KR101562362B1 - Methode and structure for intergarally formed with wall and external insulation - Google Patents

Abstract

The present invention relates to a construction structure of a wall formed integrally with an external insulation and a construction method thereof. According to the present invention, the wall where the insulation and concrete are integrally formed is constructed while securing stability with respect to a self-weight and a bending load by improving a structure of a gang form. Therefore, a superior freezing damage preventing effect of the concrete is secured in winter, and work efficiency is improved to reduce a work time, thereby improving an economic effect. The insulation is conveniently constructed by installing a box member on an interior of the gang form in such a manner that the box member can be separated from a plate body, and a contact area between the concrete and the insulation is increased while reducing damage to the insulation, thereby increasing an adhesive force. A heat bridge (heat loss) from a fixing part is minimized to secure a superior quality of a product with an increased durability life, thereby allowing a user to improve reliability of the product. The construction structure of the wall formed integrally with the external insulation comprises: the gang form; a fixing bolt; the box member; the insulation; an euro form; a Sepa tie; the wall; the fixing part; a nonflammable insulation; and a finishing material.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a structure and a method for constructing a wall and an external insulation,

The present invention relates to a construction structure and a method in which a wall of a structure and an external heat insulating material are integrally formed. By improving the structure of a gantry and securing safety against self weight and flexural load, In addition, the box member can be separated from the plate, thereby simplifying the construction of the heat insulator provided in the gang form, increasing the contact area between the concrete and the heat insulator while reducing the damage of the heat insulator, And the external insulation is integrally formed.

In general, the insulation method used to improve the insulation performance of a building is divided into internal insulation, external insulation, and interruption heat depending on the location of the insulation. Of these, the external insulation method attaches the insulation material to the exterior of the building, It is a method of finishing with an outer finishing material that can complement durability and impact resistance.

The external heat insulating method is roughly divided into two types: a wet method, which is a method of fixing a heat insulating material to a structure with an adhesive member such as an adhesive, and a dry method, which is a method of fixing a heat insulating material to the structure with a fixing guide member such as an anchor have.

Since the wet method and the dry method require the installation of a scaffold or a gondola to fix the heat insulating material to the outer surface after the frame construction, there is a problem of increase in the cost for installing the scaffold and gondola, and safety during construction . Particularly, there is a problem that the above-mentioned method is limited to high-rise buildings due to an increase in costs and safety problems, and thus it is difficult to expand even though the external insulation method is excellent.

In addition, the dry method is a method of fixing a heat insulating material by a mechanical method. Although the safety of the method is excellent, the durability of the structure is deteriorated due to damage such as cracks due to an anchor on the frame, .

In addition, although the wet process maintains the adhesive force between the heat insulating material and the structure depending on the quality of the adhesive and the skill of the adhesive, the adhesive force of the heat insulating material and the structure is low and thus a space is formed between the structure and the heat insulating material. There is a problem that it is fallen, cracked and broken, and a flame is spread by a stacking phenomenon in the case of fire, so that the damage is increased.

In order to solve the above problems, the applicant of the present invention has been registered in Korean Patent No. 10-1224160 with a construction structure and a method in which a wall of a structure and an external heat insulating material are integrally formed.

In the patent registered in the prior art, after the heat insulating material is fixed on the inner surface of the gang form, the concrete is placed and cured between the gypsum and the heat insulator so that the wall is formed integrally with the heat insulator, The conventional problems can be solved.

However, in the patent registered in the prior art, the load of the worker and the material is increased and the safety of the ganged foam is more important than the existing method in which the external insulation is integrally formed with the wall, There is a problem in that deformation of the deflection may be caused by the load of the gantry.

In addition, since the box member is fixed to the plate member, there is a problem that when the heat insulating material having a long height and a long height is installed, the construction is very difficult due to the interference of the reinforcing bars and the box member, there was.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described conventional defects, and it is an object of the present invention to provide a method and apparatus for improving the reliability of a product by improving the structure of a ganged foam to secure safety against self weight and flexural load And a construction structure and a method in which a wall of a structure and an external heat insulating material are integrally formed.

It is another object of the present invention to provide a method of manufacturing a gantry, which can easily separate a box member from a plate, simplify the construction of a heat insulating material installed in the gantry, reduce the damage of the heat insulating material, increase the contact area between the concrete and the heat insulating material, And a wall structure of the structure minimizing heat bridging (heat loss) from the external heat insulating material and the external heat insulating material are integrally formed.

The construction structure in which the wall of the structure of the present invention and the external heat insulating material are integrally formed,

A gantry to which a horizontal and vertical reinforcing member is fixedly attached to one surface of the plate body and a support base is provided on the vertical reinforcing member to form an outer surface of the wall;

A fixing bolt fixed to the anchor buried in the lower layer slab through the gang foam to support the gang foam;

A box member which is installed movably and separably along a guide surface bent on the upper surface of the ganged plate to support a concrete being laid while forming an installation space in which a support is installed when the upper slab is installed;

A heat insulating material in which a plurality of installation holes penetrate through the inside of the gantry to prevent heat leakage from the concrete paste leaks and fixtures while being in close contact with the other surface of the gantry;

A plurality of grooves formed on the inner surface of the wall to correspond to the gaps;

A septa tie fixed to the one-touch bolt through the euro foam to support the gum foam and the euro foam;

A wall formed integrally with the heat insulating material with concrete poured and cured between the Euroform and the heat insulating material;

A fixture mounted on the cave tie through the installation hole formed in the heat insulating material to detach the heat insulating material from the wall;

The gang foam being detached from the wall and being mounted and fixed in a space formed in a side surface of the lower layer slab;

And a finishing material for finishing the heat insulating material and the fireproof insulating material.

In addition, the construction method in which the wall of the structure of the present invention and the external heat insulating material are integrally formed,

A first step of forming a gantry on which a horizontal and vertical reinforcing members are fixedly attached to one surface of the plate body and a support member is provided on the vertical reinforcing member and a box member is movably mounted on a guide surface bent on the upper surface of the plate body;

A second step of moving the gantry to form a side surface of the wall and bringing the gantry into close contact with the side surface of the lower layer slab and fixing the anchors buried in the gantry and the lower layer slab with the fixing bolts;

The box member is moved forward along the guide surfaces of the plate body to move the box member forward to form an installation space of the support member during the installation of the upper layer slab, A third step of supporting the concrete to be formed;

A fourth step of fixing the plate body and the heat insulating material with a one-touch bolt;

A fifth step of disposing a Euroform which is spaced apart from the gaps by a predetermined distance to form an inner surface of the wall;

A sixth step of attaching a three-piece tie to the one-touch bolt through the euro foam to connect the gum foam and the euro foam;

A seventh step of forming a wall and an upper slab integrally formed with the concrete and the heat insulating material by pouring and curing the concrete between the heat insulating material adhered to the plate and the Euroform and the upper surface of the Euroform;

When the wall and the upper layer slab are formed, the one-touch bolt is separated from the septa, the fixing bolts are sequentially separated from the anchors buried in the upper and lower layer slabs, the box member is moved backward to be separated from the upper layer slab, An eleventh step of vertically lifting the gantry with the lifting device while vertically moving the gantry in a direction opposite to the wall;

When the gauze is lifted by a distance between the upper and lower slabs, the gauze is moved at a predetermined distance in the direction of the wall, and the support member is closely attached to the side of the upper slab through an installation space formed in the upper slab by releasing the box member. A ninth step of fixing the fixture to the setter by fixing the fixture with the installation hole of the heat insulation material while repeating the second to eighth steps of fixing the fixture with the fixing bolt and installing the fireproof insulation material in the space of the lower layer slab formed by the detachment of the support stand;

Closing the heat insulating material and the fireproof material with a finishing material;

And repeating the ninth through tenth steps to form each layer of the structure.

According to the present invention, by improving the structure of ganged foam and securing safety against self-weight and flexural load, it is possible to form a wall in which the heat insulating material and concrete are integrally formed, It is possible to shorten the cost and improve the economical efficiency.

In addition, according to the present invention, since the box member can be separated from the plate, it is possible to simplify the construction of the heat insulator provided in the gang form, increase the contact area between the concrete and the heat insulator while reducing breakage of the heat insulator, The heat conduction (heat loss) can be minimized and the durability can be increased and the quality can be secured. Therefore, the user can have an advantage of improving the reliability of the product.

Figure 1 is a front perspective view of the present invention.
2 is a rear perspective view of the present invention.
Figure 3 is a cross-
4 is an enlarged view of Fig. 3
5 to 11 illustrate the construction process of the present invention
13 is a cross-sectional view of a structure according to the present invention

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a front perspective view of the present invention, and FIG. 2 is a rear perspective view of the present invention.

The horizontal and vertical reinforcement members 112 and 113 are fixedly attached to one surface of the plate body 111 and the vertical reinforcement member 113 is fixed to one side of the plate body 111. [ A support rod 114 is installed on the lower wall slab 10 to form an outer surface of the wall body 170. The support wall 114 is fixed to the anchor 20 buried in the lower layer slab 10 through the gangway 110, The slab 10 'is installed movably and separably along a guiding surface 111' bent on the upper surface of the plate body 111 of the gangue 110 so that when the upper slab 10 'is installed, A box member 130 for supporting a concrete to be laid while forming an installation space 130 'in which a support base 114 is installed is formed and the concrete paste is leaked and adhered to the other surface of the plate body 111 of the gang- It is possible to prevent the fixing bridge 180 from being thermally bridged, Touching bolt 140 is formed through the Euroform 150 so as to form an inner surface of the wall body 170 by being spaced apart from each other by a predetermined distance in correspondence with the gang- And the concrete is inserted and cured between the flow path foam 150 and the heat insulating material 140 so that the heat insulating material 140 is integrally formed with the heat insulating material 140. [ The gang foam 110 is detached from the wall body 170 and is mounted on the septa 160 through the installation hole 141 formed in the heat insulating material 140 so that the heat insulating material 140 And the gangway 110 is detached from the wall 170 to constitute a fireproof thermal insulating material 190 mounted and fixed in a space 114 'formed in a side surface of the lower layer slab 10, And a finishing material 200 for finishing the heat insulating material 140 and the fireproof thermal insulating material 190, This will be described in more detail as follows.

The support base 114 is in close contact with a side surface of the lower slab 10 to form a space 114 'in which the flameproof heat insulation material 190 is installed while supporting the plate body 111.

The anchor 20 and the fixing bolt 120 are spaced apart from each other by at least two rows.

The box member 130 includes a box guide plate 131 formed by a horizontal plane 131a and a vertical plane 131b and having a horizontal plane 131a mounted on a guide plane 111 ' And a protrusion 132 which is mounted on one side of the vertical surface 131b of the box guide plate 131 to form an upper slab 10'is provided on the other side of the vertical surface 131b of the box guide plate 131 And a through hole 135 penetrating the horizontal surface 131a of the box guide plate 131 and the guide surface 111 'of the plate body 111 is provided, And a bolt / nut 136 for fixing the horizontal surface 131a of the box guide plate 131 and the guide surface 111 'of the plate body 111 through the through hole 135.

And a reinforcing rib 137 fixed to the guide surface 111 'of the plate body 111 and the vertical reinforcement member 113 of the gang form 110.

The through hole 135 passing through the horizontal plane 131a of the box guide plate 131 is preferably long.

And a heat insulating cap 180a for closing the installation space 141 'of the heat insulating material 140 on which the fixture 180 is seated to prevent the heat conduction of the fixture 180 coupled to the installation hole 141 .

It is preferable that unevenness 142 is formed on one surface of the heat insulating material 140 to widen the contact area with concrete.

A groove 143 is formed in any one of the heat insulating materials adjacent to the heat insulating material 140 so that the heat insulating material 140 and the adjacent heat insulating material can be easily coupled to each other, A projection 144 is formed.

Hereinafter, a construction process of the present invention will be described.

As shown in FIGS. 3 to 4, a plate 111 is formed in a rectangular shape and a guide surface 111 ', which is formed by passing a plurality of through holes 135 at predetermined intervals, is formed on an upper surface. The horizontal reinforcement member 112 and the vertical reinforcement member 113 may be fixed to one surface of the plate body 111 at regular intervals And the supporter 114 is protruded from the lower end of the vertical reinforcement member 113 to form a gantry 110.

The length of the support member 114 is preferably the same as the thickness of the heat insulating member 140.

The box member 130 is mounted on the guide surface 111 'of the gangue 110. The box member 130 is formed on one surface of the vertical surface 131b of the box guide plate 131 bent in an' The horizontal and vertical reinforcing members 133 and 134 are fixed at regular intervals and the other surface is provided with a protrusion 132 having the same thickness as the heat insulating material 140 so that the horizontal plane 131a of the box guide plate 131 is guided by the guide surface 111 ' The valve body 111 and the box member 130 are fixed by bolts / nuts through a through hole 135 formed in the horizontal surface 131a and the guide surface 111 ' The through hole 135 passing through the guide surface 111 'can guide the movement of the box member 130 along the guide surface 111' with the long hole and the box member 130 is moved to the rear end of the guide surface 111 '.

5, the supporter 114 of the gnomere 110 forms a space 114 formed in the lower layer slab 10 in order to form the gnom 110 formed as described above to form the wall 170 of the structure And the anchor 20 buried in the lower slab 10 is fixed by the fixing bolts 120. The anchor 20 is fixed to the lower slab 10 by the supporting bolts 120. [

At least two or more rows of the anchor 20 and the fixing bolts 120 are secured so as to ensure safety against bending deformation of the support base 114.

When the fixing bolt 120 is fixed to the anchor 120, the heat insulating material 140 is seated on the support base 114 and is brought into close contact with the other surface of the plate body 111 of the gung- Touch bolt 140 'is engaged with an installation hole 141 penetrating through the heat insulating material 140 in a state where a socket (not shown) is in close contact with the heat insulating material 140.

6 to 7, a plurality of installation holes 141 are formed in the heat insulating material 140, and the heat insulating material 140 is formed in any one of the heat insulating materials adjacent to the heat insulating material 140 And the protrusion 144 formed on the other one of the heat insulating materials can be coupled to the groove 143.

The box member 130 is moved to the leading end of the guide surface 111 'while the reinforcing bars are arranged on the lower layer slab 10 in a line perpendicular to the wall 170 formed in the lower layer slab 10, The vertical surface 131b of the upper plate 131 and the plate body 111 are maintained in a vertical line and the protruding portion 132 protrudes from the vertical surface 131b by the thickness of the heat insulating material 140 and then the vertical surface 131b and the guide surface 111 ' And the fixing bolt 120 is fixed to the upper layer slab 10 through the box member 130 after fixing the box member 130 to the valve body 111 by fastening the bolt / 'To the anchor 20 fixed to the reinforcing bar at the position.

When the box member 130 is fixed to the guide surface 111 ', the upper slab 10' and the wall body 170 are formed on the upper surface of the lower slab 10 so as to be spaced apart from the gang- Touch bolt 140 'through a through hole (not shown) penetrating through the euromon 150 while fixing the septum 160 to the one-touch bolt 140' (Not shown) of the gusset 110 and the gusset 110 can be connected to each other.

8, when the europium 150 and the gum 110 are fixed by the septa 160 and the one-touch bolt 140 ', the gap between the euro foam 150 and the heat insulating material 140 The concrete and the curing concrete are formed on the upper surface of the Euroform 150 forming the space and the upper slab 10 'to form the wall 170 and the upper slab 10'. The heat insulating material 140 and the box member 130 Since the upper surface of the lower slab 10 and the lower surface of the heat insulating material 140 are located on the same line, the concrete being poured can be prevented from flowing into the support base 114.

Since the fixing bolts 120 are fixed to the anchor 20 embedded in the septa 160, the one-touch bolt 140 'and the lower layer slab 10, the concrete foam 150 It is possible to obtain the wall body 170 in which the concrete to be cured and the heat insulating material 140 are integrally formed while preventing the flow of the euro foam 150 and the gang foam 110 by the water.

After the wall 170 is formed as described above, the one-touch bolt 140 'is detached from the settler 160 as shown in FIGS. 9 to 10, and then the anchor buried in the upper slab 10' The box member 130 is guided by the guide surface 111 'in a state in which the fastening bolt 120 is separated from the guide groove 20 and the fastening force of the bolt / nut 136 of the box member 130 forming the upper slab 10' The slabs 10 are moved from the anchor 20 buried in the lower layer slab 10 to the fixing bolts 13 by moving the slits in the vertical direction along the horizontal plane 131a, (120).

When the fixing member 120 is separated from the anchors 20 buried in the upper and lower slabs 10 and 10 ', the wires coupled to the lifting hooks respectively formed on the gang- Lifting the ganged foam 110 by a lifting device such as a crane in a direction opposite to the wall 170 so as to be spaced apart by a distance between layers of the structure in a state in which the support 114 is moved horizontally by an interval separated from the heat insulating material 140, The gantry 110 is moved in the direction of the wall 170 to move the gantry 110 to the installation space 130 'formed in the upper slab 10' And the anchors 20 buried in the upper slabs 10 'are fixed by the fixing bolts 120. The fixing bolts 120 are fixed to the upper slabs 10'.

The heat insulating material 190 is installed in the space 114 'of the lower layer slab 10 as shown by the lifting of the gnomere 110 to prevent the flame spread to the upper layer when a fire occurs, So that the adhesive force of the heat insulating material 140 can be reinforced.

12, it is possible to prevent the thermal bridge phenomenon of the fixture 180 by mounting and closing the heat insulating cap 180a in the installation space 141 'to which the fixture 180 is coupled, The concave and convex portions 142 are formed on one surface of the body 140 so that the contact area between the heat insulating material 140 and the concrete can be increased and the wall 170 formed integrally with the heat insulating material 140 is formed As a result, it is possible to shorten the air due to the improvement of the workability compared to the wet and dry method, and to prevent the frost damage of the winter concrete and to increase the durability of the concrete structure.

13, the heat insulating material 140 and the heat insulating material 190 are closed with a finishing material 200 such as a cement mortar treatment, a stone and a dry bit, and the above- It is possible to complete the construction of the structure as well as form each layer.

While the present invention has been described in connection with certain exemplary embodiments and drawings, it is to be understood that the phraseology and terminology used herein are for the purpose of description and should not be interpreted as limiting the invention in any way. It must be interpreted in terms of meaning and concept. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only examples of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

100: construction structure 110:
120: fixing bolt 130: box member
140: Insulation material 150: Eurofoam
160: Sephai 170: Wall
180: fixture 190: fireproof insulator
200: Finishing material

Claims (13)

A gantry to which a horizontal and vertical reinforcing member is fixedly attached to one surface of the plate body and a support base is provided on the vertical reinforcing member to form an outer surface of the wall;
A fixing bolt fixed to the anchor buried in the lower layer slab through the gang foam to support the gang foam;
A box member which is installed movably and separably along a guide surface bent on the upper surface of the ganged plate to support a concrete being laid while forming an installation space in which a support is installed when the upper slab is installed;
A heat insulating material having a plurality of installation holes penetrating the inside of the gantry at regular intervals while preventing the leakage of the concrete paste and the heat conduction of the fixing hole while being in contact with the other surface of the ganged foam;
A plurality of grooves formed on the inner surface of the wall to correspond to the gaps;
A septa tie fixed to the one-touch bolt through the euro foam to support the gum foam and the euro foam;
A wall formed integrally with the heat insulating material with concrete poured and cured between the Euroform and the heat insulating material;
A fixture mounted on the cave tie through the installation hole formed in the heat insulating material to detach the heat insulating material from the wall;
The gang foam being detached from the wall and being mounted and fixed in a space formed in a side surface of the lower layer slab;
And a finishing material for finishing the heat insulating material and the fire-extinguishing heat insulating material, wherein the wall of the structure and the external heat insulating material are integrally formed.
The method according to claim 1,
Wherein the supporting member is in close contact with a side surface of the lower layer slab to form a space in which the flammable insulating material is installed while supporting the plate member.
The method according to claim 1,
Wherein the anchor and the fixing bolt are spaced apart from each other by at least two rows at a predetermined interval, wherein the wall of the structure and the external heat insulating material are integrally formed.
[2] The apparatus according to claim 1,
A box guide plate which is formed with a horizontal plane and a vertical plane of a 'b' shape and is seated on a guide surface whose horizontal plane is bent on the upper surface of the plate;
A protrusion mounted on one side of the vertical surface of the box guide plate to form an upper slab;
A horizontal and vertical reinforcing member fixed to the other surface of the box guide plate on a vertical plane;
A through hole penetrating through the horizontal surface of the box guide plate and the guide surface of the plate member;
And a bolt / nut for fixing the horizontal surface of the box guide plate and the guide surface of the plate body through the through hole. The structure of claim 1, wherein the wall of the structure and the external heat insulating material are integrally formed.
The method of claim 4,
Further comprising a reinforcing rib fixed to a guide surface of the plate and a vertical reinforcement member of the gang-foam. The construction of claim 1, wherein the reinforcing rib is integrally formed with the wall of the structure.
The method of claim 4,
Wherein the through hole penetrating the horizontal plane of the box guide plate is a long hole, and the wall of the structure and the external heat insulating material are integrally formed.
The method according to claim 1,
Further comprising a heat insulating cap which closes an installation space of the heat insulating material on which the fixture is seated to prevent a heat bridge of the fixture coupled to the installation hole.
The method according to claim 1,
Wherein a concavity and convexity are formed on one surface of the heat insulating material so as to widen the contact area with the concrete, wherein the wall of the structure and the external heat insulating material are integrally formed.
The method according to claim 1 or 8,
Wherein a groove is formed in any one of the heat insulating material adjacent to the heat insulating material so that the heat insulating material and the adjacent heat insulating material can be easily coupled to each other and the other heat insulating material is formed with a protrusion so as to be coupled to the groove. A construction in which the external insulation is integrally formed.
The method according to claim 1,
Wherein the wall of the structure and the external heat insulating material are formed integrally with each other.
A first step of forming a gantry on which a horizontal and vertical reinforcing members are fixedly attached to one surface of the plate body and a support member is provided on the vertical reinforcing member and a box member is movably mounted on a guide surface bent on the upper surface of the plate body;
A second step of moving the gantry to form a side surface of the wall and bringing the gantry into close contact with the side surface of the lower layer slab and fixing the anchors buried in the gantry and the lower layer slab with the fixing bolts;
The box member is moved forward along the guide surfaces of the plate body to move the box member forward to form an installation space of the support member during the installation of the upper layer slab, A third step of supporting the concrete to be formed;
A fourth step of fixing the plate body and the heat insulating material with a one-touch bolt;
A fifth step of disposing a Euroform which is spaced apart from the gaps by a predetermined distance to form an inner surface of the wall;
A sixth step of attaching a three-piece tie to the one-touch bolt through the euro foam to connect the gum foam and the euro foam;
A seventh step of forming a wall and an upper slab integrally formed with the concrete and the heat insulating material by pouring and curing the concrete between the heat insulating material adhered to the plate and the Euroform and the upper surface of the Euroform;
When the wall and the upper layer slab are formed, the one-touch bolt is separated from the septa, the fixing bolts are sequentially separated from the anchors buried in the upper and lower layer slabs, the box member is moved backward to be separated from the upper layer slab, An eleventh step of vertically lifting the gantry with the lifting device while vertically moving the gantry in a direction opposite to the wall;
When the gauze is lifted by a distance between the upper and lower slabs, the gauze is moved at a predetermined distance in the direction of the wall, and the support member is closely attached to the side of the upper slab through an installation space formed in the upper slab by releasing the box member. A ninth step of fixing the fixture to the setter by fixing the fixture with the installation hole of the heat insulation material while repeating the second to eighth steps of fixing the fixture with the fixing bolt and installing the fireproof insulation material in the space of the lower layer slab formed by the detachment of the support stand;
Closing the heat insulating material and the fireproof material with a finishing material;
And repeating the ninth step to the tenth step to form each layer of the structure. The method of claim 1, wherein the wall of the structure and the external heat insulating material are integrally formed.
12. The method of claim 11, wherein in the second step,
Further comprising the step of fixing the anchor to be buried in the upper slab to the reinforcing steel when the upper slab is constructed, wherein the wall of the structure and the external insulating material are integrally formed.
The method of claim 11, wherein, in the ninth step,
Further comprising the step of closing the installation space of the heat insulating material on which the fixture is seated by the heat insulating cap so as to prevent the heat fixing of the fixture to which the fixture is coupled when the fixture is fixed to the setter through the installation hole. And the outer heat insulating material are integrally formed.

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