KR20200033396A - A fixing apparatus of insulation material and constructing method thereof - Google Patents

Abstract

The present invention relates to an apparatus for fixing an insulation material of a reinforced concrete ceiling, capable of improving insulation efficiency while preventing the separation and damage of an insulation material and improving construction efficiency, and a construction method thereof. The apparatus for fixing an insulation material of a reinforced concrete ceiling of the present invention comprises: a fastener inserted and fixed to an insulation material; and a fixing rod coupled to the fastener directly or by a connection member.

Description

A fixing apparatus of insulation material and constructing method thereof

The present invention relates to a fixing device for a heat insulating material for a reinforced concrete ceiling and a construction method thereof, and more specifically, by placing a heat insulating material having a fixing device on a formwork slab top plate and pouring concrete, the heat insulating material is solidified simultaneously with the formation of the ceiling concrete slab. To prevent the insulation from falling off and damage, and to improve the insulation efficiency, the insulation of the reinforced concrete ceiling can be improved by pre-arrangement of the insulation material combined with the failure device in the form-forming step. It relates to a fixing device and a construction method.

In general, a method of attaching an insulating material to a concrete slab on a ceiling of a building includes a method of pouring concrete on the insulating material and a method of attaching the insulating material after pouring the concrete to form a concrete slab.

The method of placing concrete on the insulation and attaching it is to lay the insulation on the formwork and pour concrete on it, which has a problem in that the insulation is easily separated during dismantling and ceiling construction.

In addition, after forming a concrete slab of the ceiling of the building, the insulation method of adding insulation materials such as PE board (phenolic foam) and expanded polystyrene (EPS) is to clean up the surfaces of the inner and outer walls of the concrete to be constructed, and then for adhesion. When the insulation is attached to the wall using mortar, the insulation is fixed to the wall or ceiling while curing the mortar. This method had a problem in that it is difficult to maintain a stable fixed state of the heat insulating material because the adhesion strength of the mortar and the wall or ceiling applied to the heat insulating material is weak.

In addition, most of the insulation work is made of insulation materials, which are typically PE boards (phenolic foam), styrofoam, flame retardant (non-combustible), foamed polystyrene foam (flame retardant) with a width of about 600 to 1,200 mm and a thickness of 20 to 150 mm. It is made to apply to the wall and apply acrylic mortar to secure the adhesive strength of the insulation, while attaching glass fiber fibers with strong tensile strength for the purpose of preventing cracks and strengthening the impact, and applying the acrylic resin-based final finishing material with a trowel, spray gun, roller Finish by forming a coating film with various patterns and textures using a brush, etc.

However, one of the biggest defects in the construction is that the insulation of the insulating material attached to the wall or ceiling occurs, so in order to prevent this fall-off phenomenon, conventionally, a construction for fixing a plurality of anchor bolts that hold the insulation is added. However, there is also a phenomenon that the surface to be applied is uneven after construction, and if an anchor bolt is used to fix the insulation, the outer wall or ceiling is damaged, leading to the breakage of the insulation, deteriorating the performance of the insulation and condensation phenomenon and constructability There was a problem that this was lowered.

Republic of Korea Patent Publication No. 10-2008-0069772 (published on July 29, 2008) Republic of Korea Registered Patent No. 10-1673277 (Announcement on Nov. 7, 2016) Republic of Korea Registered Utility Model No. 20-0280461 (announced on July 17, 2002)

Therefore, the present invention, for the defects and deficiencies of the prior art, the structure is simple and reasonable, and after forming the formwork, an insulating material is installed thereon through a fixing device, and then the spacer and reinforcing bar are reinforced and concrete is poured and cured. Even after removing the formwork and lower support, the insulation material is stably mounted on the ceiling concrete slab, so it is possible to improve the insulation efficiency while preventing the insulation from falling off and damage, and to fix the insulation of the reinforced concrete ceiling to improve the construction efficiency. And it is an object to provide a construction method.

Insulator fixing device for a reinforced concrete ceiling of the present invention is a fixing device for fixing a heat insulating material for a concrete slab of a reinforced concrete ceiling, and a fastener that is fitted and supported by the bottom of the heat insulating material and is fixed by being coupled to the fastener and the upper part embedded in the concrete. Made of rods; The fastener includes a horizontal plate on which a heat insulating material can be stably seated, and a central pipe having a fixing portion on the top to protrude upward from the center of the horizontal plate and serve as a central axis to fix the lower portion of the fixing rod, and this center Protruding lower than the height of the tube, it is made of a fixing pin which protrudes the barb on the upper part to prevent separation by being inserted into the insulating material, and is formed of a plurality of fixing pins formed in a radial shape: the fixing rod is a lower portion of the binding portion fastened to the fixing portion formed on the center pipe of the fastener It is composed of a vertical portion formed on, and a horizontal portion bent in the horizontal direction from the top of the vertical portion: the fastening pin of the fastener is not exposed to the outside and is inserted into the insulating material, and the center pipe has a tip according to the thickness of the insulating material. It is mounted so that it is exposed or not exposed. That embedded in the concrete or which while supported on a rebar embedded in the concrete for securing the heat insulating material it may be characterized on the technical configuration.

 In addition, the fixing device for the insulation material of the reinforced concrete ceiling of the present invention is the upper and lower binding parts and the upper and lower parts to connect the fixing part of the front end of the center tube of the fastener and the lower binding part of the fixing bar so as to respond to the change in length according to the thickness change of the insulating material for the concrete slab. It may be a feature of the technical configuration that a plurality of connecting members formed for each length are provided to form a top portion and correspond to the thickness of the insulating material.

In addition, the fixing device for the insulation of the reinforced concrete ceiling of the present invention is made of any one of a fastening part of a fastener and a fastening bar, and a fastening part of a connecting member and a fastening method of a screw coupling method or a locking groove and a locking protrusion. It can be made into a structural feature.

In addition, the fixing device for the insulation of the reinforced concrete ceiling of the present invention includes a fixing part of a fastener, a binding part of a fixing rod, and a binding part and a fixing part of a connecting member, a fixed ring integrally formed in a fastener or a fixed ring that is installed in a fastener, Shanghai Dong It can be made of any one of the stopper and the push member made of a spring to be made to prevent the escape of the locking projection can be a feature of the technical configuration.

In addition, the construction method of the fixing device for the insulation material of a reinforced concrete ceiling of the present invention includes a work preparation step of preparing an accessory and an insulation material for a concrete slab of a normal ceiling and a fastener, a fixing rod, and a connecting member; When the work preparation step is completed, a form forming step of constructing a support and a slab top plate to provide a ceiling concrete slab of a building structure with a support and a slab top plate: is inserted into the lower portion of the insulating material placed on the slab top plate, protruding or buying upwards A fastener bonding step of bonding a plurality of fasteners to a heat insulating material; A heat insulating material arranging step of arranging the insulating materials with a plurality of fasteners placed on the slab top plate: a reinforcing bar reinforcing step of reinforcing the reinforcing bars to cross to maintain durability while providing a separation distance using a plurality of spacers on the insulating material; A fixing rod fastening step of directly fixing the binding portion of the fixing rod to the fixing portion of the fastener or fastening the fixing rod through a connecting member connecting between the fixing portion of the fastener and the binding portion of the fixing rod; A concrete pouring step of reinforcing the reinforcing bars connected to the upper and the intersecting states of the heat insulating material, and fixing bars or connecting members; A concrete slab forming step provided by curing the poured concrete; And a step for removing the support for the formwork and the slab top plate after the concrete slab is formed.

The insulating material fixing device of the reinforced concrete ceiling of the present invention has a simple and reasonable structure, and is made of a structure that is easily combined with the insulating material, and has the convenience of using a connecting member when changing the thickness of the insulating material, and on the formwork slab top plate during construction. It is possible to improve the insulation efficiency and improve the insulation efficiency at the stage of forming the formwork because the insulation material with the fixing device can be easily placed and concrete is poured to prevent the insulation material from falling off and being damaged by being firmly attached to the ceiling concrete slab. It is to provide an effect that can improve the construction efficiency, since the arrangement of the insulating material combined with the failure device is made in advance.

1 is a perspective view showing a part of a construction preparation state for concrete pouring by being bonded to a heat insulating material and seated on a formwork by using a heat insulating material fixing device for a reinforced concrete ceiling according to the present invention.
2 (A, B) is a cross-sectional view showing a state in which the insulation is fixed to the concrete by pouring concrete through the construction preparation state of FIG.
Figure 3 is an exploded perspective view showing an insulating material fixing device for a reinforced concrete ceiling according to an embodiment of the present invention.
Figure 4 (A, B, C) is a longitudinal cross-sectional view of the insulating material fixing device of the reinforced concrete ceiling of Figure 3;
Figure 5 is an exploded perspective view showing an insulating material fixing device for a reinforced concrete ceiling according to another embodiment of the present invention.
Figure 6 (A, B, C) is a longitudinal cross-sectional view of the insulating material fixing device of the reinforced concrete ceiling of Figure 5;
7 is a perspective view showing an exploded insulation fixing device for a reinforced concrete ceiling according to another embodiment of the present invention.
8 (A, B, C) is a longitudinal cross-sectional view of the fixing device for the insulation of the reinforced concrete ceiling of FIG.
Figure 9 is an exploded perspective view showing an insulating material fixing device for a reinforced concrete ceiling according to another embodiment of the present invention.
10 (A, B, C) is a longitudinal cross-sectional view of the insulation fixing device of the reinforced concrete ceiling of FIG.

Hereinafter, the construction method, configuration, and operation of the present invention will be described in more detail based on the accompanying drawings. In describing the present invention, terms or words used in the specification and claims are based on the principle that the inventor can appropriately define the concept of terms in order to best describe his or her invention. It must be interpreted as a meaning and concept consistent with the technical idea of.

First, the construction method using the fixing device 2 of the insulating material 10 for a concrete slab of a reinforced concrete ceiling according to the present invention will be described with reference to FIGS. 1 and 2 (A, B).

As a first process, reinforcing bars (12), supports (13), slab top plate (14) and concrete (11) and insulation (10), fasteners (21) and fixing rods (22), which are accessories for a concrete slab of a normal ceiling And a preparation step for preparing the fixing device 2 composed of the connecting member 3.

As a second process, when the work preparation step is completed, a worker supports a ceiling concrete slab 1 of a building structure using a plurality of supports 13 and a slab top 14 based on an architectural design drawing ( 13) And finish the forming step 15 to form the slab top plate (14).

As a third process, the fastener 21 having a fixing pin 215 formed with a center pipe 212 and barb 214 which is inserted into the lower portion of the insulating material 10 placed on the slab top plate 14 and protrudes or is buried upwards is formed. ) And the fastener 21 coupling step of combining a plurality of 4 to 8 places according to the size of the heat insulating material 10 as shown in (A) of FIGS. 1 and 2, and the insulation efficiency as shown in (B) of FIG. 2. Finishing the fastener 21 coupling step for fixing the heat insulating material 10 to the concrete ceiling using the connecting member 3 for height compensation by increasing the thickness of the heat insulating material 10 to improve.

As a fourth process, the heat insulating material 10 having a plurality of fasteners 21 placed thereon is placed on the slab top plate 14 to lead to an arrangement of the heat insulating material 10 to be arranged so that no gaps are formed in the mutual joints.

As a fifth process, using a plurality of spacers 16 on the upper portion of the heat insulating material 10, while providing the up and down separation distance, the reinforcing bars 12 are arranged to intersect to maintain durability, and the crossing portion of the reinforcing bars 12 is pushed. Reinforcing bar 12, which is woven and fixed with the illustrated wire, leads to a reinforcement step.

As a sixth step, the binding portion 223 of the fixing rod 22 is attached to the fixing portion 213 of the fastener 21 which is inserted into the heat insulating material 10 through the third step and is coupled with the (A) of FIG. 2. Fixing rod (3) through a connecting member (3) connecting directly between, or connecting between the fixing portion 213 of the fastener 21 and the binding portion 223 of the fixing rod 22, as shown in Figure 2 (B) 22) The fastening step of the fixing rod 22 for joining is completed.

On the other hand, the fixing rod 22 combined in the sixth step is freely maintained in an upright state, or the fixing rod 22 contacted with the reinforcing bar 12 formed in the fifth step is woven and fixed as a wire not shown. It may further include.

Next, as a seventh process, concrete 11 is poured into a portion including the reinforcing bar 12 and the fixing rod 22 or the connecting member 3, which are reinforced in the upper and alternate positions of the heat insulating material 10, and buried them. It leads to the pouring step of the concrete 11 forming the ceiling.

Next, as the eighth process, the concrete slab 1 is formed by curing the poured concrete 11, and finally, after the concrete slab 1 is completed, the formwork support 13 and the slab top plate 14 ) Is removed.

Therefore, through the construction method, the insulation material 10 is placed on the formwork 15, the slab top plate 14, and then the concrete 11 is poured, and then the insulation material 10 is placed on the ceiling concrete slab 1 ) Can be securely attached at the same time as the formation, so that the insulation and the damage of the insulation 10 can be prevented, and thus the insulation efficiency can be improved, and the insulation 10 with the failure device 2 combined is formed in the step of forming the formwork 15. Since the teeth are made, it is possible to improve the construction efficiency.

Next, look at with respect to the fixing device (2) for fixing the insulation according to the present invention.

As an embodiment of the present invention, a fixing device 2 for fixing a heat insulating material 10 for a concrete slab of a reinforced concrete ceiling is provided as shown in FIGS. 3 and 4.

The insulating material 10 may be a PE board (phenolic foam), styrofoam, dark lead (non-flammable), foamed polystyrene foam (flame retardant) having a width of 600 to 1200 mm and a thickness of 20 to 150 mm.

And the fixing device (2) is composed of a fastener (21) that is fitted and supported by the bottom of the heat insulating material (10), and a fixing rod (22) that is coupled to the fastener (21) and the top of which is embedded and fixed in the concrete (11). In addition, in order to increase insulation efficiency, when a thickness change of the insulation 10 occurs, a connecting member 3 is provided to extend the length to compensate for the difference in thickness.

On the other hand, the fastener 21 is in contact with the bottom surface of the heat insulating material 10, the horizontal plate 211 that can stably seat the heat insulating material 10, and protrudes upward from the center of the horizontal plate 211 to serve as a central axis While doing so, the center pipe 212 having a fixing portion 213 at the upper portion so as to fix the lower portion of the fixing rod 22 and the lower portion of the center pipe 212 protrudes lower than the height of the central pipe 212 and is separated from the insulation 10 It is made by protruding the thin barbs 214 acting as a hook to prevent it from being prevented and forming a plurality of fixing pins 215 made of 4 to 8 in a radial form.

On the other hand, the fixing rod 22 is a vertical portion 221 formed with a binding portion 223 fastened to the fixing portion 213 formed on the upper portion of the center tube 212 of the fastener 21, and this vertical portion Consisting of a horizontal portion 222 extending in a horizontal direction from the top of the 221, when the horizontal portion 222 is embedded in the concrete 11, the separation of the fastener 21 is prevented, so that the insulation 10 is stably fixed. It is made to order.

In addition, the fixing pin 215 of the fastener 21 is not exposed to the outside, but is inserted inside the heat insulating material 10 and the center pipe 212 is mounted so that the tip is not exposed or exposed depending on the thickness of the heat insulating material 10. In part, the vertical portion 221 and the horizontal portion 222 of the fixing rod 22 are embedded in the concrete 11 constituting the ceiling concrete slab 1 as shown in FIGS. 1 and 2 or the reinforcing bar 12 It is made to be fixed by the wire not shown in the while being embedded in the concrete (11) to stably fix the heat insulating material (10).

On the other hand, the fixing portion 213 of the front end of the center pipe 212 of the fastener 21 and the lower binding portion 223 of the fixing rod 22 to cope with the change in length according to the thickness change of the insulating material 10 for the concrete slab ) May be provided with a plurality of connecting members 3 formed for each length to form a binding portion 31 and a fixing portion 32 in the upper and lower portions to connect them, and corresponding to the thickness of the heat insulating material 10.

In addition, the fixing portion 213 of the fastener 21 and the binding portion 223 of the fixing rod 22 and the binding portion 31 and the fixing portion 32 of the connecting member 3 are shown in FIGS. 3 and 4. It is formed by a screw coupling method consisting of a male screw (41) and a female screw (42).

In addition, the method is not limited to the screw coupling method, and as a method for more convenient coupling, the fixing portion 213 of the fastener 21 and the binding portion 223 of the fixing rod 22 and the connecting member 3 The binding portion 31 and the fixing portion 32 are formed in a structure in which the engaging groove 51 and the engaging protrusion 52 are mutually engaged as shown in FIGS. 5 and 6, and in FIGS. 6A and B, Likewise, the fixing portion 213 of the fastener 21 and the binding portion 223 of the fixing rod 22 are combined in the above-mentioned locking method, or the binding portion 31 and the fixing portion 32 of the connecting member 3 are also It is made to be coupled by the locking method.

In addition, the fixing portion 213 of the fastener 21 and the binding portion 223 of the fixing rod 22 and the binding portion 31 and the fixing portion 32 of the connecting member 3 are shown in FIGS. 7 and 8. The conical projection 23 formed integrally with the fastener 21 is formed as shown, and when the locking projection 52 is inserted into the locking groove 51, the conical projection 23 flows into the center of the fixing part 32. The locking projections 52 can be prevented from being narrowed to prevent departure.

In addition, in order to prevent the escape of the locking projection 52, as shown in FIGS. 9 and 10, the push ring consisting of a retaining ring 61 that is inflow mounted on the fastener 21, a stopper 62 that moves up and down, and a spring 63 When the locking projection 52 is introduced as shown in FIG. 10 (A) by providing the member 6, the stopper 62 is lowered and the locking projection 52 is inserted into the locking groove 51 and is caught. ), The stopper 62 is made to prevent the departure of the locking protrusion 52 by successively assisting with the restoring force to the spring 63 again.

Therefore, the fixing device 2 of the insulating material 10 for a concrete slab of the present invention has a structure that is simple and reasonable, and is made of a structure that is easily coupled to the insulating material 10, and the connecting member when the thickness of the insulating material 10 is changed ( 3) It is convenient to use, and in the process of construction, the insulation (10) by pouring the concrete (11) after the process of simple arrangement of the insulation (10) with the fixing device (2) on the formwork (15) slab top plate (14) 10) As the ceiling concrete slab 1 is formed and is firmly attached at the same time, it is possible to prevent the insulation and the fall of the insulation 10, so that the insulation efficiency can be improved, and the failure device (2) is formed in the step of forming the formwork (15). It is possible to improve the construction efficiency, since the arrangement of the combined insulating material 10 is performed as a predecessor.

Although it has been described and illustrated in connection with the preferred embodiment of the present invention, it is not limited to the configuration and operation as described and described above. Therefore, those skilled in the art can properly understand that the above embodiments can be modified and modified appropriately, and thus appropriate modifications, modifications, and equivalents should be regarded as belonging to the scope of the present invention.

1: Concrete slab 10: Insulation
11: Concrete 12: Rebar
13: support 14: slab top
15: Formwork 16: Spacer
2: Fixture 21: Fastener
22: Fixed rod 23: Conical projection
211: horizontal plate 212: center tube
213: fixing portion 214: barb
215: fixing pin 221: vertical portion
222: horizontal portion 223: binding portion
3: connecting member 31: engaging portion
32: fixing part 41: male thread
42: female thread 51: locking groove
52: engaging projection 6: push member
61: retaining ring 62: stopper
63: spring

Claims (5)

In the fixing device (2) for fixing the insulation 10 for a concrete slab of a reinforced concrete ceiling,
The heat insulating material 10 is made of a fastener 21 that is fitted and supported by the bottom surface, and a fixing rod 22 that is coupled to the fastener 21 and the upper portion is embedded and fixed in the concrete 11;
The fastener 21 is a horizontal plate 211 in which the heat insulating material 10 can be stably seated, and protrudes upward from the center of the horizontal plate 211 to serve as a central axis while lowering the fixing rod 22 The center tube 212 having the fixing part 213 on the upper portion to fix the projected barb 214 on the upper portion to prevent separation by being inserted into the heat insulating material 10 while protruding lower than the height of the central pipe 212 It is made of a fixing pin 215 which is formed in a plurality of radiating forms:
The fixing rod 22 is a vertical portion 221 formed on the lower portion of the binding portion 223 fastened to the fixing portion 213 formed on the center pipe 212 of the fastener 21, and the vertical portion 221 ) Is made of a horizontal portion (222) bent and extended in the horizontal direction from the top:
The fixing pin 215 of the fastener 21 is not exposed to the outside and is inserted inside the heat insulating material 10, and the center pipe 212 is mounted so that the tip is not exposed or exposed depending on the thickness of the heat insulating material 10. , A part of the vertical portion 221 and the horizontal portion 222 of the fixing rod 22 are embedded in the concrete 11 constituting the concrete slab or supported by the reinforcing bar 12 while being embedded in the concrete 11 so that the insulating material ( 10) Fixing device for insulation of reinforced concrete ceiling, characterized in that it is made to fix.
According to claim 1, The lower portion of the fixing portion 213 and the fixing rod (22) of the front end of the center tube (212) of the fastener (21) to respond to the change in length according to the thickness change of the insulating material for the concrete slab (10) Characterized in that a plurality of connecting members (3) are formed for each length to form a binding portion (31) and a fixing portion (32) in the upper and lower portions to connect the binding portion (223) and correspond to the thickness of the heat insulating material (10). Fixture for insulation of a reinforced concrete ceiling.
The fastening part (213) of the fastener (21) and the binding part (223) of the fixing bar (22) and the binding part (31) and the fixing part (32) of the connecting member (3) are male screws ( 41) and a screw coupling method consisting of a female screw (42) or a locking groove (51) and a locking mechanism of a reinforced concrete ceiling, characterized in that made of any one of the locking method of the locking projection (52).
According to claim 3, The fastening portion (213) of the fastener (21) and the binding portion (223) of the fixing rod (22) and the binding portion (31) and the fixing portion (32) of the connecting member (3) are fasteners ( 21) is made of any one of a push member (6) consisting of a conical projection (23) or a fastening ring (61) that is inflow mounted on the fastener (21), a stopper (62) and a spring (63) moving in and out. Insulator fixing device for a reinforced concrete ceiling, characterized in that made to prevent the escape of the locking projection (52).
In the construction method using a fixing device (2) for attaching the insulation (10) to the reinforced concrete ceiling,
An operation preparation step of preparing an accessory and an insulating material 10 for a concrete ceiling of a normal ceiling, and a fastener 21, a fixing rod 22, and a connecting member 3;
When the work preparation step is completed, the support 13 and the slab top plate 14 are used to form the support 13 and the slab top plate 14 to form a ceiling concrete slab 1 of the building structure. Wow:
The fastener 21 having the center pipe 212 inserted into the lower portion of the heat insulating material 10 placed on the slab top plate 14 and protruding or buried upward and the pin 215 having the barb 214 formed thereon is a heat insulating material 10. ) Fastener 21 to combine a plurality of steps;
Arrangement of the heat insulating material (10) to place the heat insulating material (10) with a plurality of fasteners (21) placed on the slab top plate (14):
A reinforcing bar (12) reinforcing step of arranging reinforcing bars (12) in order to maintain durability while providing a separation distance using a plurality of spacers (16) on the heat insulating material (10);
The fixing portion 223 of the fixing rod 22 is directly fixed to the fixing portion 213 of the fastener 21, or the fixing portion 213 of the fastener 21 and the binding portion 223 of the fixing rod 22 are fixed. A fixing rod 22 fastening step of coupling the fixing rod 22 through a connecting member 3 connecting therebetween;
A concrete (11) pouring step including reinforcing bars (12) and fixing rods (22) or connecting members (3) connected in upper and alternate positions of the heat insulating material (10);
A concrete slab (1) forming step of completing the concrete slab (1) provided by curing the poured concrete (11); And
After the concrete slab (1) is formed, a method for installing a fixing device for a heat insulating material for a reinforced concrete ceiling, characterized in that it consists of a step for removing the support (13) and the slab top plate (14) for the formwork.

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