preventing function Device.

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