KR101607186B1 - Coupling Device for Apartment House Masonry Wall - Google Patents

Abstract

The present invention relates to a masonry wall connection apparatus for a masonry which can prevent a brick connection line and a steel wire from being separated from the masonry connection plate, A tie-shaped rib 42 which forms an oil groove 41; Semicircular grooves (45) (46) symmetrically arranged in parallel to each other inside the tee groove (41); A bent portion 36 formed at an end portion of the elastic latching portion 32; A flow preventing groove 48 formed in the tie rib 42 for insertion of the bent portion 36; And a wire stopper (50) which is bent into a zigzag shape and inserted simultaneously into two adjacent tooth grooves (41) to fix the elastic catching portions (32, 34) and the steel wire (26) ).

Description

{Coupling Device for Apartment House Masonry Wall}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a masonry wall connection apparatus for a masonry used for imparting a mechanical binding force between an inner wall and a masonry brick, and more particularly to a masonry wall connection apparatus for a masonry wall ≪ / RTI >

Generally, masonry walls are constructed by stacking bricks in a uniform pattern. Masonry walls are used to stack the upper and lower bricks in half lengthwise direction. Masonry is used to connect the masonry to the work site. It is widely applied to the wall construction where no load is applied, and it has a merit that it is possible to burrow various pipes simply because it is simpler than the reinforced concrete when grooved or perforated grooves are formed on the surface of the masonry wall.

When a heat insulating material is provided between the masonry brick and the inner wall constituting the masonry wall, it is difficult to join the masonry wall between the masonry brick and the inner wall. Thus, the inner wall and the masonry brick are jointed together using a connecting device.

An example of such a conventional wall-to-wall connection apparatus is shown in FIGS. 1 and 2. Reference is made to a state in which a plurality of grooves 11a, 11b and 11c in a concavo-convex shape and a brick connection plate 10 in which protrusions 12 are continuous in the longitudinal direction are placed on the masonry bricks 13 Shaped brick linking ring 14 having one side open at its one end is inserted into the hooking part 17 of the wall surface fixing bracket 16 fixed to the wall 15, (11a) and (11b) to sandwich the brick connection ring (14).

The straight steel wire 18 is horizontally inserted into another groove 11c formed in the brick connection plate 10 and then the mortar is covered with the uniform thickness on the masonry brick 13 to form the steel wire 18 and the brick- (10) and a part of the brick connection ring (14).

However, in this conventional technique, since the brick connection ring 14 and the steel wire 18 are simply inserted into the grooves 11a, 11b, and 11c formed in the brick connection plate 10, It is very likely that the connection ring 14 and the steel wire 18 are separated from the grooves 11a and 11b and that the brick connection ring 14 and the steel wire 18 There is a problem that an external force acts on the brick connecting plate 10 to be easily detached from the brick connecting plate 10. [

Since the brick connection ring 14 and the steel wire 18 which are separated from the brick connection plate 10 are not buried in the mortar, it is very difficult to confirm the detached state.

Since the grooves 11a and 11b formed in the brick connecting plate 10 are straight and do not have any fixing means, the brick connecting plate 10 easily moves in the left and right direction even with a small external force during the coarse working, There was an issue being placed.

When vibrations are applied to the rough bricks 13 in the vertical direction by a natural disaster such as an earthquake after the joining of the rough bricks 13 is completed, the brick connection rings 14 and the steel wires 18 are connected to the brick connection plates 10 , There is a problem in that early breakdown of the masonry walls occurs due to separation and separation due to cracks in the joints.

Korean Utility Model Registration No. 20-0438912 (2008.03.11.) Korean Utility Model Publication No. 20-2009-0009004 (2009.09.09.) Korean Registered Patent No. 20-0438913 (Mar. 4, 2008)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a masonry wall connection apparatus for a masonry which can prevent a brick connection ring and a steel wire from separating from a brick connection plate, have.

In order to accomplish the object of the present invention, there is provided a wall-to-wall connection apparatus for a residential house, comprising: a wall surface fixing bracket fixed to an inner wall; A brick connection ring in the form of an open loop in which a pair of elastic latching parts staggered in parallel and spaced apart from each other are formed at the ends and hooked to the wall surface fixing bracket; A brick connection plate coupled to the elastic latching portion to connect the brick connection ring and the masonry brick; And a steel wire which is installed laterally along an upper portion of the masonry brick and is fitted to the brick connection plate,

A tie-shaped rib formed at a predetermined distance from the upper portion of the brick connection plate and formed in a plurality of rows in parallel to form a tee groove between the bricks; A semicircular groove symmetrical to each other in the inner side of the tee; A bent portion formed at an end portion of the elastic engagement portion; A flow preventive groove formed in the tee-shaped rib for insertion of the bent portion; And a wire stopper which is folded in a zigzag shape and inserted into two adjacent tooth grooves at the same time to fix the elastic latching portion and the steel wire in close contact with the semicircle groove.

The wire stopper may be a flat surface formed on one surface along the longitudinal direction; A convex surface forming a semicircular cross section in plan view and formed along the longitudinal direction on the opposite side of the plane; A pair of rectilinear inserts symmetrically arranged at a distance in parallel with each other so that the convex surface is located on the outer side and inserted into the semicircle groove, respectively; An insert part which is bent in a round shape to be connected to one end of a straight line inserting part and to be inserted into a tee groove together with a straight line inserting part; A straight line tightening portion symmetrical to each other with a distance in parallel with one of the straight line inserting portions, the rectilinear tightening portion being inserted into the tee groove and being in close contact with the elastic catching portion and the steel line, respectively; A bending portion for connecting the straight line inserting portion and the linearly adhered portion; A semicircular latching groove formed on a plane of the linearly-engaged portion and engaged with an outer peripheral surface of the elastic latching portion and the steel wire, respectively; And a push bar formed at an end of the other linear insertion portion for applying a force in the insertion direction.

As described above, according to the present invention, since the elastic fastening portions 32 and 34 inserted into the tine grooves 41 and the steel wire 26 are fixed by the wire stopper 50, the elastic fastening portions 32 34 and the steel wire 26 can be prevented from being naturally separated from the brick connection plate 40.

Since the bent portion 36 formed in the elastic latching portion 32 of the brick linking ring 30 is inserted into the flow preventing groove 48 formed in the tie rib 42 of the brick connecting plate 40 It is possible to prevent the brick connection plate 40 or the brick connection ring 30 from moving in the left and right direction and prevent the brick connection plate 40 or the brick connection ring 30 from being biased to one side.

The distance between the two elastic hooking portions 32 and 34 is narrowed when the elastic hooking portions 32 and 34 formed in the brick connecting ring 30 are inserted into the tooth groove 41 and then the distance The elastic gripping portions 32 and 34 are brought into close contact with the semicircular grooves 45 and 46 formed on the inner side of the tee groove 41 due to the elastic restoring force of the elastic gripping portions 32 and 34, Therefore, the assembly work of the brick connection ring 30 and the brick connection plate 40 can be performed quickly and conveniently.

Since the two linear insertion portions 51a and 51b formed in the wire stopper 50 are inserted into the two semicircular grooves 45 and 46 formed in the metal groove 41 respectively, It is possible to fix the elastic fastening portions 32 and 34 and the steel wire 26 more firmly.

Further, the present invention is characterized in that the engagement groove 58 formed in the straight line-joining portion 53 of the wire stopper 50 is engaged with the elastic engagement portion 32 (34) formed on the brick connection ring 30 and the outer peripheral surface of the steel wire 26 It is possible to prevent the linear tight contact portion 53 from slipping out from the elastic fastening portions 32 and 34 and the steel wire 26 in the vertical direction so that the elastic fastening portions 32 and 34 There is an effect that the steel wire 26 can be more firmly fixed.

Not only can the wire stopper 50 be inserted conveniently by pushing the wire stopper 50 by hand using the push bar 56 formed on the wire stopper 50 when inserting the wire stopper 50 into the trench 41, It also has the effect of alleviating the tenderness of the finger.

The straight insertion portions 51a and 51b of the wire stopper 50 are first inserted into the tooth groove 41 when the straight insertion portions 51a and 51b of the wire stopper 50 are inserted into the tooth groove 41, There is also an effect that a more smooth insertion can be performed with the tee groove 41. [

Since the steel wire having the semicircular cross section is formed by bending the steel wire in a zigzag form when the wire stopper 50 is formed, it is possible to manufacture the wire stopper 50, so that the manufacturing cost can be expected to be reduced.

In addition, since the straight insertion portions 51a and 51b of the wire stopper 50 are forcedly inserted into the semicircular grooves 45 and 46 of the tooth groove 41, the wire stopper 50 And there is also an effect that it is possible to prevent natural detachment.

1 is an exploded perspective view showing a conventional bar wall connecting device
FIG. 2 is a perspective view showing that the masonry wall stone is fixed to the inner wall by the conventional wall-
Fig. 3 is a perspective view showing a mooring wall connection device for a dwelling according to the present invention.
Fig. 4 is an exploded perspective view showing a mooring wall connection apparatus for a dwelling according to the present invention
5 is a rear perspective view of the brick connecting plate according to the present invention.
6 is a perspective view showing a wire stopper according to the present invention.
Fig. 7 is a perspective view showing that the masonry wall stone is fixed to the inner wall by the masonry wall connecting apparatus for a dwelling according to the present invention
FIG. 8 is a plan view showing that the masonry wall stone is fixed to the inner wall by the masonry wall connecting apparatus for a dwelling according to the present invention
Fig. 9 is a plan view showing an enlarged view of the remaining recesses, excluding the masonry bricks and the heat insulating material in Fig. 8. Fig.
10 is a sectional view taken along the line A-A 'in Fig. 9
11 is a sectional view taken along the line B-B 'in Fig. 9
12 is a plan view showing an example in which one wire stopper according to the present invention is installed in each of two elastic fastening portions,

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

As shown in FIGS. 3 to 12, the present invention includes a wall surface fixing bracket 22 fixed to an inner wall 20; A brick connection ring 30 in the form of an open loop in which a pair of elastic latching parts 32 and 34 are staggered in parallel at a distance from each other and are engaged with the wall surface fixing bracket 22; A brick connection plate 40 coupled with the elastic latching portions 32 and 34 to connect the brick connection ring 30 and the masonry brick 24; And a steel wire 26 installed horizontally along the upper portion of the rough brick 24 and fitted to the brick connecting plate 40.

The brick connection ring 30 can be bent in a trapezoidal shape as in the illustrated example, but is not limited to such a bent shape.

The wall surface fixing bracket 22 is formed with upper and lower fastening holes 22a and 22b for fastening a fastener 29 such as a concrete nail or a nail pin to the inner wall 20, The upper and lower portions may be formed by bending in a direction away from the inner wall 20 and forming a hooking portion 22c protruding forward.

The present invention relates to a tie-shaped rib (42) formed in a plurality of rows and spaced apart at an upper portion of the brick connection plate (40) and forming a tie groove (41) therebetween. And semicircular grooves (45) (46) symmetrically arranged in parallel with each other inside the tee (41).

At the upper end of the tee-shaped rib 42, hooks 43 and 44 are formed and an inlet 47 having a constant width communicating with the tee groove 41 is formed between the hooks 43 and 44 .

As shown in Fig. 11, the center-to-center distance L1 of the semicircular grooves 45 and 46 formed in the neighboring tooth grooves 41 is set so that no external force acts on the two elastic engagement portions 32 and 34 34 between the two elastic engaging portions 32, 34 when the elastic engaging portions 32, 34 are engaged with the tee groove 41 so as to maintain at least the same or slightly smaller distance as the center-to-center distance L2 of the free- The elastic gripping portions 32 and 34 are pressed against the semicircular grooves 45 and 46 by the resilient restoring force of the elastic gripping portions 32 and 34, As shown in Fig.

11, the direction in which the two resilient engagement portions 32 and 34 formed on the brick connection ring 30 are forcibly narrowed is indicated by the arrows "C" and "C" The direction of insertion of the teeth 32 and 34 into the teeth groove 41 through the opening 47 is indicated by the arrows "D" and "D"

The brick connection plate 40 can be formed by extrusion molding in which a predetermined cross section is continuously formed in the longitudinal direction by using, for example, aluminum, brass, synthetic resin or the like. The tie rib 42 and the engagement protrusion 43 (44) can be formed integrally with the brick connection plate (40).

The present invention may include a bending portion (36) formed at an end portion of the elastic fastening portion (32); And a flow preventing groove 48 formed in the tie rib 42 for insertion of the bent portion 36. [

The bending portion 36 may be formed by bending the elastic bending portion 32 to be perpendicular to the inner wall 20 in the horizontal direction. 20, but it is not intended to be limited to such a position or the number of the mounting portions.

The flow preventing groove 48 may be formed to have a predetermined width in the center of the front tie rib 42 positioned nearest to the inner wall 20 among a plurality of the tie ribs 42, for example.

The flow preventing groove 48 can be formed by cutting a portion of the tie rib 42 using a cutting tool such as an end mill after extrusion molding of the brick connecting plate 40.

The present invention is embodied in a zigzag shape so as to be simultaneously inserted into two adjacent tooth grooves 41 to fix the elastic catching portions 32 and 34 and the steel wire 26 in close contact with the semicircular grooves 45 and 46 And a wire stopper 50 for holding the wire.

As shown in FIGS. 6 and 10, the wire stopper 50 includes a plane 52 formed on one side along the longitudinal direction; And a convex surface 54 formed along the longitudinal direction on the opposite side of the plane 52.

That is, the wire stopper 50 can be formed by bending a steel wire such as a piano wire, which is used as a spring material, in a zigzag shape, as shown in Figs. 6, 9, and 10.

The wire stopper 50 is symmetrical with a distance in parallel to each other so that the convex surface 54 is located on the outer side. The wire stopper 50 includes a pair of straight insertion portions 45, (51a) and (51b); And an insert portion 55 which is connected to one end of the straight insertion portions 51a and 51b and is bent into a round shape to be inserted into the tooth groove 41 together with the straight insertion portions 51a and 51b.

The two straight line inserting portions 51a and 51b and the insert portion 55 are integral with each other and the insert portion 55 corresponds to a bent portion for forming the two straight line inserting portions 51a and 51b which are parallel to each other.

The wire stopper 50 is symmetrical with respect to a straight line inserting portion 51b at a distance in parallel to each other and is inserted into the tie groove 41 so that the elastic fastening portions 32, 26, respectively; And a bending portion 57 for connecting the straight line inserting portion 51b and the linearly connecting portion 53 to each other.

That is, the linear insertion portion 51b is integrally formed with the linear fitting portion 53 and the bending portion 57, and the bending portion 57 is integrally formed with the linear fitting portion 51b and the linear fitting portion 53 ) In the direction perpendicular to the longitudinal direction.

The wire stopper 50 includes a semicircular latching groove 58 formed in a plane 52 of the straight line contact portion 53 and engaged with the outer peripheral surfaces of the elastic latching portion 34 and the steel wire 26 respectively. And a push bar 56 formed at the end of the other straight line inserting portion 51a for applying a force in the inserting direction.

In addition, the insert portion 55 and the bending portion 57 corresponding to the bending portion are formed on opposite sides in the process of forming the wire stopper 50 by bending the steel wire in a zigzag fashion. For example, 51a and 51b and the insert portion 55 may be formed so as to have a substantially U-shaped shape when viewed from the plane, and one linear insertion portion 51b, a straight line-joining portion 53, (57) can likewise be shaped so that the schematic shape in plan view forms a "U " shape.

The two straight line inserting portions 51a and 51b are inserted into the tine grooves 41 with the insert portion 55 as the head and brought into close contact with the semicircular grooves 45 and 46 formed in the inner side of the tine grooves 41 At this time, since the insert portion 55 is formed in a round shape, entry into the tine groove 41 is smooth.

The outer diameter of the convex surface 54 formed in the wire stopper 50 and the diameter of the semicircular groove 45 formed in the tee groove 41 are set so that the two straight line inserting portions 51a and 51b are in close contact with the semicircular grooves 45 and 46, The center distance L2 between the two straight line inserting portions 51a and 51b and the center distance L1 between the centers of the semicircle grooves 45 and 46 are substantially equal to each other. So that no clearance is generated when the straight line inserting portions 51a and 51b are inserted into the semicircular grooves 45 and 46. [

Since the two straight line inserting portions 51a and 51b are formed in parallel pairs, they are slid only in the inserting direction and the inserting direction in the semicircular grooves 45 and 46, and can not move in the remaining directions The straight insertion portions 51a and 51b are inserted into the semicircular grooves 45 and 46 so that the wire stopper 50 is prevented from being separated from the tooth groove 41 by natural force.

The straight line inserting portion 51a and the straight line inserting portion 51b are formed so that the center of the engaging groove 58 formed in the straight line contact portion 53 is aligned with the center of the elastic engaging portions 32 and 34 and the center of the steel line 26, The engaging grooves 58 are brought into close contact with the outer circumferential surfaces of the elastic engaging portions 32 and 34 and the steel wire 26 when the semicircular grooves 45 and 46 are inserted into the semicircular grooves 45 and 46, respectively.

It is possible to form the chamfered portion 59 at the end of the flat surface 52 of the linearly adhered portion 53 to smooth the entry of the linearly adhered portion 53.

9, the wire stopper 50 is inserted from the end of the tooth groove 41 and is engaged with one of the two elastic latching portions 32 and 34 formed on the brick linking ring 30 34, and as another example, as shown in FIG. 12, two wire stoppers 50 may be provided for each of the two elastic hooking portions 32, 34, respectively.

When the wire stopper 50 is provided for each of the two elastic catching portions 32 and 34 in this manner, the elastic catching portions 32 and 34 can be more firmly fixed to the brick connecting plate 40 have.

The wire stopper 50 is also used to prevent the steel wire 26 inserted into the tee groove 41 of the brick connection plate 40 from being separated from the tee groove 41. In this case, Two wire stoppers 50 can be inserted in opposite directions at opposite ends of the metal groove 41 to prevent the steel wire 26 from moving in the metal groove 41.

Reference numeral 27 denotes a brick joint layer formed between the rough bricks 24 to join the rough bricks 24 and 28 denotes a heat insulating material interposed between the inner wall 20 and the rough bricks 24 .

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

A state in which the wall surface fixing bracket 22 is in close contact with the inner wall 20 so as to be positioned at a height substantially coinciding with the upper surface of the rough brick 24 to which the brick connection ring 30 is to be connected as shown in FIGS. Like fasteners 29 such as concrete nails or nailing pegs are inserted into the inner wall 20 by the two fastening holes 22a and 22b formed in the wall surface fixing bracket 22 in the wall fixing bracket 22 Is fixed to the inner wall 20 as in the usual case.

Then the brick connection ring 30 is hooked on the hook engagement portion 22c formed on the wall surface fixing bracket 22 so that the elastic engagement portions 32 and 34 formed on the brick connection ring 30 are connected to the upper surface of the masonry brick 24 And then the brick connecting plate 40 is placed on the rough brick 24 and the elastic engaging portions 32 and 34 formed on the brick connecting ring 30 are inserted into the tie grooves 41 formed on the brick connecting plate 40, The brick connection ring 30 and the brick connection plate 40 are engaged with each other by engaging the bent portion 36 formed in the elastic engagement portion 32 with the flow prevention groove 48 formed in the tie- do.

11, a force is applied in the direction of the arrows "C" and " C "" in Fig. 11 to the two elastic engagement portions 32 and 34 formed on the brick connection ring 30, And then the narrowed elastic latching portions 32 and 34 are lowered in the directions of arrows D and D 'in Fig. 11 and the entrance 47 The elastic gripping portions 32 and 34 are elastically biased by the elastic restoring force of the elastic gripping portions 32 and 34 so that the center-to-center distance L2 (45) 46 while being restored to the free state.

At this time, when the bent portion 36 formed on one elastic latching portion 32 is fitted in the flow preventing groove 48 formed in the tie-shaped rib 42, the brick connecting plate 40 moves in the left- It can be prevented from being positioned.

If the wire stopper 50 is inserted into the tee groove 41 formed in the brick connecting plate 40 in a state where the elastic hooking portions 32 and 34 are fitted in the semicircular grooves 45 and 46 as described above, (30) can be prevented from being detached from the brick connecting plate (40).

The process of inserting the wire stopper 50 into the metal groove 41 is performed by inserting the metal stopper 50 into the other metal groove 41 adjacent to the rubber groove 41 in which the elastic latching portions 32, The straight contact portions 53 formed on the wire stopper 50 by inserting the formed straight line inserting portions 51a and 51b are brought into close contact with the semicircular grooves 45 and 46. As a result, (58) is held in tight contact with the outer circumferential surface of the elastic fastening portions (32, 34).

At this time, since the elastic hooking portions 32 and 34 are in close contact with the hooking groove 58 formed in the straight line-joining portion 53, they can not be separated from the tee groove 41.

When the wire stopper 50 is pushed using the push bar 56 when inserting the wire stopper 50 into the tongue groove 41, the pressure acting on the local portion of the finger is dispersed to alleviate the pressure tender that may occur during the operation.

That is, the two straight insertion portions 51a and 51b formed in the wire stopper 50 are inserted and fixed in parallel to the two semicircular grooves 45 and 46 formed in the tooth groove 41, The straight insertion portions 51a and 51b are formed in the shape of a rounded shape so that the straight insertion portions 51a and 51b can not be inserted into the corresponding one of the half-grooves 45 and 46 It helps to enter smoothly.

In addition, since the two straight line inserting portions 51a and 51b are inserted and fixed in the two semicircular grooves 45 and 46, the wire stopper 50 can not move except the inserting direction and the direction opposite to the inserting direction, The straight insertion portions 51a and 51b are forcedly inserted into the semicircular grooves 45 and 46, so that they are prevented from being separated naturally or separated by the vibration.

9, the wire stopper 50 may be used only for fixing the one elastic latching portion 34, and the two elastic latching portions 32 (see FIG. 12) 34 are all fixed, it is possible to obtain a more firm bonding force.

The steel wire 26 installed in the lateral direction on the masonry brick 24 is inserted into the metal groove 41 formed in the brick connection plate 40 and then the steel wire 26 is inserted The linear contact portions 53 formed on the wire stopper 50 while inserting the straight insertion portions 51a and 51b of the wire stopper 50 into the other empty tee grooves 41 adjacent to the tie grooves 41 are connected to the steel wire 26, the engagement groove 58 formed in the straight line-joining portion 53 is brought into close contact with the outer circumferential surface of the steel wire 26 to be engaged.

At this time, if the two wire stoppers 50 are inserted from both sides of the tooth groove 41, the steel wire 26 can be more firmly fixed to the brick connection plate 40.

When external forces are applied to the elastic fastening portions 32 and 34 and the steel wire 26 inserted into the tread grooves 41 formed in the brick connection plate 40 as described above, It is possible to prevent the wire stopper 50 from being naturally detached or changed in position by the wire stopper 50 which is press-fitted into the tee groove 41.

20: inner wall 22: wall fixing bracket
22a, 22b: fastening hole 22c:
24: Masonry brick 26: Steel wire
27: brick bonding layer 28: insulation
29: Fastener 30: Brick connection ring
32, 34: Elastic locking portion 36:
40: brick connection plate 41:
42: Tie ribs 43, 44:
45,46: Semicircle groove 47: Entrance
48: flow preventing groove 50: wire stopper
51a, 51b: straight line inserting portion 52: plane
53: straight line contact part 54: convex surface
55: insert part 56: push bar
57: bending portion 58:
59: Face mounting

Claims (2)

A wall surface fixing bracket 22 fixed to the inner wall 20;
A brick connection ring 30 in the form of an open loop in which a pair of elastic latching parts 32 and 34 are staggered in parallel at a distance from each other and are engaged with the wall surface fixing bracket 22;
A brick connection plate 40 coupled with the elastic latching portions 32 and 34 to connect the brick connection ring 30 and the masonry brick 24;
A steel wire 26 installed in the lateral direction along the upper portion of the rough brick 24 and fitted in the brick connecting plate 40;
≪ / RTI >
A tie-shaped rib 42 formed at a predetermined distance from the upper portion of the brick connection plate 40 and formed in a plurality of rows so as to form a tie groove 41 therebetween;
Semicircular grooves (45) (46) symmetrically arranged in parallel to each other inside the tee (41);
A bent portion 36 formed at an end portion of the elastic latching portion 32;
A flow preventing groove 48 formed in the tie rib 42 for insertion of the bent portion 36; And
A wire stopper 34 which is folded in a zigzag shape so as to be simultaneously inserted into two adjacent tooth grooves 41 and fixes the elastic latching portions 32 and 34 and the steel wire 26 in close contact with the semicircular grooves 45 and 46, (50);
And a wall connection device for a residential house. The method according to claim 1,
The wire stopper (50)
A plane (52) formed on one side along the longitudinal direction;
A convex surface 54 formed along the longitudinal direction on the opposite side of the plane 52;
A pair of straight line inserting portions 51a and 51b symmetrically arranged at a distance in parallel to each other so that the convex surface 54 is located on the outer side and inserted into the semicircle grooves 45 and 46 respectively;
An insert part 55 which is connected to one end of the straight line insertion part 51a or 51b and is bent into a round shape to be inserted into the metal groove 41 together with the straight line insertion parts 51a and 51b;
And a linear tight fitting part (51) which is symmetrical with respect to the straight line inserting part (51b) in parallel with each other and which is inserted into the tee groove (41) and is in close contact with the elastic fastening part (32) 53);
A bending portion 57 connecting the straight line inserting portion 51b and the linearly connecting portion 53;
A semicircular latching groove 58 formed on the plane 52 of the linearly-fitting portion 53 and engaged with the outer peripheral surfaces of the elastic latching portion 34 and the steel wire 26;
A push bar 56 formed at the end of the other straight line inserting portion 51a for applying a force in the inserting direction;
And a wall connection device for a residential house.

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