KR100775637B1 - Euroform molding case with a heating member - Google Patents

Abstract

An euroform type mold having a heating structure is provided to facilitate curing of concrete even in cold winter days by embedding heating structures in a synthetic resin plate installed on a front surface of frame units, wherein the heating structures are connected to heat supplying units via heating wires and protected by metal reinforcing members. An euroform type mold having a heating structure comprises frames(110) forming a rectangular shape, angles(121) partitioning and supporting the inside of the frames into frame units(120), and a synthetic resin plate(130) installed on front surfaces of the frame units. The synthetic resin plate directly supports the load of the uncured concrete poured in the frame units. Heating structures(140) are embedded in the synthetic resin plates. The heating structures have heating wires(142) and bodies(141) for protecting the heating wires. Power supplying units(143) supply electric power to the heating wires. Metal reinforcing members(150) composed of synthetic metal alloys are installed on one sides of the heating structures for preventing damages to the heating structures. A resin layer is coated over the surface of the synthetic board onto which the concrete is poured so as to allow the surface of the synthetic board to be smooth.

Description

Euroform-type formwork with heating structure {Euroform Molding Case with a heating member}

1 is a perspective view showing a euroform type formwork according to the present invention.

2 is a cross-sectional view showing an embodiment of a flow-form die cut along the line A-A 'of FIG.

Figure 3 is an exploded perspective view showing an embodiment of the main portion of the heat generating structure and the metal reinforcing member is inserted into the plate of the type formwork according to the present invention.

Figure 4 is a cross-sectional view showing another embodiment of the euro-foam type die is coated with a surface resin layer on the plate of the euro-foam type formwork according to the present invention.

5 is a perspective view showing another embodiment of the flow-form die cut along the line B-B 'of FIG.

Figure 6 is a perspective view showing a euroform type formwork according to the prior art.

Explanation of symbols on the main parts of the drawings

 110 frame 120 frame part

121: angle 130: plate

140: heating structure 150: metal reinforcing member

160: surface resin layer

The present invention relates to a Eurofoam type formwork having a heating structure, in particular, by combining the electrically conductive heating structure to a plate made of synthetic resin to maintain a constant temperature and to prevent the breakage of the heating structure by combining a metal reinforcement in the harsh winter The present invention relates to a Eurofoam type formwork that can cure concrete even in the environment.

In constructing building structures, formwork is used to cast kneaded concrete during molding of internal and external walls and columns. Types of formwork include wood, plywood, hard fiber board, synthetic resin, aluminum panel, steel sheet, etc., and the form of the formwork is general formwork, Euroform, sliding form, vertical formwork, table formwork, tunnel formwork, There are waffle dice and traveling dice.

Conventionally, a flow-form die is described with reference to FIG. The euroform type formwork 10 is composed of a plate member 14 directly receiving a load of unhardened concrete, and a frame portion 12 supporting the plate member 14. The frame part 12 has a quadrangular shape as a whole and is disposed between the steel frame 11 and the frame 11 to maintain the rigidity of the plate 14 to reinforce the plate 14 and the frame 11. An angle 13 is formed.

Inside the frame 11, an angle 13 for dividing the load when the frame 11 and the plate 14 are subjected to a load of unhardened concrete is appropriately arranged, and the plate 14 has a frame ( 11) It is placed on the front and fastened with rivets.

Plate 14 of such a flow-form-type formwork 10 is commonly used to bond to the frame 11 made of synthetic resin. However, the synthetic resin sheet 14 has the advantages of excellent water resistance and durability compared to wood plywood, and has a long service life and ease of demoulding to be easily separated from the concrete joint surface. In the case of shrinkage expansion or hardening due to rapid weather condition or temperature change, the concrete can be easily damaged or damaged due to concrete hardening because the concrete in the form does not meet the conditions suitable for curing. There was this limited issue.

As such, the formwork 10 is not only difficult to assemble and install due to the formation of marks on the formwork 14 and the frame 11 itself or the stiffness of the formwork in a harsh environment, which is a low temperature in the winter. The production or work cost is also rising and a lot of manpower was also a problem occurs.

In order to solve the problems of the prior art, an object of the present invention is made of a plate made of a frame body and a synthetic resin supporting the plate and inserting an electrically conductive heating structure inside the plate even in a harsh environment in the cold state of winter. It is to provide a Euroform type formwork that can maintain the concrete curing conditions.

The present invention is to achieve the above object, in the form of the euro-form, the formwork used for the concrete wall is divided into the frame 110 and the inside of the frame 110 to form an overall space at an appropriate interval to support Frame body 120 is composed of an angle 120 and; It is coupled to the front surface of the frame portion 120 and the synthetic resin plate 130 directly receiving a load of uncured concrete; A heating structure (140) having a heating wire (142) in the synthetic resin plate (130) and having a body (141) for protecting the heating wire (142); A power supply device 143 for supplying electricity to the heating wire 142; It is installed on one side of the heat generating structure 140 includes a metal reinforcing member 150 to prevent breakage of the heat generating structure 140.

Furthermore, according to the present invention, the flow-form-type formwork is formed by inserting the heat generating structure 140 into the inside of the plate member 130 to form the formwork 100 integrally.

Furthermore, according to the present invention, in the euroform type die,

As the formwork used for the concrete wall and the frame portion 120 consisting of a frame (110) forming an overall quadrangular and an angle (120) for partitioning and supporting the inside of the frame 110 at appropriate intervals; It is coupled to the front surface of the frame portion 120 and the synthetic resin plate 130 directly receiving a load of uncured concrete; A heating structure (140) having a heating wire (142) in the synthetic resin plate (130) and having a body (141) for protecting the heating wire (142); A power supply device 143 for supplying electricity to the heating wire 142; A metal reinforcing member 150 installed on one side of the heat generating structure 140 to prevent breakage of the heat generating structure 140; The surface resin layer 160 is formed on the surface of the formwork 100 that becomes the concrete casting surface of the formwork 100 in order to have a smooth surface of the plate member 130.

 Accordingly, the present invention can combine the heating structure on one side of the synthetic resin plate and the metal reinforcing member on the outer side of the heating structure to perform concrete curing while maintaining a constant temperature formwork even in the harsh environmental changes of sub-zero temperature.

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

1 is a perspective view showing a euroform type formwork according to the present invention, FIG. 2 is a cross-sectional view showing an embodiment of the euroform type formwork cut along the line AA ′ of FIG. 1, FIG. 3 is a form of the euroform type formwork according to the present invention. 4 is an exploded perspective view showing an embodiment of a main portion of a heat generating structure inserted into a plate and a metal reinforcing member inserted into a plate of a type die; and FIG. 4 is an eurofoam type coated with a surface resin layer on a plate of a euroform type die according to the present invention. Figure 5 is a cross-sectional view showing another embodiment of the formwork, Figure 5 is a perspective view showing another embodiment of a flow-form type die cut along the line BB 'of FIG.

The present invention will be described with reference to Figures 1 to 3 Euroform type formwork used to cure after pouring concrete in road construction and concrete structure construction.

In addition, as shown in FIGS. 1 to 3, the euroform-type formwork 100 of the present invention is illustrated as one having an electrically conductive heating structure, but one euroform-type formwork and a plurality of euroform-type formwork adjacent to each other. Since it can be used by connecting with each other with a plug-in structure (not shown), a detailed description thereof will be omitted since it is a conventional implementable technology in this field. However, it will be described here only to a structure in which one heat generating body is installed in one euroform.

As shown in FIG. 1, the euroform-type formwork 100 according to the present invention is a formwork used for a concrete wall, and forms a quadrangular frame 110 as a whole, and the inside of the frame 110 is divided at appropriate intervals. It is made on the basis of a frame body 120 composed of an angle 121 supporting the 110 and a synthetic resin plate 130 directly coupled to the front surface of the frame body 120 to receive a load of unhardened concrete directly. .

In addition, as shown in FIG. 2, the euroform type die 100 shown in FIG. 1 is provided with an electrically conductive heating structure 140 and a metal reinforcing member 150 outside the heating structure 140.

The electrically conductive heating structure 140 is a heating cable 140 installed inside the heat generating body 141 as shown in FIG. 3, and power is supplied from an external power supply 143 to maintain temperature. Supplied.

The heating wire 142 is, for example, from the external power supply 143 so that the concrete containing moisture is hardened at a low temperature of 10 ° C. or lower without curing and has a curing temperature of at least 10 ° C. to 30 ° C. It includes copper wire, nichrome wire and iron wire which can be supplied with a certain power. Therefore, the heating wire 142 is supplied with a temperature of at least 10 ℃ it is possible to harden the concrete while maintaining the curing state.

The metal reinforcing member 150 maintains the rigidity of the plate member 130, and the body 141 and the heating wire 142 forming the heat generating structure 140 are damaged due to the impact or distortion of the plate member 130. It is composed of a reinforcing material such as a wire mesh to prevent the short circuit of the heating wire 142.

In addition, the plate 130 is formed of any other components other than the frame 110 and the angle 120, for example, the outer rim surface of the frame 110 in a flat shape, but there is a wedge hole into which the angle 120 can be fitted. Not shown) can be formed.

In addition, the frame 120 may be integrally formed using synthetic resin together with the angle 120 supporting and partitioning the inner frame 110 at predetermined intervals.

Therefore, the Eurofoam type formwork of the present invention is a constant temperature suitable for concrete curing by coupling the electrically conductive heating structure 140 to the plate made of synthetic resin as shown in detail in the cross-sectional view of Figure 2 inside the synthetic resin plate 130 By combining the metal reinforcing member 150 to maintain and prevent breakage of the heating wire 142 in the heat generating structure 140 can be hardened concrete even in the harsh environment of winter.

Figure 2 shows a cross-sectional structure cut along the line A-A shown in Figure 1 in the Euroform type formwork.

As described above, the euroform type die according to the present invention has a heat generating structure 140 and the heat generating structure 140 having a body 141 including an electrically conductive heat generating wire 142 in the synthetic resin plate 130. Coupling the metal reinforcing member 150 on the outside of the).

The heating structure 140 is a structure that generates heat by supplying a constant power so that the marks are formed on the plate 130 and the frame 110 itself of the formwork or the stiffness does not gradually deteriorate despite the severe weather conditions that are common construction sites in winter. Since it is a constant exothermic temperature, the preferred one can maintain a temperature of 10 ℃ to 30 ℃ Celsius suitable for concrete curing.

Therefore, the present invention is a flow-form die formed of a frame body 120 for supporting the plate 130, and a plate 130 made of synthetic resin, the electrically conductive heating structure (the inside of the synthetic resin plate 130) ( 140) can be inserted to cure unhardened concrete even in harsh environments, and is very easy to install and assemble, as well as to reduce the cost of manufacturing or working to prevent the loss of many manpower.

Figure 3 is an exploded perspective view showing an embodiment of the main portion of the heat generating structure and the metal reinforcing member inserted into the plate of the type formwork according to the present invention.

The heat generating structure 140 of the frame portion 120 constituting the euro-form formwork 100 of the present invention is a heating wire 142 is disposed along the grid forming a plurality of cells 150, the bonding metal reinforcement The member 150 may also be made of metal, wood, or synthetic resin, including iron or aluminum, and preferably, metal, including iron or aluminum, may be used in winter.

As illustrated in FIG. 3, the heating structure 140 is installed in the plate member 130 which is processed at regular intervals with a plurality of cells 143 for storing heat generated from the heating wire 142 in a quadrangular shape. do. The heating wire 142 has a structure in which the heating wire 142 is disposed along a lattice forming the outer periphery of each cell 143. The heating structure 150 and the heating wire 142 is also integrally formed inside the plate 130 in the forming process of the plate 130.

The heat generating structure 140 has a structure in which a plurality of rectangular cells 143 are plated on a metal plate at regular intervals, and a heating wire 142 is inserted into a lattice forming an outer edge of each cell 143. To cut to fit the dimensions of the plate member 130, the plate member 130 is coupled to the heat generating structure 140 in the forming process of the plate member 130 and is integrally formed therein.

In other words, the flow-form formwork is formed by inserting the heat generating structure 140 into the interior of the plate 130 to form the formwork 100 integrally.

The heat generating structure 140 also combines a metal reinforcing member 150 having a mesh structure as shown in FIG. The metal reinforcing member 150 is to prevent damage to the plate 130 and the heating structure 140 made of synthetic resin when the non-hardened concrete is introduced into the formwork 100, such as iron, nonferrous metals or alloys It is processed into a net structure.

Accordingly, the present invention is the plate 130 by the electrically conductive heating structure 140 or the heat generating structure 140 coupled to the outer surface of the plate 130 is formed integrally inserted into the plate 130 in the euroform type dies. It can cure concrete with excellent strength even in the severe weather change of).

Optionally, in order to protect the heat generating structure 140 installed on the synthetic resin plate 130, the euroform type formwork does not sequentially stack the heat generating structure 140 and the metal reinforcing member 150 on the plate 130, It is possible to provide a flow-foam type formwork embedded in the center of the plate 130.

Furthermore, according to the present invention, the euroform type formwork forms the formwork 100 by inserting the heat generating structure 140 into the inside of the plate 130 as shown in FIGS. 5 and 6, and then, the surface more smoothly on the formwork 100. In order to have a surface resin layer 160 may be selectively formed on the front surface of the formwork 100, that is, the surface of the formwork 100 to be a concrete pouring surface.

The surface resin layer 160 may be formed by manufacturing a formwork 100 and then coating a synthetic resin such as polyethylene (PE), polypropylene (PP), such surface resin layer 160 is separated from the concrete building It makes it possible to achieve good hardening and to achieve concrete hardening with a smoother concrete pouring surface. In addition, the surface resin layer 160 strengthens the bonding force of the plate member 130 and the frame portion 120.

The heat generating structure 140 is protected by the metal reinforcing member 150, and smoothly formed into a thin plate shape to have a smooth concrete pouring surface to the surface bonded to the plate member 130 in the forming process of the plate member 130 Combined. In addition, the metal reinforcing member 150 is hardened at the same time as the molding of the plate 130 when the synthetic resin melt for forming the plate 130 is to be a more rigid coupling structure.

Therefore, the Euroform formwork of the present invention by combining the electrically conductive heating structure to the plate made of synthetic resin as described above to maintain a constant temperature and by combining a metal reinforcing member to prevent breakage of the heating structure severe weather environment in winter It can also harden concrete.

 Embodiment of the present invention is for the purpose of illustration, those of ordinary skill in the art, modifications, changes, replacements will be possible through the technical scope illustrated in this specification.

Claims (3)

delete delete In the Euroform formwork, As the formwork used for the concrete wall and the frame portion 120 consisting of a frame (110) forming an overall quadrangular and an angle (120) for partitioning and supporting the inside of the frame 110 at appropriate intervals; It is coupled to the front surface of the frame portion 120 and the synthetic resin plate 130 directly receiving a load of uncured concrete; A heating structure (140) having a heating wire (142) in the synthetic resin plate (130) and having a body (141) for protecting the heating wire (142); A power supply device 143 for supplying electricity to the heating wire 142; A metal reinforcing member 150 installed on one side of the heat generating structure 140 to process ferrous, non-ferrous metal or alloy metal into a net structure to prevent breakage of the heat generating structure 140; Euroform-type dies, characterized in that the surface resin layer 160 is formed on the surface of the formwork 100 to be the concrete pouring surface of the formwork 100 in order to have a smooth surface of the plate material (130).

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