KR100821212B1 - Device for measuring permeability of tunnel lining concrete - Google Patents

Abstract

A permeability test device is provided to test permeability of tunnel lining concretes with a simple method by manufacturing a tunnel lining concrete sample in the same conditions as a tunnel construction site. A permeability test device comprises a sample installation unit(10), a pressurized water supply unit(20) and a water flow metering unit(30). The sample installation unit installs lining concretes manufactured in the same conditions as a tunnel site to be tested. The pressurized water supply unit is coupled to one side of the sample installation unit in a sealed state, and applies the pressurized water to the lining concretes. The water flow metering unit collects water passing through the lining concretes of the sample installation unit and discharged to the other side of the lining concretes, and measures the flow rate.

Description

Device for measuring permeability of tunnel lining concrete

1 is a schematic assembly perspective view of a permeation test device for tunnel concrete lining according to the present invention.

Figure 2 is a schematic exploded perspective view of a permeation test device for tunnel concrete lining according to the present invention.

Figure 3 is a schematic bottom perspective view of the pressurized water supply unit provided in the tunnel concrete lining permeability test apparatus according to the present invention.

4 is a schematic cross-sectional view of the device according to the invention, seen through the A-A cross section of FIG.

FIG. 5 is a cross-sectional view corresponding to FIG. 4, illustrating a configuration of an embodiment in which a spacer is changed.

* Description of Major Reference Marks *

10: specimen mounting portion 20: pressurized water supply

30: passing water measurement unit

The present invention relates to a permeation test device for tunnel lining concrete, specifically, a tunnel for measuring permeability of lining concrete installed inside a tunnel, construction joints generated during shotcrete, tunnel lining concrete with reinforcement, etc. A permeation test device for concrete lining.

It is very important to measure the permeability of lining concrete installed inside the tunnel. In particular, in tunnel lining concrete, cracks may occur due to various causes such as dry shrinkage cracks in construction or cracks due to loads, and such cracks may cause leakage of the tunnel itself as well as deterioration of the usability of the tunnel. Will cause. Therefore, it is very important to test the permeability of the tunnel lining concrete in the same condition as the construction site.

In particular, when a crack occurs in the tunnel lining concrete, the reinforcing agent is injected into the crack. Thus, it is also very important to test the leakage of the lining concrete after the reinforcing agent injection. When the tunnel lining is constructed in the field by shotcrete, construction joints may occur, and it is very important to evaluate the degree of permeability at such construction joints.

It is an object of the present invention to provide a permeability test apparatus for tunnel lining concrete that can effectively and precisely test and measure the degree of permeability of tunnel lining concrete, which is a very important matter in tunnel construction as described above.

In particular, the present invention provides a tunnel lining concrete permeability test apparatus that can test the permeability of the tunnel lining concrete in a state in which the conditions of the construction site, that is, cracks and joints that may occur in the tunnel site in the same manner as in the actual state It aims to provide.

In order to achieve the above object, in the present invention, the test piece lining concrete is manufactured in the same condition as the lining concrete of the tunnel site to be tested is installed in the sealing state, and one side of the test piece mounting portion is coupled in a sealed state And a pressurized water supply unit for applying pressurized water to the lining concrete, and a passing water measuring unit for collecting the water discharged to the other side of the lining concrete by passing the lining concrete of the specimen installation unit and measuring the amount thereof. Provided is a permeation test device for a tunnel concrete lining.

In the permeability test device of the tunnel concrete lining, the specimen installation portion includes a side plane that wraps around and secures the periphery of the lining concrete specimen, the upper and lower surfaces of the side frame for coupling with the pressurized water supply unit Fastening flanges may be provided.

In addition, the specimen installation portion, it can be used upside down to enable the two-way permeability test of the lining concrete specimen.

In addition, the pressurized water supply unit is composed of a cover in the form of a chamber to form a space in which water can be contained, the lower end of the cover is provided with a corresponding fastening flange coupled with the fastening flange of the specimen installation portion, water supply apparatus and The hose communicating with the compressor for blowing pressurized air may have a structure connected to the cover.

In addition, the water flow rate measuring unit comprises a support, a plurality of spacers, a water meter and a hose, the upper portion of the support has a container shape so as to collect the water falling from the lining concrete through the lining concrete, the container The support is formed in the shape of the drain is formed so that the collected water can be delivered to the water meter through the hose, the plurality of spacers, the specimen is installed between the specimen and the support to facilitate the drainage of the water to facilitate the specimen It may have a structure that is installed on the support to support the installation.

Hereinafter, the structure and effects of the water permeability test apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic assembled perspective view of a permeation test apparatus according to the present invention, Figure 2 is a schematic exploded perspective view of the permeability test apparatus. 3 is an exploded perspective view of the pressurized water supply unit 20 provided in the permeation test apparatus.

As shown in Figure 1 and 2, the permeability test apparatus for tunnel concrete lining according to the present invention includes a specimen installation portion 10, the pressurized water supply unit 20, and the passage water measuring unit 30.

The specimen installation portion 10, the lining concrete specimen (C) is installed to be subjected to the permeability test, it consists of a side frame (13) wrapped around the lining concrete specimen (C) and fixed, the side frame Upper and lower surfaces of 13 are provided with fastening flanges 11 and 12 for engaging with the pressurized water supply unit 20, which will be described later. The lining concrete specimen (C) installed inside the side frame 13 of the specimen installation portion 10 is cast and manufactured under the same curing temperature and humidity conditions as the tunnel site to reproduce the actual tunnel construction site. For example, when the permeability test is performed on the construction joints of shotcrete, the lining concrete (C) will be made of shotcrete specimens with construction joints, and if the cracks are filled with reinforcing agents, the lining In the case of permeability tests on concrete, lining concrete (C) specimens will be fabricated with reinforcement injected after cracking.

After fabricating the lining concrete (C) specimen in the side frame 13 as described above, the sealing (s) is installed in the gap between the lining concrete (C) and the side frame (13) by lining concrete (C) and the side frame The leakage between the gaps between (13) is prevented to prevent the permeability test results from being inaccurate.

In addition, if necessary, it is necessary to perform a permeability test on both sides of the lining concrete (C). To this end, the specimen installation portion 10 is preferably manufactured to be used upside down. Producing the specimen mounting portion 10 in the upper and lower symmetrical shapes as in this embodiment is one method for a two-way permeability test, if the two-side permeability test is possible, the specimen installation portion 10 The shape of is not limited to the shape of this embodiment. In this case, since the upper and lower portions can be combined with the pressurized water supply unit 20 as described below, not only the permeability from the upper surface to the lower surface of the lining concrete C, but also the water permeability from the lower surface to the upper surface can be easily measured. Will be.

In general, the tunnel lining concrete is pressurized to the outside water penetrates. In order to reproduce the situation as it is in the present invention is provided with a pressurized water supply unit 20. As shown in Figure 3, the pressurized water supply unit 20 is configured in the form of a chamber that can hold water is installed to be assembled to the specimen mounting portion (10).

Specifically, the pressurized water supply unit 20 is formed of a cover 21 formed in a chamber shape to form a space in which water can be contained, and a fastening flange of the specimen installation unit 10 at the lower end of the cover 21. Corresponding fastening flanges 22 engaged with 11 and 12 are provided. Meanwhile, the pressurized water supply unit 20 includes a hose 27 communicating with the water supply device 25 and a compressor for supplying pressurized air to generate pressurized pressure in the cover 21 of the pressurized water supply unit 20. The hoses 26 communicating with the 24 are respectively connected. In the above embodiment, the water supply device 25 and the compressor 24 are provided as separate components so that the water is pressurized by the pressurized water supply unit 20, but the water supply device 25 and the compressor 24 may be configured as a single device, and the hoses 26 and 27 may also be connected to each other in the middle and connected to the pressurized water supply unit 20 in one conduit form.

The pressurized water supply unit 20 is coupled in a sealed state to one side of the specimen installation unit 10, the fastening flange 22 of the pressurized water supply unit 20 and the specimen installation unit (2) for the sealing of both members A packing member 23 made of water rubber or the like is provided between the fastening flanges 11 and 12 of 10).

The other side of the specimen installation portion 10, that is, the lower portion of the specimen installation portion 10 as shown in the drawing is installed through the water flow rate measuring unit 30 for collecting the water passing through the concrete lining (C) to measure the quantity do. In the embodiment shown in the figure, the water flow rate measuring unit 30 is configured to include a support 31, the spacer 32, the water meter 34 and the hose 35. The upper portion of the support 31 has a container shape so as to collect the water falling from the lining concrete (C) through the lining concrete (C), the water collected on the upper portion of the container support (31) hose There is a drain 33 so that it can be delivered to the water meter 34 through 35. In addition, a plurality of spacers 32 serving as a pedestal of the specimen mounting portion 10 are present on the upper portion of the support 31, and spaced apart from the bottom of the specimen mounting portion 10 and the support 31. Make it easy to drain the water. The reception measuring device 34 receives water dropped to the support 31 through the lining concrete C and measures the water permeation rate through the hose. As will be described later, the plurality of spacers 32 may be configured to support the specimen mounting portion 10 and the support 31 in a spaced apart state by directly supporting the lower surface of the lining concrete (C).

Figure 4 is a schematic cross-sectional view of the apparatus according to the present invention, seen through the cross section AA of Figure 1, with reference to Figure 4, describes the operation and effect of the permeability test device of the tunnel lining, and a test method using the same do.

In order to reproduce the tunnel construction site, the curing temperature and humidity are kept constant, the thickness of the casting is set equal to the construction site, and the lining concrete (C) is poured and cured on the specimen installation unit 10. The pressurized water supply unit 20 is coupled to the upper portion of the specimen installation unit 10 in which the lining concrete C is poured in a sealed state. The closed chamber coupling of the specimen installation unit 10 and the pressurized water supply unit 20 is coupled to the coupling member such as a bolt after facing the fastening flanges 11, 12, 22 with the packing member 23 placed thereon. By doing so.

The specimen installation part 10 coupled to the pressurized water supply part 20 is placed on the spacer 32 provided on the support 31 of the passing water amount measuring part 30.

 When water is supplied to the pressurized water supply unit 20 through the water supply device 25 and the pressing force is applied through the compressor 24, the pressurized water acts on one surface of the lining concrete C, and the water (w) Is oozing to the other side of the lining concrete (C) through the lining concrete (C) itself or the crack (f) formed therein. The water w that has leaked out is collected in the support 31 and transferred to the water flow meter 35 through the drain 33 and the hose 34 to measure the water quantity. Through this method, it is possible to test and evaluate the permeability of the lining concrete under the same conditions as the tunnel site.

On the other hand, in the present invention, when the upper and lower surfaces of the lining concrete (C) is inverted and combined with the pressurized water supply unit 20 by inverting the specimen installation unit 10, the permeability test direction of the lining concrete (C) is easily You can change it.

FIG. 5 is a cross-sectional view corresponding to FIG. 4, showing a cross-sectional view showing a configuration of an embodiment in which the position of the spacer 32 is changed. As shown in the figure, the present invention may be modified so that the spacer 32 directly supports the lining concrete (C).

In the above described the configuration and features of the present invention based on an embodiment according to the present invention, the present invention is not limited to this, and those skilled in the art to which the present invention pertains to the technical idea of the present invention. Free deformation is possible accordingly.

According to the present invention as described above, tunnel lining concrete specimens are produced in a state in which the conditions of the tunnel construction site or the tunnel use site, that is, cracks or joints that may occur in the tunnel are reproduced in the same way as in the real world, The effect of being able to test the permeability of the lining concrete is exerted.

Claims (5)

A specimen installation part 10 in which the test object lining concrete (C) manufactured under the same conditions as the lining concrete of the tunnel site to be tested is installed; A pressurized water supply unit 20 coupled to one side of the specimen installation unit 10 in a sealed state and applying pressurized water to the lining concrete C; It is configured to include a passing amount measuring unit 30 to collect the water discharged to the other side of the lining concrete (C) passing through the lining concrete (C) of the specimen installation portion 10 and measure the amount thereof Permeability test device for tunnel concrete lining characterized in that. The method of claim 1, The specimen installation portion 10 includes a side plane 13 for wrapping and fixing the periphery of the lining concrete specimen (C), Permeation test device for tunnel concrete lining, characterized in that the upper and lower surfaces of the side frame (13) is provided with a fastening flange (11, 12) for coupling with the pressurized water supply (20). The method of claim 1, The specimen installation portion 10, the permeability test apparatus for tunnel concrete lining, characterized in that the lining concrete specimen (C) can be used upside down to enable the two-way permeability test. The method according to any one of claims 1 to 3, The pressurized water supply unit 20 is composed of a cover 21 made of a chamber form to form a space in which water can be contained, The lower end of the cover 21 is provided with a corresponding fastening flange 22 is coupled to the fastening flanges (11, 12) of the specimen mounting portion 10, Permeability test apparatus for tunnel concrete lining, characterized in that the hose is in communication with the water supply device (25) and the compressor (24) for supplying the pressurized air is connected to the cover (21). The method according to any one of claims 1 to 3, The passage amount measuring unit 30 is configured to include a support 31, a plurality of spacers 32, a water meter 34 and a hose 35, The upper portion of the support 31 has a container shape to collect water falling from the lining concrete (C) through the lining concrete (C), The vessel-shaped support 31 is formed with a drain 33 to allow the collected water to be delivered to the water meter 34 through the hose 35, The plurality of spacers 32 are installed on the support body 31 so as to support the test piece installation part 10 so as to space the space between the test piece installation part 10 and the support part 31 to facilitate drainage of water. Permeability test device for tunnel concrete lining, characterized in that it has a structure.

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