KR20090008991A - Device for curing and heating for concrete lining form of tunnel - Google Patents

Abstract

A form insulating and curing apparatus of a tunnel lining form is provided to shorten the curing time of placed concrete and to improve the quality of the cured concrete lining when placing a concrete lining of a tunnel in the winter time using a planar heating element. A form insulating and curing apparatus of a tunnel lining form includes a tunnel lining form formed to have the cross sectional shape of a tunnel and to stand the load of placed lining concrete, and a structure supporting the form, wherein a heating device is provided to the rear of the form to supply heat to the lining concrete placed on the form. The heating device comprises a planar heating element(400), a temperature sensor(430) installed to sense the temperature generated in the planar heating element, and a controller(440) receiving the signal sensed by the temperature sensor and supplying power to the planar heating element or cutting off the power supply.

Description

Forming insulation curing device of tunnel lining foam {DEVICE FOR CURING AND HEATING FOR CONCRETE LINING FORM OF TUNNEL}

The present invention relates to a formwork curing curing device of the tunnel lining foam, more specifically, tunnel lining that can improve the quality of the cured concrete lining while reducing the curing time of the concrete poured during the concrete lining of the tunnel in winter It relates to the form heat insulating device of the foam.

In general, the tunnel construction process consists of drilling through rock blasting, support re-installation using shotcrete and rock bolts, and lining casting. Lining is the last concrete structure to be installed after tunnel excavation to smoothly finish tunnel walls and install equipment.

Tunnel lining is a concrete structure, so in order to pour it, it is necessary to put the formwork on the tunnel wall and pour concrete before curing. The formwork used for pouring lining concrete is called lining foam.

Tunnel lining foam 100 that is commonly used is composed of a formwork 200 and a structure 300 for supporting the formwork 200 as shown in FIG. The formwork 200 is formed to have a cross-sectional shape of the tunnel in a thin steel plate (5 ~ 10mm thickness), the inside of the "c" shaped steel and "H" shaped steel to support the formwork 200 It is made of a structure supported by the structure 300 made up.

When lining concrete is laid during the tunnel construction, the formwork should be kept installed until the concrete is hardened to some extent. Therefore, mold holding time is considerably needed, which hinders the process of public works. Therefore, it is necessary to reduce the time that the concrete hardens (curing time). To do this, the temperature of the concrete must be kept constant.

In winter, however, atmospheric temperatures drop below zero or below, resulting in longer curing times and lower quality. Therefore, in winter, a thermal curing device is needed to allow concrete to be cured while maintaining a constant temperature. In general, the thermal curing method in the construction of tunnel lining is mainly used to surround the lining section with a non-woven fabric and to increase the temperature with a boiler or to supply steam.

However, this method requires a lot of time and manpower and energy consumption to enclose some sections of the tunnel. In order to solve this problem, attempts have been made to install a heating element on the lining foam itself to insulate it. Among them, as patent registration 0585284, it is proposed to install hot water pipes under the lining dies by receiving hot water from a boiler and to surround the surroundings with heat insulating material to insulate curing. However, the patent has a problem that it is difficult to install the hot water pipe and the heat is not uniformly transferred to the formwork, and the warming of the lining formwork is difficult because the temperature is changed as the hot water passes through the pipe.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to reduce the curing time of the concrete poured during the concrete lining of the tunnel in the winter using a planar heating element of the cured concrete lining It is to provide a formwork thermal curing device of the tunnel lining foam that can improve the quality.

Formwork thermal curing device of the tunnel lining foam proposed by the present invention,

In placing concrete lining inside a tunnel excavated in winter,

Tunnel lining formwork formed to have a cross-sectional shape of the tunnel to withstand the load of the lining concrete poured, and a structure for supporting the formwork, the rear of the formwork provides heat to the lining concrete placed on the formwork Provides a formwork thermal curing device of the tunnel lining foam provided with a thermostat.

The thermostat is made of a planar heating element that generates heat by receiving power. The thermostat includes a surface heating element and a temperature sensing sensor for sensing a temperature generated by the surface heating element, and a temperature signal detected by the temperature sensing sensor to receive a temperature signal and cut off the supply of power when the surface heating element is above a predetermined temperature. When the temperature is below a predetermined temperature, the power supply is made of a control unit to maintain a constant temperature of the planar heating element.

Forming insulation curing device of the tunnel lining foam according to the present invention, while maintaining the temperature of the concrete lining because it can maintain a uniform temperature over the entire area of the concrete lining poured during the winter tunnel construction without temperature change or temperature concentration The curing time of the poured concrete can be shortened.

In addition, the thermal curing apparatus of the present invention does not need to seal the entire lining section with a nonwoven fabric as compared with the conventional steam curing.

In addition, the thermal curing apparatus of the present invention can save energy compared to the conventional steam curing or hot water pipe, and can prevent pollution from occurring in the tunnel as compared to using an oil boiler.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail.

Figure 2 is an enlarged view of the formwork portion of the lining foam installed formwork thermal curing device of the tunnel lining foam according to the present invention, Figure 3 and Figure 4 is a cross-sectional view of the formwork thermal curing device of the tunnel lining foam according to the present invention The structure is shown.

As shown, the formwork curing curing apparatus of the tunnel lining foam of the present invention, when a tunnel of a predetermined length is excavated during the tunnel construction, install the tunnel lining foam 100 inside the excavated tunnel and pour concrete to the outside of the curing By constructing the concrete lining which is the inner wall of the tunnel, the apparatus of the present invention can be used in the winter during such work.

The tunnel lining foam 100 is composed of a formwork 200 made of a panel, and a structure 300 for supporting the formwork 200 and maintaining its form. The formwork 200 is formed to have a cross-sectional shape of the tunnel while being made of a steel plate and the like that can withstand the load of the poured concrete, the structure 300 is a "c" shaped steel and "" to support the formwork 200. Steel "such as H" section steel and the like.

The formwork 200 is installed by a method of fixing and supporting the metal panel of about 5 ~ 10mm thickness having a constant size to the structure 300 to have a cross-sectional shape of the tunnel.

A space is formed between the structures 300 on the back surface of the formwork 200, and the space is provided with a thermostat that provides heat to the lining concrete placed on the formwork 200.

The thermal insulation device is provided to maintain the good quality of the concrete lining after curing while building the concrete lining in winter, the curing is not affected by the temperature in the curing process to accelerate the curing, in the present invention, It consists of a planar heating element that generates heat by being supplied.

This planar heating element converts electrical energy into thermal energy through the heating part of a resistor having electrical resistance. Carbon and other heating elements are coated on the surface and heat is generated on the entire surface by making electrode bodies such as silver, copper, and aluminum. As it is intended to be used in various ways for heating the building, in the present invention can be applied to such a conventional planar heating element can be applied to the detailed description thereof will be omitted.

The planar heating element is light and has a good portability and evenly dissipates heat, and has an advantage of being easily used in the walls or ceiling of the tunnel.

The planar heating element 400 may be used by itself, and as shown in FIG. 3, one side of the planar heating element 400 is provided with a protective material 410 to protect the planar heating element, and the opposite side of the planar heating element 400. It may be used with 420 provided.

Such a thermostat can be manufactured in advance with a unit member having a certain size, and then the installation of the thermostat can be made faster and easier.

Installation of such a thermostat, install the planar heating element 400 on the back of the formwork 200, or to prevent the damage of the planar heating element 400 on the back of the formwork 200, the protective material 410 that can transfer heat well After installing the first, and then installing the planar heating element 400 in the longitudinal direction of the lining, and then install the heat insulating material 420 on the other side of the planar heating element 400 again. Before the installation of the heat insulator 420, other protective material may be installed and the heat insulator may be installed.

As such, when the thermostat is installed on the back of the formwork 200 in which the concrete lining is poured, the power line is connected to the planar heating element 400 and the power is applied to each planar heating element 400 to generate heat. The heat is transferred to the formwork 200 to exert a thermal effect on the poured concrete.

In addition, the thermostat installed as described above may be configured to maintain a predetermined temperature range. For this purpose, the surface heating element 400 is provided with a temperature sensor 430, and the signal detected by the temperature sensor 430 is transmitted. The control unit 440 for receiving or supplying power to the planar heating element 400 may be additionally configured.

The position of the temperature sensor 430 may be installed at a predetermined interval, such as the top end, the side of the upper portion of the lining foam in which the planar heating element 400 is installed, and the temperature sensing of the temperature sensor 430 in the controller 440. Temperature control unit that can adjust the range may be further provided.

Installation and use of such a thermostat is installed after the tunnel of a predetermined length, the tunnel lining foam 100 in the tunnel. The thermostat describes a thermostat provided with a temperature sensor and a controller as an example.

Then, the thermostat of the present invention is installed on the back of the formwork 200, the lining concrete is poured between the excavated tunnel and the formwork 200, and then the temperature is set in the control unit 440 and the surface heating element ( While the power is applied to 400, the heat is transferred to the formwork 200 by the heat generation of the planar heating element 400, thereby exerting a warming effect while the poured lining concrete is cured.

At this time, the temperature of the surface heating element 400 is detected by the temperature sensor 430 and transmitted to the control unit 440, if the temperature signal transmitted from the temperature sensor 430 is above the set temperature to control the controller 440. When the power supply to the planar heating element 400 is cut off and the temperature signal transmitted from the temperature sensor 430 is less than the set temperature, the process of applying power to the planar heating element 400 under the control of the controller 440 is performed. Will be repeated.

Therefore, the poured lining concrete will maintain a constant temperature range during curing.

When the lining concrete is cured, the control unit 440 may cut off the power supplied to the planar heating element 400.

1 is a front view for explaining a tunnel lining foam.

Figure 2 is an enlarged view of the formwork portion of the lining foam installed formwork thermal curing device of the tunnel lining foam according to the present invention.

Figure 3 is an enlarged cross-sectional view of the formwork thermal curing device of the tunnel lining foam according to the present invention.

Figure 4 is a view for explaining the structure of the formwork thermal curing device of the tunnel lining foam according to the present invention.

Claims (4)

In placing concrete lining inside a tunnel excavated in winter, Tunnel lining formwork formed to have a cross-sectional shape of the tunnel to withstand the load of the lining concrete poured, and a structure for supporting the formwork, the rear of the formwork provides heat to the lining concrete placed on the formwork Formwork thermal curing device of the tunnel lining foam provided with a thermostat. The method according to claim 1, The insulation device is a formwork thermal curing device of a tunnel lining foam consisting of a planar heating element that generates heat by receiving power. The method according to claim 2, One side of the planar heating element is provided with a protective material, the reverse side of the formwork heat insulating curing device of the tunnel lining foam provided. In placing concrete lining inside a tunnel excavated in winter, Tunnel lining formwork formed to have a cross-sectional shape of the tunnel to withstand the load of the lining concrete poured, and a structure for supporting the formwork, the rear of the formwork provides heat to the lining concrete placed on the formwork A thermostat is provided, The thermostat includes a surface heating element and a temperature sensing sensor for sensing a temperature generated by the surface heating element, and a temperature signal detected by the temperature sensing sensor to receive a temperature signal and cut off the supply of power when the surface heating element is above a predetermined temperature. Formwork thermal curing device of the tunnel lining foam consisting of a control unit for supplying power when the temperature is below a predetermined temperature to maintain a constant temperature.

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