KR20000015468A - Insulating precast concrete panel for construction - Google Patents

Abstract

PURPOSE: The precast concrete panel is provided to simply construct with assembling for a beginner an assembly type structure, to reduce the construction cost and a term of works, to improve the insulation soundproof property and moisture proof effect of a panel. CONSTITUTION: The precast concrete panel(10) is composed of: the 1st and the 2nd meshes(14)(16) having the shape of cubic frame by many steel lines(12) being attached horizontally/vertically by spot/electric welding; an insulation(18) established at the center of the 1st and the 2nd meshes(14)(16); a concrete mortar(20) for burying the 1st and the 2nd meshes(14)(16) by being plastered in a specific thickness at both faces of the insulation(18). Plural reinforcing lines(22) are attached with welding for reinforcing the strength of the meshes to previously prevent the sealing or bending of the meshes by the load of the insulation(18) at the 1st/the 2nd meshes(14)(16). The deliver hanging unit(24) is installed to deliver a panel(10) easily in at least one mesh between the 1st and the 2nd meshes(14)(16).

Description

Building Insulation Precast Concrete Panels

The present invention relates to a heat-insulating precast concrete panel for building, and more particularly, by manufacturing a panel by plastering concrete mortar on the outer surface of the three-dimensional frame in which the insulation is installed, the air shortening and construction cost during the construction of the prefabricated building The present invention relates to a building insulation precast concrete panel that can reduce the weight, and in particular, increase the insulation sound insulation and moisture resistance of the panel and reduce the weight.

In general, buildings such as houses, factories, and shopping malls are constructed of masonry and brick reinforced concrete that surrounds the reinforcement.

The masonry constructs a number of pillars at a certain height from the floor of the building, and piles bricks between the pillars first, and then stacks the bricks with a separate insulation material such as polystyrene or styropool attached to the inner wall of the pillars. After that, the inner wall is finished with concrete mortar and the outer wall is finished with waterproof mortar to construct the outer wall of the building.

Reinforced concrete type weaves a plurality of reinforcing bars of predetermined thickness, and then installs formwork upright in both directions so that the reinforcing bar is placed inside of it, and pours concrete mixed with cement, sand and gravel in a certain ratio so that the reinforcing bar is embedded in the formwork. After removing the formwork in the cured state, it was finished by plastering mortar on the inner wall.

However, the masonry and reinforced concrete type as described above not only decreases the air in the inner wall and outer wall during construction of the building, but also lowers the thermal insulation soundproofing and moistureproof effect, and increases the number of construction workers and the construction cost accordingly, in particular, such as formwork. The mold must be provided separately and there is a problem that requires a high degree of skill.

The present invention is to solve the above problems, an object of the present invention is to use a panel with a prefabricated concrete mortar on the outside surface of the prefabricated building so that the three-dimensional skeleton is embedded, the prefabricated building simply It is possible to assemble, as well as to shorten the air and the construction cost is reduced, and to provide insulation heat precast concrete panels for building that can improve the insulation and soundproofing effect of the panel and light weight.

1 is a perspective view showing a first embodiment of a building insulation precast concrete panel according to the present invention,

Figure 2a is a cross-sectional view A-A of the insulating precast concrete panel shown in Figure 1,

2B is a cross-sectional view taken along line B-B of FIG. 1;

3 is a perspective view showing a construction state of the precast concrete panel according to the present invention,

Figure 4 is a perspective view showing a second embodiment of the building insulation precast concrete panel according to the present invention,

5 is a perspective view showing a state in which the insulation precast concrete panel of FIG. 4 is constructed,

Figure 6 is a perspective view showing a third embodiment of the building insulation precast concrete panel according to the present invention,

7 is a perspective view showing a fourth embodiment of the building insulation precast concrete panel according to the present invention;

FIG. 8 is a perspective view illustrating a manufacturing process of the insulating precast concrete panel of FIG. 7.

Explanation of symbols on the main parts of the drawings

2: channel for column 4: channel

6: support 10,30,50: panel

12,44,52 steel wire 14,34,54 first mesh

16,36,56: second mesh 18,32,60: insulation

20,40,62: Concrete mortar 22,38,58: Reinforcement line

24, 42: carrying hanger 34a, 36a: extension line

46: c-Chanel 46a: Bolting Ball

64: exterior member 66: formwork

68: sand

A feature of the present invention for achieving the above object, in the building insulation precast concrete panel used as a wall of the prefabricated building, the panel is a plurality of steel wires are fused in the horizontal and vertical direction having a three-dimensional skeleton And a second mesh; A plurality of reinforcing wires, one end of which is inclinedly fused to the first and second meshes to reinforce the tensile and bending strength of the steel wire; A heat insulator through which a portion of the reinforcing wires penetrates and is installed in the center of the first and second meshes; It is achieved by being made of concrete mortar for embedding the first and second meshes by plastering on both sides of the heat insulating material to a predetermined thickness.

In another aspect, the present invention provides a building insulation precast concrete panel used as a wall of a prefabricated building, the panel comprising: first and second meshes having a three-dimensional frame in which a plurality of steel wires are fused in a horizontal and vertical direction; A plurality of reinforcing wires, one end of which is inclinedly fused to the first and second meshes to reinforce the tensile and bending strength of the steel wire; A heat insulator through which a portion of the reinforcing wires penetrates and is installed in the center of the first and second meshes; Concrete mortar for plastering the first and second meshes with a predetermined thickness on both sides of the heat insulating material; It is achieved by consisting of an exterior member fixed to one surface of the concrete mortar.

Another feature of the present invention is a method of manufacturing a building insulation precast concrete panel, comprising the steps of: manufacturing a formwork having the same size as the panel; A filling step of filling sand into the mold at a predetermined height; Placing a plurality of exterior members on the sand and forcing a portion of the exterior member to be buried in the sand; Contacting one surface of the exterior member with at least one mesh surface of the first and second meshes; An injection step of injecting concrete mortar into the formwork after the contacting step; The injection step is achieved by a panel produced by the dismantling step of dismantling the formwork after solidifying the concrete mortar.

Hereinafter, preferred embodiments of the building insulation precast concrete panel according to the present invention will be described in detail based on the accompanying drawings.

1 and 2a, 2b is a view showing a first embodiment of a heat insulating precast concrete panel according to the present invention, a precast concrete panel (hereinafter referred to as a PC panel) 10 a plurality of steel wires 12 It is installed in the center of the first and second meshes 14 and 16 and the first and second meshes 14 and 16, which are fused by horizontal and longitudinal directions and welded by electric welding to have a three-dimensional frame. The heat insulating material 18 to be used, and the concrete mortar 20 for plastering the first and second meshes 14 and 16 to a predetermined thickness on both sides of the heat insulating material 18.

The first and second meshes 14 and 16 are welded with a plurality of reinforcing wires 22 for reinforcing the strength of the mesh so as to prevent the meshes from being stretched or bent due to the load of the heat insulating material 18. Is fused. In addition, at least one mesh of the first and second meshes 14 and 16 is further provided with a carrying hanger 24 to easily carry the panel 10.

Here, the steel wires 12 are spaced apart from each other at regular intervals (about 5cm) to form a square, concrete mortar 20 is preferably mixed with cement and sand in a ratio of 1: 3, to maintain the viscosity, The carrying hanger 24 may be fused to face the first and second meshes 14 and 16, respectively, to hold the center of the panel 10.

The reinforcement lines 22 are respectively provided at one end of the first and second meshes 14 and 16 so as to prevent the shape change of the mesh by the heat insulating material 18 and to maintain the gap with respect to the heat insulating material 18. Fusion is inclined at an angle.

The working effect of the building insulation PC panel of the present invention configured as described above will be described in detail with reference to FIG.

After placing the plurality of steel wires 12 in the transverse and longitudinal directions, and then welding the welded portions that intersect with each other to produce a mesh, the two meshes, that is, the first and second meshes (14) (16) is a solid frame Space it at predetermined intervals as much as possible.

Thereafter, heat insulating materials 18 such as schiropool are embedded in the center portions of the first and second meshes 14 and 16. At this time, the first and second meshes 14 and 16 are tensioned by the first and second meshes 14 and 16 to the grid steel wire 12 in a state in which the first and second meshes 14 and 16 are spaced a predetermined distance from the surface of the heat insulating material 18. And one end of the reinforcing wire 22 for preventing the bending.

For example, as shown in FIG. 1, one end of the reinforcement line 22 is fused to the A1 section of the first mesh 14, and the other end is fused to B2-1 of the second mesh 16. And, as described above, the remaining reinforcing lines 22 also intersect with each other, as described above, A2 of the first mesh 14 and B1-1 and B1.A2-1, B2.A1-1 of the second mesh 16, ... A panel 10 is manufactured by welding the concrete mortar 20 to the both sides of the heat insulating material 18 by using a remithal spray method.

When the panel manufactured as described above is used as a wall of a prefabricated building, the hook (not shown) of the transport device is hooked on the transport hook part 24 of the first mesh 14 to lift the entire panel 10 and then the panel ( One side of 10) is in close contact with the rectangular column channel (2) used as the pillar of the building, and the bottom surface is inserted into the U-shaped channel (4) bolted to the floor.

In addition, a part of the outer wall and the inner wall of the panel 10 in close contact with one surface of the column channel 2 is combined with the support 6 so as to firmly support the panel 10, and then completes the first mesh ( 14) to complete the construction of the wall material by removing the upper portion of the carrier hanger 24 fused.

On the other hand, Figure 4 is a view showing a second embodiment of a building insulation PC panel according to the present invention, the panel 30 is the first and second mesh 34 spaced at a predetermined distance on both sides of the heat insulating material (32) A plurality of reinforcing wires 38 fused to the first and second meshes 34 and 36 and the first and second coupling portions extending to the first and second meshes 34 and 36; , It is composed of a concrete mortar 40 is plastered to include the first and second coupling portion on both sides of the heat insulating material (32).

Here, the reinforcement line 38 is sloping inclined so as to reinforce the strength of the first and second meshes 34 and 36 as described above, and any of the first and second meshes 34 and 36 may be used. The carrying hook portion 42 is fused to one mesh, and the first and second coupling portions are used to couple the panel 30 to the pillar channel 2 with a bolt and extend in a diagonal direction.

The first and second coupling portions have one surface of the extension lines 34a, 36a and I and the extension lines 34a and 36a extending to the transverse steel wires 44 of the first and second meshes 34 and 36. It is made of a c-chanel 46 to be fused in, a plurality of bolting holes (46a) is formed in the upper, middle and lower portion of the c-channel 46 to pass through the bolt.

When the heat-insulating PC panel according to the second embodiment of the present invention manufactured as described above is used as a wall material of a prefabricated building, as described above, the hook of the transport device is hooked to the transport hook portion 42 fused to the first mesh 34. The whole panel 30 is lifted up, and then any one of the first or second coupling parts is closely attached to the pillar channel 2, and the bottom surface of the panel 30 is inserted into the U-shaped channel 4.

That is, the center of the through-hole (2a) and the bolting hole (46a) formed in the manufactured "b" shaped column channel (2) and then tightened with a bowl to complete the construction of the panel 30. At this time, the hole formed in the concrete mortar 40 is possible by inserting a relatively long wood in the bolting hole 46a of the c-channel 46 during the manufacture of the panel 30.

6 is a view showing a third embodiment of a building insulation PC panel according to the present invention, the panel 30 is the first and second meshes 34 and 36 spaced at a predetermined distance on both sides of the heat insulating material (32). The extension line 36a extends with respect to the steel wire 44 in the transverse direction on both sides of at least one mesh, and one side and the other side of the extension line 36a are fused to the inner surface of the c-channel 46. The first and second meshes 34 and 36 and c-channel 46 are composed of concrete mortar 40 which is embedded to be embedded.

Such a panel is constructed in the same manner as described above to be used as a wall of the prefabricated building.

Figure 7 is a view showing a fourth embodiment of the building insulation PC panel according to the present invention, the panel 50 is a plurality of steel wire 52 is fused in the horizontal and vertical direction first and second having a three-dimensional skeleton A plurality of reinforcing wires 58 inclined to the meshes 54 and 56 and the first and second meshes 54 and 56 and the center portions of the first and second meshes 54 and 56. Concrete mortar 62 for plastering the first and second meshes 54 and 56 by plastering on both sides of the heat insulating material 60 and the heat insulating material 60, and an exterior member fixed to one surface of the concrete mortar 62. 64).

Here, the exterior member 64 may use all other members such as natural stone, artificial stone and wood, synthetic resin processing the shape and pattern to improve the beauty of the outer wall of the panel 50.

Such a panel is manufactured by the manufacturing method as shown in FIG. That is, after forming the same form 66 having the same size as the panel 50 used as the wall material of the prefabricated building, the form 66 is filled with sand (68) or clay to a predetermined height.

Thereafter, a plurality of exterior members 64 are placed on the sand 68 and then pressurized so that a part of the exterior members 64 is buried inside the sand 68. FIG. 1, FIG. 4 and 6, when the panel 50 before laying the concrete mortar 62 is placed, the mesh of any one of the first mesh 54 or the second mesh 56 constituting the panel 50 The exterior member 64 is in contact.

Then, when the concrete mortar 62 is injected into the formwork 66 and solidified for a predetermined time to manufacture the panel 50, and then the formwork 66 is released, the exterior member ( 64) can be fixed to improve external beauty.

As described above, according to the building insulation PC panel according to the present invention, by using a panel with concrete mortar on the outside surface of the prefabricated building so that the three-dimensional frame is embedded, the non-skilled building can be easily assembled In addition, the shortening of air and construction cost can be reduced, and the insulation and soundproofing effect of panel can be improved and the weight can be reduced.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the invention as claimed in the claims. Of course, such changes are within the scope of the claims.

Claims (6)

In the building insulation precast concrete panel used as wall material of prefabricated building, The panel includes a first mesh and a second mesh of which a plurality of steel wires are fused in a horizontal and vertical direction to have a three-dimensional frame; A plurality of reinforcing wires, one end of which is inclinedly fused to the first and second meshes to reinforce the tensile and bending strength of the steel wire; A heat insulator through which a portion of the reinforcing wires penetrates and is installed in the center of the first and second meshes; Insulating precast concrete panel for building, characterized in that the plastering on both sides of the insulating material is made of concrete mortar for embedding the first and second mesh. The building insulation precast concrete panel according to claim 1, wherein a carrying hook part for carrying the panel is further provided on at least one mesh of the first and second meshes. According to claim 1, The first and second mesh construction insulation precast concrete panel, characterized in that the coupling portion is extended to be bolted to the channel that is the pillar of the building when the panel construction. 4. The building insulation precast concrete panel according to claim 3, wherein the joining portion is a c-channel having an extension line extending to the first and second meshes and a bolting hole so that the extension line is fused to an inner surface thereof. In the building insulation precast concrete panel used as wall material of prefabricated building, The panel includes a first mesh and a second mesh of which a plurality of steel wires are fused in a horizontal and vertical direction to have a three-dimensional frame; A plurality of reinforcing wires, one end of which is inclinedly fused to the first and second meshes to reinforce the tensile and bending strength of the steel wire; A heat insulator through which a portion of the reinforcing wires penetrates and is installed in the center of the first and second meshes; Concrete mortar for plastering the first and second meshes with a predetermined thickness on both sides of the heat insulating material; Insulation precast concrete panel for building, characterized in that consisting of an exterior member fixed to one surface of the concrete mortar. In the manufacturing method of insulation precast concrete panel for building, Manufacturing a formwork having the same size as that of the panel; A filling step of filling sand into the mold at a predetermined height; Placing a plurality of exterior members on the sand and forcing a portion of the exterior member to be buried in the sand; Contacting one surface of the exterior member with at least one mesh surface of the first and second meshes; An injection step of injecting concrete mortar into the formwork after the contacting step; Method for producing a heat-insulated precast concrete panel for building, characterized in that the panel is produced by the dismantling step of dismantling the form after solidifying the mortar of the injection step is completed.