KR20170057701A - Member for Open Joint System And Exterior Wall System of Using The Same - Google Patents

Abstract

An embodiment of the present invention relates to a method of forming an exterior insulation wall with a truss insulation frame and installing a finishing material in an exterior wall of a construction and, more specifically, relates to a method of finishing the exterior with a plate material such as granite stone or tiles by applying an open joint system.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a member for an open joint system,

The present embodiment relates to a member for an open joint system and an external heat insulating system using the same.

The contents described in this section merely provide background information on the present embodiment and do not constitute the prior art.

In general, the dry exterior wall using the metal frame as the base frame is constructed as follows: 1) The metal frame is installed on the wall horizontally and vertically in consideration of the designed pattern by welding or bolt assembly method (metal fastener, To the structure); 2) inserting and installing the insulation between the frames using a grating method; 3) fix and attach factory finished panels to each joint location with screws or dedicated brackets; 4) If the joint is to be exposed (open-joint system) without caulking with a silicone sealant or caulking joints, use a metal foil or waterproof cloth between the frame and the finish before attaching the finish panel After the waterproof treatment, the exterior panel installation works.

If there is a concrete structural wall, attach the insulation to the wall first, install the metal frame in the same way as above (1), and apply as in 3) ~ 4) above. At this time, in order to fix and install the metal frame on the wall, the fastener part is separated from the fastener, the fastener is installed, and the urethane foam is filled to secure the heat insulation performance.

  The method of inserting and inserting the insulation material between the metal frame frames is a method of inserting and installing the insulator between the metal frames because the insulation is cut off due to the metal frame having a thermal conductivity about 1000 times higher than that of general insulation. Resulting in significant energy loss. Even when the heat insulating material is first attached to the wall and the metal frame is installed, the heat energy is conducted to the metallic material having a high thermal conductivity, the heat insulating material is peeled off around the fastener and the urethane foam is filled with the insulating material. There is a problem in that a lot of energy loss occurs in the thermal bridge. In such a building, significant heat loss and dew condensation occur in proportion to the large and small spacing of each piping structure according to the finishing dimensions of the panel (the dividing dimension of the joint). In addition, most of the process is carried out in the field. At this time, in the process of cutting and processing the pipes directly, the part of the body is damaged by the cutting machine in the process of welding, and the risk of electric shock and fire is very high. It occurs frequently.

The closed-joint system is a sealing waterproofing method to prevent inflow of rainwater, and adopts a method of caulking sealant of an organic chemical product into a joint between each finishing panel. In this case, when the dust or contaminants in the gaps between the joints are not completely removed, the sealant is peeled off from the finishing material and leaks or is exposed to the outside air, which causes contamination, discoloration, deterioration, Causing a problem that the appearance is disturbed by discoloring or causing discoloration, and leakage is caused to the severely deteriorated part. In addition, after the exterior material is stored in the sunlight, the heated air or heat is transferred to the room through convection or conduction without rapidly dissipating heat, thereby deteriorating the heat insulation performance.

In order to overcome the problems of the closed-joint system, an open-joint system is adopted. This open-joint system is not a method of simply exposing joints, but rather a scientific method based on iso-pressure theory. It is a structure in which heat is diffused into the air even when the joint is opened, It is advantageous in securing the heat insulating performance.

Therefore, it is essential to install a waterproof layer between the insulation and the finishing material so as to prevent the inflow of rainwater into the system, and to secure airtightness so as to prevent the inflow of hot or cold air. In addition, the incoming rainwater must have a structure that can be drained. However, these methods also have considerable problems in waterproofing, and in order to solve them completely, careful planning and delicate construction management are required from the design stage.

Nevertheless, the reality is that it is difficult to solve the leakage problem. Despite the many advantages of the open-joint system, the closed-joint system that caulked with sealant is mainly applied. As a result, significant cost of building maintenance and management costs have been incurred to clean the contaminated walls and repair the leak, or to replace the failed sealant due to deterioration.

It is an object of the present invention to 1) fundamentally solve the problems of 1) thermal bridging in a frame generated in a conventional method, thermal bridging in a fastener, disconnection of a heat insulating material or a vulnerable portion; 2) simplify the process of installation of the structure frame by welding in the field using only bolts and screws and exclude site welding; 3) The truss insulation frame is used only as a vertical member and implements a structure that allows various types of insulation between each insulation frame to be installed securely without any loss of cross-section or insulation line; 4) By adopting the open-joint system as the method of installing the exterior panel, it is possible to reduce the building maintenance cost by forming a complete watertight layer and airtightness between the frame and the finishing material; For this purpose, all members are structurally safe against self weight and external force, and their manufacturing and installation methods are improved to ensure seismic performance and interlayer displacement follow-up performance.

 Particularly, the present invention is an eco-friendly method which is advantageous for cost reduction, shortening of air, improvement of building energy efficiency, and reduction of maintenance cost by sufficiently securing the advantages of the building exterior insulation method and simply improving manufacturing and installation methods.

According to one aspect of the present embodiment, in the member 700 for an open joint system which is fixed to the heat insulating frame 100 on the heat insulating wall 140 including the heat insulating frame 100 and the heat insulating member 110, The member 700 for a joint system comprises: a horizontal member 710 horizontally installed at an interval of the joint to the heat insulating wall 140; A wall coupling portion 910 coupled to the horizontal member 710 at upper and lower portions of the horizontal member 710 and coupled to and fixing the horizontal member 710 to the heat insulating frame 100, And a horizontal recombination unit (920) coupled with the horizontal member (710); An exterior panel 760 provided on the heat insulating wall 140 at predetermined intervals in the up, down, left, and right directions; A first exterior panel coupling plate 1010 installed on the exterior panel 760 and coupled to the exterior panel 760 to fix the exterior panel 760 to the horizontal member 710, An upper bracket 740 including a first calibrated decision fixture 1020 that engages with the first alignment fixture 730; A second external panel coupling plate 1110 provided below the external panel 760 and coupled to the upper portion of the external panel 760 to fix the external panel 760 to the horizontal member 710, A lower bracket 750 including a second adjustable brim portion 1120 that engages with the second brim portion 730; A horizontal reassembly plate 1210 for engaging the horizontal member 710 to engage the upper bracket 740 or the lower bracket 750 and the horizontal member 710, And a lower bracket engaging portion 1230 engaging with the upper bracket 750 and the lower bracket 750. The horizontal member 710 has a reference vertical Which includes a first connection part 1320 and a second connection part 1330 protruding from the reference vertical part 1310 for coupling with the adjustment plate 730 and the horizontal member fixing plate 720, Thereby providing a usable member.

Further, the heat insulating frame 100; A heat insulating material (110) filled in the space between the heat insulating frames (100) installed perpendicularly to the wall by a grid; And a member (700) for an open joint system fixed to the heat insulating frame (100), the heat insulating frame comprising: an upper frame (200); A lower frame 300; A pair of reticle reinforcing bars 400 bent in a zigzag shape and extending long; And a frame insulating material 420. The upper frame 200 has an inner vertical portion 220 formed by vertically bending and extending both ends of an inner horizontal portion 210 in a cross section and the inner vertical portion 220 Each of the inner vertical portions 220 is bent and extended perpendicularly to each other to form an intermediate horizontal portion 230. The end portion of the intermediate horizontal portion 230 has a shape of ' Shaped bent portion 240 extends to the outer horizontal portion 250 and the outer horizontal portion 250 extends from the end to the inner side The lower frame 300 is a member having a cross section in which both ends of the first upper horizontal portion 310 are perpendicular to the vertical direction, So that the joint portion 320 is not elongated, and the first The second upper horizontal portion 330 is bent and extended vertically in a direction away from the upper horizontal portion 310 to form a second upper horizontal portion 330. The second upper horizontal portion 330 is bent at an end portion of the first upper horizontal portion 310 The lower vertical portion 340 is bent and extended vertically in the direction of approaching the first upper horizontal portion 310 at the end of the lower vertical portion 340, The pair of reticle reinforcements 400 are welded between the upper frame 200 and the lower frame 300 and the lower frame 300 is welded to the upper frame 200. [ And the frame insulator 420 is filled in the remaining space between the upper frame 300 and the lower frame 300.

The method of manufacturing an external thermal insulation system according to the present invention may further include the step (S100) of joining the heat insulating frame 100 by welding the lattice reinforcing bar 400 between the upper frame 200 and the lower frame 300; A step S200 of vertically coupling the heat insulating frame 100 to the wall body 130 using the fastener 500; (S300) of completing the heat insulating wall body (140) by filling the heat insulating material (110) with the grid between the heat insulating frames (100); A step S400 of attaching the waterproof paper 600 to the heat insulating wall 140; A step (S500) of installing the horizontal member (710) on the heat insulating wall (140); A step S600 of coupling the adjusting plate 730 to the horizontal member 710; A step S700 of coupling the upper bracket 740 and the lower bracket 750 to the exterior panel 760; And joining the exterior panel 760 to the adjustment plate 730 coupled to the horizontal member 710. The method includes the steps of:

The present invention can achieve the following eco-friendly effect. Using the truss insulation frame unit, 1) it is possible to reduce electric energy by eliminating construction by welding at installation site; 2) By using truss insulation frame instead of conventional square pipe, it is possible to reduce the amount of generated CO2 by reducing the amount of iron used as source material; 3) It is possible to reduce the energy consumption of the whole building because it prevents heat bridging by existing steel square pipe and eliminates fundamental insulation and vulnerable parts, thereby improving energy efficiency of heating and cooling; 4) The unitized system is used to eliminate the source of welding in the field, so it can reduce the safety accidents such as electric shock or fire in the field; 5) It can contribute to shorten the time and cost by saving labor force.

In addition, OPEN JOINT SYSTEM based on the theory of equipotential pressure is applied. 6) Sealant caulking is excluded to prevent contamination of exterior material by sealant, thus reducing maintenance cost. 7) The structural safety is ensured by completely eliminating the lamination structure which transfers the weight of the upper part to the lower part when it is applied to the finishing of heavy materials such as granite; 8) It is possible to discharge the hot heat of the exterior material which is heated by the open joint by the open joint, so that the effect of lowering the temperature of the wall can be obtained and the heat insulating performance can be stably realized.

1 (a) is a side view of a heat insulating wall provided with a heat insulating frame and a heat insulating material on a concrete wall according to an embodiment of the present invention.
1 (b) is a front view of a heat insulating wall provided with a heat insulating frame and a heat insulating material on a concrete wall according to an embodiment of the present invention.
2 is a cross-sectional view of an upper frame according to an embodiment of the present invention.
3 (a) is a cross-sectional view of a lower frame according to an embodiment of the present invention.
3 (b) is a side view of a lower frame according to an embodiment of the present invention.
4 (a) is an assembled perspective view of a heat insulating frame in which a heat insulating material according to an embodiment of the present invention is not filled.
4 (b) is an assembled sectional view of a heat insulating frame filled with a heat insulating material according to an embodiment of the present invention.
5 is a perspective view of a fastener according to one embodiment of the present invention.
6 is a front view showing a stepwise installation of a heat insulating wall according to an embodiment of the present invention in a concrete wall.
7 is a cross-sectional view illustrating a member for a combined open joint system in accordance with an embodiment of the present invention.
8 is a view for explaining a bolt used in a member for an open joint system according to an embodiment of the present invention.
9 (a) is a plan view showing a horizontal material fixing plate according to an embodiment of the present invention.
9 (b) is a cross-sectional view taken along line A-A 'in FIG. 9 (a).
10 (a) is a front view showing an upper bracket according to an embodiment of the present invention.
10 (b) is a plan view showing an upper bracket according to an embodiment of the present invention.
10 (c) is a cross-sectional view taken along the line B-B 'in FIG. 10 (b).
11 (a) is a plan view showing a lower bracket according to an embodiment of the present invention.
11 (b) is a cross-sectional view taken along line C-C 'of FIG. 11 (a).
12 (a) is a plan view showing an adjusting plate according to an embodiment of the present invention.
12 (b) is a cross-sectional view taken along the line D-D 'in FIG. 12 (a).
13 is a cross-sectional view of a horizontal member according to an embodiment of the present invention.
FIG. 14 is a perspective view showing a stepwise installation of a heat insulating wall and an open joint system member according to an embodiment of the present invention.
15 is a flowchart illustrating a method of installing an external heat insulating wall using a heat insulating frame and an open joint system member according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that, in the drawings, like reference numerals are used to denote like elements in the drawings, even if they are shown in different drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present disclosure rather unclear.

In describing the constituent elements of this embodiment, first, second, i), ii), a), b) and the like can be used. Such a code is intended to distinguish the constituent element from other constituent elements, and the nature of the constituent element, the order or the order of the constituent element is not limited by the code. It is also to be understood that when an element is referred to as being "comprising" or "comprising", it should be understood that it does not exclude other elements unless explicitly stated to the contrary, do.

Hereinafter, a member for an open joint system according to the present invention and an external heat insulation system using the same will be described with reference to the accompanying drawings.

1 is a side view and a front view of a heat insulating wall provided with a heat insulating frame and a heat insulating material on a concrete wall according to an embodiment of the present invention. 2 is a cross-sectional view of an upper frame according to an embodiment of the present invention. 3 is a view illustrating a lower frame according to an embodiment of the present invention. 4 is an assembled perspective view of an adiabatic frame according to an embodiment of the present invention.

As shown in FIG. 1, the heat insulating frame 100 is vertically installed in the concrete wall 130. The heat insulating frame 100 is coupled to the concrete wall through the fastener 120 and the heat insulating wall 140 is completed by inserting the heat insulating material 110 between the heat insulating frames 100 in a grid form.

The heat insulating frame 100 used in the heat insulating wall bracket 140 according to the present embodiment does not require welding by welding in the field, and the opening and closing phenomenon by the existing steel square pipe is prevented, The wall of the external heat insulating system using the improved open joint system can be installed by connecting the horizontal member 710 (see FIG. 8) to the heat insulating frame 100. [

The heat insulating frame 100 according to the present embodiment includes an upper frame 200, a lower frame 300, and a lattice reinforcing bar 400. The upper frame 200 and the lower frame 300 are elongated members in the cross-sectional shapes of FIGS. 2 and 3, and the lattice reinforcing bar 400 is a reinforcing bar that is bent in a zigzag shape and extended long.

Hereinafter, the shape of the upper frame 200 and the lower frame 300 and the coupling structure of the heat insulating frame 100 will be described with reference to FIGS. 2 to 4. FIG.

2, the cross section of the upper frame is formed by vertically bending and extending both ends of the inner horizontal portion 210 to form an inner vertical portion 220, and each inner vertical portion 220 at the end of the inner vertical portion 220 The portion 220 is bent and extended perpendicularly to the direction opposite to each other to form the middle horizontal portion 230. The end of the intermediate horizontal part 230 is vertically bent into a 'C' shape to have a 'C' shape bent part 240 and a 'C' shape bent part 240 to an outer horizontal part 250.

 The outer horizontal part 250 is bent and extended vertically in the direction of the inner horizontal part 210 at the end to form an external vertical part 260. The external vertical part 260 includes an intermediate horizontal part 230, (210).

The inner horizontal portion 210, the inner vertical portion 220, the middle horizontal portion 230 and the 'C' shaped bent portion 240 are provided with bolt grooves (not shown) for inserting and assembling the T-shaped bolts 810 270, and the bolt groove portion 270 allows the head portion of the T-shaped bolt 810 to be received, so that it is determined in consideration of the size of the inserted T-shaped bolt 810.

The inner vertical part 220 and the outer horizontal part 250 function to secure the position of the lattice reinforcement when joining the heat insulating frame and to facilitate the mutual welding.

3, both ends of the first upper horizontal portion 310 are vertically bent to form a joint portion 320, and the joint portion 320 does not extend long, And is bent and extended vertically in a direction away from the first upper horizontal portion 310 to form a second upper horizontal portion 330. The second upper horizontal portion 330 bends and extends vertically in the direction away from the first upper horizontal portion 310 at the end to form the lower vertical portion 340.

The lower horizontal portion 350 is bent and extended perpendicularly to the first upper horizontal portion 310 at an end of the lower vertical portion 340 to form a lower horizontal portion 350, Lt; RTI ID = 0.0 > 330 < / RTI >

3 (b), the lower vertical portion 340 of the lower frame 300 includes a slot hole 360 for engaging with the fastener 120 using a bolt (not shown) The slot holes 360 are provided at regular intervals along the longitudinal direction of the lower frame 300.

The length between the outer vertical portions 260 of the upper frame 200 is the same as the length between the lower vertical portions 340 of the lower frame 300. The length of the inner horizontal portion 210 of the upper frame 200 is shorter than the length of the first upper horizontal portion 310 of the lower frame 300 so that the lattice reinforcing bars 400 are disposed in the and is arranged in a trapezoidal shape as shown in FIG.

The lattice reinforcing bars 400 are more effective in an external force acting in the transverse direction as compared with a case where the lattice reinforcing bars 400 are disposed in parallel with each other, and thus the structure is improved in response to buckling of the frame.

As shown in FIG. 4, the lattice reinforcing bar 400 is a reinforcing bar that is continuously bent in a zigzag form. The upper frame 200 and the lower frame 300 may be formed such that a part of the bent portions 410 of the pair of lattice reinforcing bars 400 is formed in the inner vertical portion 220 of the upper frame 200 And the other of the bent portions 410 of the lattice reinforcing bar 400 is welded to and joined to the outer horizontal portion 250 positioned at the front portion of the inner vertical portion 220 and the edge portion between the middle horizontal portions 230, Is welded and joined to both ends of the first upper horizontal portion 310 and the second upper horizontal portion 330 of the base 300.

The remaining portion of the upper frame 200 and the lower frame 300 except for the lattice reinforcement 400 is filled with the frame insulating material 420.

5 is a perspective view of a fastener according to one embodiment of the present invention.

A method of joining the heat insulating frame 100 to the concrete wall 130 using the fastener 120 and the fastener 120 for connecting the heat insulating frame 100 to the concrete wall body 130 will be described.

5, the fastener 120 according to the present embodiment includes a frame coupling plate 520 and a wall coupling plate 510. The frame coupling plate 520 and the wall coupling plate 510 are ' L 'shape.

Since the fastener slot hole 530 of the frame engaging plate 520 is engaged with the slot hole 360 of the lower frame 300, the frame engaging plate 520 includes two fastener slot holes 530, The spacing between the two fastener slot holes 530 of the plate 520 is the same as the spacing of the slot holes 360 of the lower frame 300.

The wall coupling plate 510 includes a set anchor groove 540 and attaches the set anchor to the large creek wall body 130 through the set anchor groove 540 to fasten the fastener 120 to the concrete wall 130 .

6 is a front view showing a stepwise installation of a heat insulating wall according to an embodiment of the present invention in a concrete wall.

As shown in FIG. 6, the heat insulating frame 100 is coupled to the concrete wall 130 by the fastener 120. When the heat insulating frame 100 is vertically coupled to the concrete wall 130, the heat insulating material 110 is interposed between the heat insulating frames 100 to complete the heat insulating wall 140 as shown in FIG.

The moisture permeable and waterproof paper 600 is installed on the heat insulating wall body 140 using a bonding means such as double-sided adhesive tape on the heat insulating wall body 140 so that water or moisture does not permeate into the heat insulating wall body 140.

Hereinafter, the configuration and configuration of the member 700 for an open joint system according to the present embodiment, which is provided on the heat insulating wall 140, will be described.

7 is a cross-sectional view illustrating a member for a combined open joint system in accordance with an embodiment of the present invention. 8 is a view for explaining a bolt used in a member for an open joint system according to an embodiment of the present invention.

The member 700 for an open joint system according to the present embodiment forms a complete watertight layer and airtightness between the heat insulating frame 100 and the exterior panel 760 and is structurally safe against self weight and external force, A leveling plate 720, an adjusting plate 730, an upper bracket 740 and a lower bracket 750 in order to ensure the following performance.

The horizontal member 710 is horizontally long on the heat insulating wall 130 and uses two horizontal member fixing plates 720 to fix the horizontal member 710 to the heat insulating wall 130. The horizontal member fixing plate 720 is made of T Type bolt 810 to the heat insulating frame 100, as shown in Fig. At this time, the head portion of the T-shaped bolt 810 is fitted into the bolt groove portion 270 of the upper frame 200 of the heat insulating frame 100.

An adjustment plate 730, an upper bracket 740 and a lower bracket 750 are used to fix the outer panel 760 to the horizontal member 710. [ The upper bracket 740 is coupled to the upper portion of the outer panel 760 and coupled to the adjustment plate 730 and the lower bracket 750 is coupled to the lower panel And is combined with the adjustment plate 730.

Therefore, as shown in FIG. 14, the exterior panels 760 are installed on the heat insulating walls 140 at predetermined intervals in the up, down, left, and right directions.

Hereinafter, the configuration of each component of the member 700 for an open joint system will be described with reference to Figs. 9 to 13. Fig.

9 is a view showing a horizontal material fixing plate according to an embodiment of the present invention.

The horizontal plate fixing plate 720 is coupled to the horizontal plate 710 at the upper and lower portions of the horizontal member 710 and the horizontal member 710 is coupled to and fixed to the heat insulating frame 100. The horizontal plate fixing plate 720 is fixed to the heat insulating frame 100 And a horizontal recombination portion 920 for coupling with the horizontal member 710 and a wall coupling portion 910 including a fixing plate slot hole 930 for coupling.

The wall coupling portion 910 is a rectangular plate and includes a fixing plate slot hole 930 at its center. The horizontal coupling portion 920 is bent perpendicularly at the end of the wall coupling portion 910, And is perpendicular to the direction of approaching the bolt hole plate 910. As shown in Fig. That is, since the horizontal recombination unit 920 has a bent shape, the horizontal recombination unit 920 is not easily separated when it is combined with the horizontal member 710.

10 is a view showing an upper bracket according to an embodiment of the present invention.

The upper bracket 740 couples to a control panel 730 coupled to the lower region of the horizontal in a lower region of the horizontal as shown in FIG. 8 with a bracket connected to the top of the exterior panel.

The upper bracket 740 includes a first external panel coupling plate 1010 and a first adjusted panel coupling portion 1020. The first external panel coupling plate 1010 is coupled to the exterior panel 760 on one side, The first external panel coupling plate 1010 includes the first bracket slot hole 1030 since the first external panel coupling plate 1010 is coupled using the bolts 820.

The first adjustment panel 1010 is protruded from the other surface of the first panel panel assembly 1010 and the first adjustment panel panel 1020 is fixed to the first panel panel 1010 with the first bracket slot 1030 And is protruded perpendicularly to the first external panel coupling plate 1010 and has a "b" shape bent in the direction of the first bracket slot hole 1030, The first adjustment plate 1020 includes two bracket bolt holes 1040 for engagement with the adjustment plate 730 and is coupled using a hexagonal bolt 840.

An adjustment plate receiving portion 1050 is formed on the other surface of the first external panel coupling plate 1010 at a portion adjacent to the first adjusting and coupling portion 1020. The portion of the adjusting plate receiving portion 1050 where the adjusting plate 730 abuts The first external panel coupling plate 1010 is formed to have a lower height than other portions of the other surface thereof to form a groove.

11 is a view illustrating a lower bracket according to an embodiment of the present invention.

The lower bracket 750 engages with the adjustment plate 730 coupled to the upper region of the horizontal in the upper region of the horizontal as shown in FIG. 11 with a bracket connected to the lower portion of the exterior panel.

The lower bracket 750 includes a second external panel coupling plate 1110 and a second adjusted panel coupling portion 1120. The second external panel coupling plate 1110 is coupled to the external panel 760 on one side, The second external panel coupling plate 1110 includes the second bracket slot hole 1130 because it is coupled using the bolt 820. [

The second adjusting plate 1130 is protruded from the other surface of the lower bracket 750 by a predetermined distance from the second bracket slot 1130 and the second adjusting plate 1130 is fixed to the outer surface of the adjusting plate 730 3 protruding portion 1233 (see FIG. 12), and is bent in a direction opposite to the direction of the second bracket slot hole 1130 to have a shape of 'A'.

The lower bracket 750 is positioned below the exterior panel 760 and is fitted to the adjustment plate 730. Unlike the upper bracket 740, the bolt hole 1040 is not included.

12 is a view showing an adjustment plate according to an embodiment of the present invention.

The adjustment panel 730 is a member for finely adjusting the installation height and the projection depth of the exterior material and connects the horizontal panel 710 and the exterior panel 760 to each other and transmits the load of the exterior panel 760 to the horizontal panel 710 And includes a horizontal reassembly plate 1210, an upper bracket coupling portion 1220, and a lower bracket coupling portion 1230.

The horizontal re-combination plate 1210 includes a regulating plate slot hole 1240 through which the bolt 830 passes since it is in contact with the horizontal member 710 on one side and engages with the horizontal member 710 through the bolt.

The upper bracket coupling portion 1220 and the lower bracket coupling portion 1230 are formed at both ends of the horizontal re-combination plate 1210 in such a manner that the regulating plate 730 is aligned with the horizontal direction of the horizontal re-combination plate 1210 The lower bracket coupling portion 1230 is formed and the upper bracket coupling portion 1220 is formed in the opposite direction.

12, the upper bracket coupling portion 1220 includes a protrusion 1222 vertically protruded from the end of the horizontal recombination plate 1210 in the other surface direction, and a protrusion 1222 protruding from the end portion of the horizontal re- And the protruding portion 1224 protruding perpendicularly to the other surface direction forms a ┗ ┛ shaped bolt groove 1226. [

Shaped bolt groove 1226 serves as a nut when the adjusting plate 730 is engaged with the upper bracket 1220 and the hexagonal bolt 840 so that the bracket bolt hole 1040 of the upper bracket 1220, Tighten the hexagon bolts and tighten the bolts to tighten and loosen the screws.

The lower bracket coupling portion 1230 includes a projection 3 portion 1233 extending from the end of the horizontal recombination plate 1210 in an opposite direction to the upper bracket coupling portion 1220 and a projection portion 1233 extending from the end portion of the horizontal coupling portion 1230, (1236) extending in a portion spaced apart by a predetermined thickness (1120).

The lower bracket coupling portion 1230 has a longer length of the protrusion portion 1236 than the protrusion 3 portion 1233 in order to stably fix the lower bracket 750.

13 is a cross-sectional view of a horizontal member according to an embodiment of the present invention.

The horizontal member 710 is elongated in cross section of the horizontal member 710 as shown in Fig. 13 in the construction of one of the members for the open joint system which is horizontally installed at the joint wall in the insulating wall 140. [

The cross section of the horizontal member 710 includes a reference vertical portion 1310, a first connection portion 1320, and a second connection portion 1330 as shown in FIG. One side of the reference vertical part 1310 is flat on the side fixed to the heat insulating wall 140. On the opposite side of the reference vertical part 1310, the first connection part 1320 and the second connection part 1330 are formed at both ends of the reference vertical part, Respectively.

Each of the first connection portion 1320 and the second connection portion 1330 includes fixed plate fitting portions 1340a and 1340b, adjustment plate fitting portions 1350a and 1350b and fixing portions 1360a and 1360b. The fixed plate coupling portions 1340a and 1340b are formed on the opposite surfaces of the first coupling portion 1320 and the second coupling portion 1330, which are portions of the horizontal plate fixing plate 820 that are engaged with the horizontal recombination portion 920, do.

Shaped groove is formed inwardly to receive the horizontal recombination portion 920 of the horizontal plate 720 at a portion where the end of the reference vertical portion 1310 starts to protrude. The 'a' shaped groove corresponds to the size and shape of the horizontal recombination portion 920 of the horizontal member fixing plate 720.

Therefore, the horizontal member 710 is horizontally inserted between the two horizontal fixing plates 720 fixed to the heat insulating frame 100 in advance. When the horizontal member 710 and the horizontal member fixing plate 720 are coupled to each other, the reference vertical plate 1310 and the wall coupling portion 910 of the horizontal member fixing plate 720 abut on the heat insulating frame 100 to form a flat surface.

The adjustment plate joint portions 1350a and 1350b are formed on the surfaces of the first connection portion 1320 and the second connection portion 1330 that are opposed to each other and which are engaged with the horizontal recombination plate 1210 of the adjustment plate 730, And is located farther from the portion 1310 than the fixed decision fitting portions 1340a and 1340b. Since the horizontal member 710 and the adjustment plate 730 are coupled using the bolts 830 and the nuts 835, the adjustment plate fastening portions 1350a and 1350b are formed inwardly of a 'T' shape inward, Is received.

The fixing portions 1360a and 1360b abut on the projection 3 portion 1233 of the adjustment plate 730 and the projection 2 portion 1224 or the projection 4 portion 1236 of the adjustment plate 730 after the adjustment plate 730 is coupled to the horizontal member. And the position at which the fixing portions 1360a and 1360b protrude from the adjustment judging portions 1350a and 1350b serves to prevent the fixing portions 1360a and 1360b from being displaced from the first connecting portions 1320 and the second connection part 1330. [0156]

12 and 13, when the horizontal member 710 and the adjustment plate 730 are brought into contact with each other, the horizontal member 710 and the adjustment plate 730 are engaged with each other, . 10 and 11, the upper bracket 740 and the lower bracket 750 may be provided with projections and depressions such as threaded portions at the portions where the anchor bolts 820 are tightened, so that the upper and lower brackets 740 and 750 And is prevented from slipping out from the exterior panel 760.

Hereinafter, a method of installing an external heat insulating wall using the heat insulating frame and the open joint system member according to the present embodiment will be described.

FIG. 14 is a perspective view showing an outer wall and members for an open joint system installed step by step according to an embodiment of the present invention. FIG. 15 is a flowchart illustrating a method of installing an external heat insulating wall using a heat insulating frame and an open joint system member according to an embodiment of the present invention.

The lattice reinforcement 400 is welded between the upper frame 200 and the lower frame 300 to join the heat insulating frame 100 (S100).

The upper frame 200 and the lower frame 300 may be formed such that a part of the bent portions 410 of the pair of lattice reinforcing bars 400 is formed in the inner vertical portion 220 of the upper frame 200 And the other of the bent portions 410 of the lattice reinforcing bar 400 is welded and joined to the lower horizontal portion 250 and the outer horizontal portion 250, Is welded and joined to both ends of the first upper horizontal portion 310 and the second upper horizontal portion 330 of the frame 300.

The remaining portion of the upper frame 200 and the lower frame 300 except for the lattice reinforcement 400 is filled with the heat insulating material 110.

A process S200 of vertically joining the heat insulating frame 100 to the concrete wall body 130 using the fastener 500 is performed.

The fastener 120 is composed of a frame coupling plate 520 and a wall coupling plate 510. The frame coupling plate 520 and the wall coupling plate 510 are vertically connected in an L shape. The frame coupling plate 520 is coupled to the heat insulating frame 100 with a bolt and the wall coupling plate 510 is coupled to the concrete wall 130 using a set anchor.

A process S300 of completing the heat insulating wall 140 is performed by filling the heat insulating material 110 between the heat insulating frames 100 with a grid.

When the heat insulating frame 100 is vertically coupled to the concrete wall 130, the heat insulating material 110 is interposed between the heat insulating frames 100 to complete the heat insulating wall 140 as shown in FIG.

(S400) of attaching the moisture-permeable and waterproof paper 600 to the heat insulating wall body 600.

The moisture permeable and waterproof paper 600 is installed on the heat insulating wall body 140 using a bonding means such as double-sided adhesive tape on the heat insulating wall body 140 so that water or moisture does not permeate into the heat insulating wall body 140.

And the horizontal member 710 is installed on the heat insulating wall (S500).

The horizontal member 710 is horizontally long on the heat insulating wall 130 and uses two horizontal member fixing plates 720 to fix the horizontal member 710 to the heat insulating wall 130. The horizontal member fixing plate 720 is made of T Type bolt 810 to the heat insulating frame 100, as shown in Fig. At this time, the head portion of the T-shaped bolt 810 is fitted into the bolt groove portion 270 of the upper frame 200 of the heat insulating frame 100.

And the process of joining the adjustment plate 730 to the horizontal member 710 (S600).

The adjustment plate fixing portions 1350a and 1350b of the horizontal member 710 and the horizontal re-combination plate 1210 of the adjustment plate 730 are coupled using the bolts 830 and the nuts 835. [ At this time, the head of the bolt is inserted into the adjustment bridging portions 1350a and 1350b of the horizontal member 710 with the T-shaped bolt.

The upper bracket 740 and the lower bracket 750 are coupled to the external panel 760 (S700).

The upper bracket 740 and the lower bracket 750 are assembled to the outer panel 760 first. The upper bracket 740 and the lower bracket 750 are assembled using an anchor bolt 820. [

The external panel 760 is coupled to the adjustment plate 730 coupled to the horizontal member 710 (S800).

The lower bracket 750 of the outer panel 760 assembled with the upper bracket 740 and the lower bracket 750 is inserted into the lower bracket coupling portion 1230 of the adjustment plate 730 installed in the horizontal member 710, The bolts are inserted into the bolt holes of the upper and lower brackets 740 to fasten the upper bracket coupling portions 1220 and the hexagonal bolts 840 to adjust tightening and loosening.

By using the heat insulating frame 100 and the member 700 for an open joint system according to the present invention, it is possible to efficiently apply various kinds of exterior finishes according to the characteristics of the site.

The present invention is not intended to limit the scope of the present invention but to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the claims, and all technical ideas considered to be equivalent or equivalent thereto should be construed as being included in the scope of the present invention.

100: a heat insulating frame 110: a heat insulating material
120: fastener 200: upper frame
300: Lower frame 400: Lattice bar
600: Breathable waterproofing paper 710: Horizontal material
720: horizontal plate fixing plate 730: adjusting plate
740: upper bracket 750: lower bracket
760: external panel

Claims (14)

A member (700) for an open joint system to be fixed to the heat insulating frame (100) on a heat insulating wall (140) including a heat insulating frame (100) and a heat insulating material (110)
The member 700 for an open joint system comprises:
A horizontal member 710 installed horizontally at an interval of the joints in the heat insulating wall 140;
A wall coupling portion 910 coupled to the horizontal member 710 at upper and lower portions of the horizontal member 710 and coupled to and fixing the horizontal member 710 to the heat insulating frame 100, And a horizontal recombination unit (920) coupled with the horizontal member (710);
An exterior panel 760 provided on the heat insulating wall 140 at predetermined intervals in the up, down, left, and right directions;
An upper bracket 740 installed on the exterior panel 760 and fixing the exterior panel 760 to the horizontal member 710;
A lower bracket 750 installed at a lower portion of the exterior panel 760 and fixing the exterior panel 760 to the horizontal member 710; And
A horizontal reassembly plate 1210 which engages with the horizontal member 710 to engage the upper bracket 740 or the lower bracket 750 with the horizontal member 710, And a lower bracket engaging portion 1230 engaging with the upper bracket 1220 and the lower bracket 750,
The upper bracket 740 includes a first external panel panel 1010 coupled to the upper panel 760 and a first adjustment panel 1020 coupled to the panel 730,
The lower bracket 750 includes a second external panel coupling plate 1110 coupled to an upper portion of the exterior panel 760 and a second adjustment and alignment portion 1120 coupled to the adjustment plate 730,
The horizontal member 710 includes a reference vertical portion 1310 abutting against the heat insulating wall 140, a first connection portion 1310 protruding from the reference vertical portion 1310 for engaging with the adjusting plate 730 and the horizontal member fixing plate 720, (1320) and a second connection (1330). The method according to claim 1,
The horizontal fixture plate 720 includes:
The wall coupling part 910 is a rectangular plate and includes a fixing plate slot hole 930 at the center thereof. The end face of the horizontal coupling part 920 is bent perpendicularly at the end of the wall coupling part 910, And has a taper perpendicular to the direction of approaching the bolt hole plate 910 after being bent perpendicularly in a direction away from the engaging portion 910,
And a T-shaped bolt (810) is passed through the fixing plate slot hole (930) of the horizontal fixing plate (720) to fix the horizontal fixing plate (720) to the heat insulating frame. 3. The method of claim 2,
The upper bracket 740 includes:
The first external panel coupling plate 1010 includes a first bracket slot 1030. The first external panel coupling plate 1010 is coupled to the exterior panel 760 using bolts from one side,
The first adjustable judgment joint portion 1020 is protruded at a predetermined distance from one end of the first external panel coupling plate 1010 far from the first bracket slot 1030, And has a "b" shape protruding perpendicularly to the coupling plate 1010 and bent in the direction of the first bracket slot 1030,
The first adjustment plate fastening part 1020 includes two bracket bolt holes 1040 for coupling with the adjustment plate 730,
The lower bracket 750 includes:
The second external panel coupling plate 1110 includes a second bracket slot 1130 and the second external panel coupling plate 1110 is coupled to the exterior panel 760 using bolts from one side,
The second adjustment plate coupling portion 1120 is protruded from the other surface of the lower bracket 750 at a predetermined distance from the second bracket slot hole 1130 and extends in a direction opposite to the second bracket slot hole 1130 Member for an open joint system having an "a" shape that is deflected into a " The method of claim 3,
The adjustment plate 730 includes:
The horizontal re-combination plate 1210 includes a regulating plate slot hole 1240 through which the bolt is inserted, the plate engaging with the horizontal member 710 through a bolt,
The upper bracket coupling portion 1220 and the lower bracket coupling portion 1230 are formed at both ends of the horizontal recombination plate 1210,
The upper bracket coupling portion 1220 includes a protrusion 1222 vertically protruded from the end of the horizontal recombination plate 1210 in the other surface direction and a protrusion 1222 protruding from a portion of the protrusion 1 parallel to the diameter of the head portion of the bolt The protruding portion 1224 protruding perpendicularly to the other surface direction forms a ┗ ┛ shaped bolt groove 1226,
The lower bracket coupling portion 1230 includes a protrusion 3 portion 1233 extending from the end of the horizontal recombination plate 1210 in a direction opposite to the upper bracket coupling portion 1220, (1236) that is spaced apart by a thickness of the second tuneable bristle portion (1120) of the first portion (750) and extends parallel to the projection (3). 5. The method of claim 4,
The horizontal member 710 includes:
One side of the reference vertical part 1310 is flat on the side fixed to the heat insulating wall 140 and the first connection part 1320 and the second connection part 1330 are formed on both sides of the reference vertical part 1320, Perpendicular to the longitudinal direction,
Each of the first connection portion 1320 and the second connection portion 1330 includes fixed plate fitting portions 1340a and 1340b and adjustment plate fitting portions 1350a and 1350b,
At the end of the reference vertical part 1310 where the protrusion of the first connection part 1320 and the second connection part 1330 starts, the horizontal connection part 920 ' A 'shaped groove is formed,
The adjustment plate fastening portions 1350a and 1350b are portions of the adjustment plate 730 which are engaged with the horizontal re-combination plate 1210, and the first connection portion 1320 and the second connection portion 1330, Formed,
The adjustment joint portions 1350a and 1350b are formed such that a 'T' shaped groove is formed inwardly inward to receive the head portion of the T-shaped bolt. A heat insulating frame (100) installed vertically to the concrete wall body (130);
A heat insulating material (110) filled in the space between the heat insulating frames (100) installed vertically to the concrete wall body (130) by grid inserting; And
A member (700) for an open joint system according to any one of claims 1 to 5, which is fixed to the heat insulating frame (100)
The heat insulating frame comprises:
An upper frame 200;
A lower frame 300;
A pair of reticle reinforcing bars 400 bent in a zigzag shape and extending long; And
And a frame insulation 420,
The upper frame 200 has an inner vertical portion 220 formed by vertically bending and extending both ends of the inner horizontal portion 210 in an end face thereof and an inner vertical portion 220 at an end of the inner vertical portion 220, The middle horizontal portion 230 is bent perpendicularly to form a 'c' -shaped shape, and the end portion of the middle horizontal portion 230 ' Shaped bent portion 240 extends to an outer horizontal portion 250 and the outer horizontal portion 250 is bent at an end portion in a direction perpendicular to the inner horizontal portion 210, And extending to form an outer vertical portion 260,
The lower frame 300 is vertically bent at both ends of the first upper horizontal portion 310 to form a joint portion 320. The joint portion 320 does not extend for a long time, The second upper horizontal part 330 is bent and extended vertically in a direction away from the first upper horizontal part 310 to form a second upper horizontal part 330, And is bent and extended vertically in the direction of approaching the first upper horizontal part 310 at the end of the lower vertical part 340 to form the lower horizontal part 340. [ And is a member extended in the form of forming the part 350,
The pair of reticle reinforcements 400 are welded between the upper frame 200 and the lower frame 300 and the remaining space between the upper frame 200 and the lower frame 300 is welded to the frame insulator 420) is filled. The method according to claim 6,
The length between the outer vertical portions 260 of the upper frame 200 is the same as the length between the lower vertical portions 340 of the lower frame 300, 210 are shorter than the length of the first upper horizontal portion 310 of the lower frame 300 so that the pair of lattice reinforcing bars 400 are arranged in a trapezoidal shape in the heat insulating frame 100. 8. The method of claim 7,
A portion of the bent portions 410 of the pair of lattice reinforcing bars 400 may be separated from the edge portion between the inner vertical portion 220 and the middle horizontal portion 230 of the upper frame 200, The other of the bent portions 410 of the pair of lattice reinforcing bars 400 is welded and joined to the outer horizontal portion 250 located in front of the first frame 220, And both ends of the horizontal part (310) and the second upper horizontal part (330). 9. The method of claim 8,
Wherein the lower vertical portion 340 of the lower frame 300 includes a slot hole 360 and the slot hole 360 is formed at an equal interval along the longitudinal direction of the lower frame 300, . 10. The method of claim 9,
The inner horizontal portion 210, the inner vertical portion 220, the intermediate horizontal portion 230 and the 'b' type bent portion 240 are formed by bolts 810, A groove portion 270 is formed,
The horizontal fixture plate 720 includes:
The wall coupling part 910 is a rectangular plate and includes a fixing plate slot hole 930 at the center thereof. The end face of the horizontal coupling part 920 is bent perpendicularly at the end of the wall coupling part 910, And has a taper perpendicular to the direction of approaching the bolt hole plate 910 after being bent perpendicularly in a direction away from the engaging portion 910,
The head portion of the T-shaped bolt 810 is inserted into the bolt groove portion 270 and the T-shaped bolt 810 is inserted into the fixed plate slot hole 930 of the horizontal member fixing plate 720, And fixing the heat insulating frame to the heat insulating frame. 11. The method of claim 10,
Further comprising a fastener (120) for coupling and securing the heat insulating frame to the concrete wall (130). 12. The method of claim 11,
The fastener (120)
Wherein the two fastener slot holes 530 include two fastener slot holes 530 and a fastener slot hole 530. The two fastener slot holes 530 include a frame engaging plate 520 engaging with the slot hole 360 of the lower frame 300 of the heat insulating frame 100 ); And
And a wall anchor plate 510 including a set anchor groove 540 and coupled to the large creek wall body 130 through the set anchor groove 540,
And the frame coupling plate 520 and the wall coupling plate 510 are vertically connected in an 'L' shape. 13. The method of claim 12,
The interval between the two fastener slot holes 530 is equal to the interval between the slot holes 360 of the lower frame 300,
Wherein the wall joint plate 510 attaches the set anchor to the concrete wall body 130 to thereby fasten the fastener 120 to the concrete wall body 130. A method of manufacturing an external thermal insulation system using the external insulation system of claim 13,
A step S100 of joining the heat insulating frame 100 by welding the lattice reinforcing bar 400 between the upper frame 200 and the lower frame 300;
A step S200 of vertically coupling the heat insulating frame 100 to the wall body 130 using the fastener 500;
(S300) of completing the heat insulating wall body (140) by filling the heat insulating material (110) with the grid between the heat insulating frames (100);
A step (S500) of installing the horizontal member (710) on the heat insulating wall (140);
A step S600 of coupling the adjusting plate 730 to the horizontal member 710;
A step S700 of coupling the upper bracket 740 and the lower bracket 750 to the exterior panel 760; And
(S800) joining the exterior panel (760) to the adjustment plate (730) coupled to the horizontal member (710).

Images