KR101271397B1 - Method of constructing concrete bridge foundations using heating forms heated by microwave - Google Patents

Abstract

PURPOSE: A construction method of a concrete bridge foundation using a heating mold heated by a microwave is provided to reduce the construction and energy consumptions and to install the heating mold of a module shape in a partition of an existing mold. CONSTITUTION: A construction method of a concrete bridge foundation using a heating mold heated by a microwave comprises a microwave generator(15), a wave guide, a housing(17), and a heating unit(18). The wave guide receives the microwave from the microwave generator and transfers the microwave into the housing. The housing reflects the microwave. The heating unit absorbs the reflected microwave and generates heat in order to heat the concrete surface.

Description

Method of constructing concrete bridge foundations using heating forms heated by microwave}

The present invention relates to a method for constructing a concrete bridge foundation using microwave heat generating formwork, and more particularly, in the manufacture of bridge foundation structures such as bridges and bridges, by heating the formwork by microwaves, the concrete initial hydration time is shortened. The present invention relates to a method for constructing a concrete bridge foundation that can significantly shorten the construction period of the foundation.

A form refers to a temporary structure used during the process of manufacturing a concrete structure until the concrete is cured. Since it is a temporary structure, it is common to separate and reuse concrete after curing of concrete is completed. Concrete structures can be mass-produced at the factory or at the construction site, depending on their type and needs. Whether the mass production of the concrete or the production of the site is necessary, the formwork is necessary to accurately determine the shape and dimensions of the concrete structure.

Generally, a method for manufacturing a concrete structure using a conventional mold is to form a mold according to the shape of a concrete structure to be manufactured, to insert a reinforcing assembly into the mold, and then to pour concrete after curing the concrete.

Curing time is the most important factor in the construction period of the concrete structure using this form. That is, if the curing time is long, the construction period becomes longer, which causes the construction cost to increase. In particular, when the external temperature is low, such as winter or rainy weather, curing time is longer, so the construction period is longer, thereby increasing the overall construction cost and it is also difficult to meet the delivery time due to the construction. In addition, in the case of winter, there is a problem in securing the quality of concrete due to delayed hydration reaction, so that additional additives or the like may not be performed.

When manufacturing high-rise buildings such as bridges and buildings, they use the form of a Euro form, a slip form or a climbing form that cures concrete structures from below. In this case, Curing takes a very long time, so there is a problem that the entire construction period is lengthened. In particular, when the external temperature is low, such as in winter, this problem occurs more seriously.In order to shorten the construction period, a construction method of raising the temperature by incorporating a heating wire into the formwork or heating the formwork surface by a hot air blower is used. Has come. However, since the method for raising the temperature by using the heating wire needs to install the heating wire in the formwork, complicated electric work is additionally required. Also, since the electric power must be supplied continuously to the heating wire, a great amount of electricity is consumed. In addition, in order to heat the formwork surface by the hot air fan, there is a problem in that a large amount of fuel and electricity such as oil and gas are consumed to operate the hot air fan. Therefore, due to these problems, there was a problem that the construction of bridge foundations, such as bridge piers, was stopped at all in winter.

For example, Korean Patent Registration No. 10-0748636 discloses a method for constructing a coiling portion integrally on top of a pier using a panel form member and a concrete pier provided with such a coping portion.

In addition, Korean Patent Laid-Open Publication No. 2003-0052872 proposes a steel formwork for a bridge foundation used in the laying work of a piers and a steel housing using the same when constructing a piers installed on a bridge in situ pile.

Korean Patent Registration No. 10-0625782 proposes a method of constructing a reinforced concrete bridge pier structure by using a precast concrete segment manufactured in the form of a segment of a predetermined height as a mold substitute, and a pier structure thereof.

In addition, the Republic of Korea Patent No. 10-0969992 discloses a formwork system for piers that can adjust the formwork tilt angle and height adjustment corresponding to the pier coping portion of various sizes and shapes.

In addition, Japanese Laid-Open Patent Publication No. 2006-00325292 discloses a method for constructing a building formwork, by using a plurality of formwork insulation panels and a connection bar longer than the formwork insulation panel width, so that the insulation formwork can be easily and easily constructed at low cost. I am suggesting a method.

However, the above-described prior arts are different from the object of the present invention proposed by the present inventors and the method for implementing the same in order to perform concrete construction when the outdoor air temperature such as the winter season is low.

Therefore, if a method is developed that can shorten the construction time due to concrete curing by raising the temperature of the formwork without using enormous amount of electricity, oil, gas, etc., it will be a breakthrough in concrete manufacturing technology.

The present invention has been invented to solve the above situation and problems, it is an object of the present invention to provide a method for construction of a concrete bridge foundation using a heating formwork that can be installed in the external partition (partition) of the formwork to heat the formwork. .

In general, in the case of formwork, partitions are installed outside the formwork to prevent the formwork from falling down or deformation. The present invention is to quickly construct a concrete bridge foundation by heating the formwork by installing a device capable of generating heat in such a partition. It is a feature of.

Therefore, the problem to be solved by the present invention is to provide a construction method of such a concrete bridge foundation can significantly reduce the power consumption compared to the method using a conventional heating wire, at the same time without the need for a separate heating wire wiring into the partition unit module Just supply power and you're done, so this provides a very simple way to do it.

In order to achieve the above object, the present invention

(a) a microwave generator 15;

A waveguide (16) for receiving microwaves from the microwave generator and transferring the microwaves into the housing;

A housing 17 which diffusely reflects the microwaves delivered to the waveguide; And

The heat generating unit 18 absorbs the diffused microwaves to generate heat and heats the surface of the concrete to be heated by the heat.

Installing bridge foundation dies using a heating formwork using microwaves, including;

(b) pouring concrete into the installed bridge foundation formwork;

(c) supplying power to the heating die using the microwave to generate heat;

(d) curing the poured concrete; And

(e) providing a method for constructing a concrete bridge foundation using a microwave heating formwork comprising the step of removing the heating formwork using the installed microwaves.

When explaining the advantages of the construction method of the concrete bridge foundation using the heating formwork by the microwave according to the present invention.

1. No need for complicated electric wiring work like separate heating wire work, because the module-type heating formwork including the heating part generated by microwaves is simply installed in the partition of the existing formwork. In addition, depending on the need or use can be used to directly contact the exothermic formwork according to the present invention directly without the existing formwork.

2. Also, even if you supply electricity for only a few minutes or tens of minutes, you can reach the desired temperature for a short time. After that, the temperature does not cool down easily, so you do not have to continuously supply electricity. Energy efficiency can be maximized.

3. Heat generating formwork using microwave used in the method according to the present invention can be easily changed in accordance with the form of the form can be used freely in the production of any form in which existing formwork work proceeds, such as indoor production or outdoor production. Can be.

4. Microwave heating dies used in the method according to the present invention can be applied irrespective of the external temperature is very effective in shortening the construction period, especially in winter when the concrete curing time takes a long time.

5. Using the method according to the present invention, it is possible to significantly reduce the energy consumption and significantly shorten the construction period compared to the existing method. In particular, the construction period can be significantly shortened in the situation where it is necessary to quickly build high-speed trains and expressways to attract Pyeongchang Winter Olympics in Gangwon-do, and it can be a way to proceed with construction without significant difference in summer even in winter. It can be a breakthrough.

1 is a view showing a manufacturing process of a concrete structure using a conventional general formwork.
2A to 2B are diagrams showing an example of exothermic formwork using microwaves used in the method of the present invention.
3 and 3b are plan views illustrating a method of curing concrete pier using heat generating formwork using microwaves used in the method of the present invention.
Figure 4 is a view showing the installation of heat generating formwork using microwave according to the present invention in the manufacture of bridge piers in the form of slim (slip form).
Fig. 5 is a view showing a heat generating portion in which a heat generating material is supported by a non-heating material in a heat generating form using microwaves used in the method of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

1 is a view showing a process of manufacturing a concrete structure by a conventional general steel formwork. In the existing method, a form was manufactured and installed, concrete was placed in the interior, and then the temperature was increased by natural hydration heat or by blowing hot air from the outside to promote the temperature increase, thereby curing the curing. At this time, if the external temperature is low, such as winter, there was a problem that hydration does not proceed.

2A to 2B are diagrams showing an example of exothermic formwork using microwaves used in the method of the present invention.

As shown in Figs. 2a to 2b, the exothermic formwork using microwaves used in the method of the present invention comprises a microwave generator 15; A waveguide 16 receiving microwaves from the microwave generator 15 and transferring the microwaves into the housing 17; A housing (17) for diffusely reflecting the microwaves transmitted to the waveguide (16); And a heat generating portion 18 that absorbs the diffused microwaves to generate heat and heats the surface of the concrete to be heated by the heat.

In the heat generating form using microwave used in the method of the present invention, one of the heat generating portion 18 is attached to the surface or formwork of the target concrete to heat the surface of the target concrete and the other side is connected to the housing 17 It is composed.

3A and 3B are diagrams schematically showing a process of curing a piers using a heating die using microwaves used in the method of the present invention. The shape of the heat generating formwork can be variously modified according to the size, shape, use, etc. of the pier to be manufactured, and the number of waveguides can also be used including one or more. In addition, the heating formwork may be attached to only one side of the desired piers or may be attached to two or more sides.

In the microwave heat generating form used in the method of the present invention, the waveguide 16 is preferably connected to the outside of the housing 17 and the heat generating portion 18 is modularized in the form of mounted inside the housing. . In this case, the module 100 may further include an outer case 20 having a box shape to protect the internal device. In actual construction, the module-type heat formwork may be attached to the steel formwork as it is in the field, or in some cases, the module may be used as it is without the steel formwork.

In the heat generating form using microwaves used in the method of the present invention, the material of the waveguide 16 is preferably made of steel, aluminum, or copper, but is not necessarily limited thereto. Can be used without

In the heat generating form using microwave used in the method of the present invention, the housing 17 has a tapered structure in which the width of the portion connected to the heat generating portion is wider than the width of the portion connected to the waveguide 16. It is desirable to have. In this case, the diffuse reflection of the microwave occurs smoothly and the microwaves can be irradiated to the heat generating unit 18 as a whole, thereby generating heat evenly. However, it is not necessary to have a tapered structure, but a rectangular housing is also possible (see the right view of FIGS. 2A and 2B).

In the heating die using microwaves used in the method of the present invention, the microwave generator 15 includes a high voltage transformer and a magnetron (MGT), and further includes a high voltage capacitor and a high voltage diode. Can be. The high voltage transformer converts the commercial AC voltage input from the outside into a high voltage suitable for high frequency generation (for example, about 4 kilovolts [kV]) and applies it to the magnetron. The magnetron generates high frequency oscillation by the high voltage applied from the high voltage transformer. To generate microwaves.

The microwave frequency should use ISM (Industrial, Scientific and Medical) frequency, but it is preferable to use the 2,450 MHz band mainly to take advantage of the smoothness of supply and demand, but the present invention is not limited thereto. Microwaves having a frequency in the 300 GHz region can be variously used.

When the magnetron is driven, a cooling fan is installed around the magnetron to cool the high heat generated from the magnetron, the cooling fan is connected to the fan motor, and when a commercial AC voltage is applied to the fan motor, the fan motor is operated. The cooling fan is driven by the fan motor to blow external cold air to the magnetron, thereby cooling the high heat generated in the magnetron. In some cases, however, a cooling fan may be excluded when an individual cooling device is not required, such as when using another device for cooling the magnetron or when exposed to the outside.

The microwave generator 15 is fixed to one of the side, top and bottom surfaces of one end of the waveguide 16 by a fixing bracket, and one end of the waveguide 15 by a connecting tube protruding from the microwave generator 15. By being communicatively coupled to, the microwave generated from the microwave generator 15 can be delivered to one end of the waveguide 16. It is also possible to connect the waveguide long so that the microwaves are evenly transmitted throughout the housing.

In the microwave heat generating form used in the method of the present invention, the waveguide 16 may be exposed to the outside of the housing 17 or may be embedded inside the housing. When exposed to the outside, the microwave generator 15 may be installed on one side, the upper surface, or the lower surface of the exposed waveguide 16. In addition, when embedded in the inside of the housing 17 may not be exposed to the outside. At this time, it is preferable that the front end of the embedded waveguide 16 has a tapered structure in order to smooth the diffuse reflection of the microwaves. The cross-sectional shape of the waveguide 16 may be any shape such as a rectangular shape, a circular shape or a triangular shape, and the like is not particularly limited but may be selected and used according to the use or need.

In the heat generating form using microwaves used in the method of the present invention, the heat insulating portion 19 may be further included on one side opposite to the heating target of the heat generating portion. The material of the heat insulating portion 19 is a material that can pass as it is without absorbing microwaves and is heat resistant, and specific examples thereof include glass wool, concrete, gypsum, heat resistant plastic, heat resistant ceramic, heat resistant paper or stone powder. Etc. may be used, but the present invention is not limited thereto.

In the heat generating form using microwaves used in the method of the present invention, the heat generating portion 18 is configured in a form in which the non-heating material 31 supports the heat generating material 30 and each heat generating material is separated from each other. In this case, the non-heat generating material may be glass wool, concrete, gypsum, heat-resistant plastic, heat-resistant ceramic, heat-resistant paper or stone powder, but is not limited thereto. It is not. In addition, an upper surface of the heat generating unit 18 may further include a panel. In this case, the material of the panel is preferably a material capable of dispersing the generated heat, and specific examples may include steel, aluminum, or copper, but are not limited thereto.

In the heat generating form using microwaves used in the method of the present invention, the heat generating unit 18 uses a ceramic material that is generated by microwaves of 300 MHz to 300 GHz. For such a material, the present inventors may use the material proposed through a separate Korean patent application (10-2011-0032313) as it is. The contents described in the Republic of Korea Patent Application 10-2011-0032313 is to be interpreted to be included in the present invention by reference. The heating material described in the Republic of Korea Patent Application 10-2011-0032313 refers to a metal oxide containing composition containing at least 4% by weight of one or more iron oxide compounds of Fe ₂ O ₃ , Fe ₃ O ₄ and FeO, such materials are 300MHz ~ 300GHz The microwave can be used to generate heat up to high temperature in a short time, so it is suitable for use in the exothermic formwork according to the present invention. In addition, in the present invention, in addition to the heating material described in the Korean Patent Application No. 10-2011-0032313, water, oil, carbon, SiC, etc. may be included in the heating unit. In addition, it is to be interpreted that the material of the heat generating part used in the present invention includes any material capable of generating heat by microwaves such as water, oil, carbon, SiC, or the like as used alone or in combination. In the present invention, such a material that can be generated by microwaves is called MIP (microwave-irradiated pyrogen).

The construction method of the concrete bridge foundation using the heating formwork by the microwave according to the present invention, when used in the foundation of the bridge, such as bridges that require early curing of concrete, it is possible to hydrate enough even in the low outside temperature, such as winter bridge bridges As the construction of the foundations becomes possible, it is expected to drastically reduce the air and thus help to significantly reduce the overall construction cost.

As described above, the present invention has been described in detail with reference to the drawings, but the present invention can be variously modified and changed by those skilled in the art and such variations and modifications should be construed as belonging to the protection scope of the present invention. something to do.

15: Microwave generator 16: Waveguide
17 housing 18 heating portion
19: heat insulation 20: outer case
30: heating material 31: non-heating material
100: formwork module

Claims (16)

(a) a microwave generator 15;
A waveguide (16) for receiving microwaves from the microwave generator and transferring the microwaves into the housing;
A housing 17 which diffusely reflects the microwaves delivered to the waveguide; And
The heat generating unit 18 absorbs the diffused microwaves to generate heat and heats the surface of the concrete to be heated by the heat.
It is configured to include, the waveguide 16 is connected to the outside of the housing 17 and the heat generating portion 18 is installed mounted inside the housing 17, one of the heat generating portion 18 is the target The surface of the concrete is heated and the other is configured to be modularized in a form mounted inside the housing, wherein the heating portion is a metal oxide containing composition containing at least 4% by weight of the iron oxide compound of at least one of Fe ₂ O ₃ , Fe ₃ O ₄ and FeO Installing heat generating formwork generated by microwaves in a partition of steel formwork for bridge foundation construction at a construction site or directly as a formwork for bridge foundation construction;
(b) pouring concrete into the installed formwork;
(c) generating heat by supplying power to a heat generating form heat generated by the microwaves;
(d) curing the poured concrete; And
(e) removing the exothermic formwork generated by the installed microwaves
Method of construction of concrete bridge foundation using a heating formwork generated by microwaves including a.
delete delete The method according to claim 1, wherein the waveguide (16) is made of steel, aluminum, or copper material.
The method of claim 1, wherein the housing 17 has a tapered structure characterized in that the width of the portion connected to the heat generating portion 18 than the width of the portion connected to the waveguide 16 Construction method of concrete bridge foundation using exothermic formwork generated by heating.
The method of claim 1, wherein the microwave generator (15) comprises a high voltage transformer (magnetron) and a transformer (magnetron).
The method of claim 6, wherein a cooling fan is installed around the magnetron, the cooling fan is connected to the fan motor, and when a commercial AC voltage is applied to the fan motor from outside, the cooling fan is driven by the fan motor while the fan motor is operated. A method of constructing a concrete bridge foundation using exothermic formwork generated by microwaves, wherein the cold air is blown to the magnetron to cool the high heat generated from the magnetron.
delete delete The method according to claim 1, wherein the cross-sectional shape of the waveguide (16) is a rectangular shape, a circular shape or a triangular shape.
The method for constructing a concrete bridge foundation using heating formwork generated by microwaves according to claim 1, wherein one side of the heat generating unit (18) opposite to the heating target further includes a heat insulating unit (19).
The method of claim 11, wherein the material of the heat insulating portion 19 is glass wool, concrete, gypsum, heat-resistant plastic, heat-resistant ceramic, heat-resistant paper or stone using heat generating form heat generated by microwaves. Method of construction of concrete bridge foundations.
The method of claim 1, wherein the heat generating unit 18 is characterized in that the non-heating material 31 is supported by the heat generating material 30 is formed in a form that each of the heat generating material 30 is separated from each other Construction method of concrete bridge foundation using exothermic formwork generated by microwaves.
The method of claim 13, wherein the non-heat generating material 31 is glass wool (glass wool), concrete, gypsum, heat-resistant plastic, heat-resistant ceramic, heat-resistant paper or stone concrete concrete using heat generating form heat generated by microwaves. Method of construction of bridge foundations.
The method according to claim 1, wherein the upper surface of the heat generating portion (18) further comprises a panel (panel), characterized in that the construction method of the concrete bridge foundations using heat generating form heat generated by the microwave.
The method of claim 15, wherein the material of the panel is steel, aluminum or copper.

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