KR101631862B1 - Appartment Masonry Brick Walls Coupling Device - Google Patents

Abstract

The present invention relates to a masonry wall connector for an apartment house, which is able to be coupled with a wall while absorbing the installation error of masonry bricks in the middle. The present invention comprises: a fixing bracket (20) which is installed on a wall (10); guide channels (22, 24) which are formed in parallel in a vertical direction at left and right end parts of the fixing bracket (20); a position adjusting plate (30) which is installed in the fixing bracket (20); a reinforcement bead (31) which is formed in a vertical direction from the center of the position adjusting plate (30); front claws (32, 33) and rear claws (34, 35) which are bent to cross each other and repeatedly alternate back and forth while being formed at an interval in a vertical direction at left and right end parts of the position adjusting plate (30) and are guided in the vertical direction by being inserted into the guide channels (22, 24); jam grooves (32g, 33g) which are formed in a gap of the front claws (32, 33); clamps (22b, 24b) which are jammed on the jam grooves (32g, 33g) while being forcibly bent in a facing direction by being formed to be erected toward the front side by picking the middle of the guide channels (22, 24); a hanging hook (50) which is attached horizontally to the position adjusting plate (30); open grooves (42, 44) which are jammed by inserting the hanging hook (50) and are formed on the plane of a masonry brick (40) at a height larger than the diameter of the hanging hook (50); and ring spacers (60, 62, 64) which are closely attached to the inner surface of the open grooves (42, 44) by being individually inserted into the front, left, and right sides of the hanging hook (50) and have eccentric holes (60h, 62h, 64h).

Description

{Appartment Masonry Brick Walls Coupling Device}

The present invention relates to a masonry wall connection apparatus for a masonry used for connecting a masonry wall to a wall surface, and more particularly, to a masonry wall connection apparatus for a masonry wall which is capable of binding an installation error of the masonry brick to a wall surface .

Generally, stone, brick, and concrete blocks are stacked to form a wall, and in the structure of a structure, walls and bricks are connected to each other to reinforce the masonry bricks.

The conventional bar wall connecting device is composed of a connecting hole 13 which is largely fixed to the wall surface 10 and a connecting member 14 which is fixed to the masonry brick 12 as shown in the accompanying drawings 1 and 2, 13 has a fixing hole 13a for inserting a nail 15 fixed to the wall surface 10 and a rectangular insertion slot 13b for passing the connecting piece 16 is formed at the front center .

A filling part 17 bent forward is formed at the center rear surface of the connecting hole 13 so as to be spaced apart from the wall surface 10 and a rectangular moving piece 18 moving in the up and down direction in the filling part 17, And a connecting piece 16 projecting horizontally through the insertion slot 13b and fixed to the masonry brick 12 is coupled to the front surface.

However, since the conventional wall-to-wall connection apparatus has a structure in which the rear surface of the moving piece 18 attached to the rear end of the connecting piece 16 moves in the vertical direction while being in contact with the wall surface 10, There is a problem that the movement of the moving piece 18 is not smooth and the operation is delayed when the wall surface 10 has a surface or a segregation or the like is protruded. In the case where the curvature of the wall surface 10 is severe, .

In the prior art, the clearance of the filling portion 17 of the connection port 13 fixed to the wall surface 10 is increased, and the moving piece 18 can freely move in the up and down direction. On the other hand, 19 are not sufficiently supplied into the filling part 17, voids are present in the filling part 17 and the connection between the connecting piece 16 and the masonry brick 12 is poor.

Also, since the connection piece 16 is of a flat plate shape, there is a problem that the coupling force with the mortar 19 is weak and cracks are generated in the boundary portion, and the connection piece 16 is lifted from the mortar 19.

Korean Patent Publication No. 10-0343227

SUMMARY OF THE INVENTION It is an object of the present invention to provide a wall-to-wall connection apparatus for a dwelling unit which can more firmly bind a wall surface and a masonry brick.

In order to accomplish the object of the present invention, there is provided a wall-to-wall connection apparatus for a dwelling house comprising: a fixing bracket installed on a wall; Guide channels formed parallel to each other in a vertical direction at left and right ends of the fixing bracket; A position adjusting plate installed on the fixing bracket; A reinforcing bead formed in a vertical direction at a center of the position adjusting plate; A front claw and a rear claw which are formed by spacing along the vertical direction at the left and right ends of the position adjusting plate and are repeatedly staggered in the forward and backward directions and are guided in the vertical direction by being inserted into the guide channel; An engaging groove formed between the front forefoots; A cantilever which is received in the middle of the guide channel and is formed in a raised shape toward the front side and is bent by a force bent in a direction opposite to the cantilever, A latching ring horizontally joined to the position adjusting plate; An open groove formed in the plane of the rough brick at a depth greater than the diameter of the retaining ring; And ring spacers which are respectively fitted on the right and left sides of the retaining ring and which are in close contact with the inner surface of the opening groove and have eccentric holes.

As described above, in the present invention, when the engagement ring 50 and the open grooves 42, 44 are not aligned in the front, rear, left, or right directions due to an installation error of the masonry bricks 40, the eccentric holes 60h Since the ring spacer 60, 62, 64 having the groove 64h is rotated to prevent the clearance between the retaining ring 50 and the open grooves 42, 44 from being generated, So that it can be installed.

Since the opening grooves 42 and 44 are formed to have a depth larger than the diameter of the locking ring 50, the locking ring 50 and the masonry brick 40 can not interfere with each other when the position adjusting plate 30 is moved in the vertical direction Can be prevented.

Even if an error occurs in the installation height or an error occurs in the height of the masonry brick 40 when the fixing bracket 20 is installed on the wall surface 10, the positioning plate 30 is moved in the vertical direction, 33g and the brackets 22b and 24b are aligned with each other and then the brackets 22b and 24b are bent and engaged with the engagement grooves 32g and 33g, There is an effect that this is convenient.

The latching ring 50 is inserted into the opening grooves 42 and 44 formed in the masonry brick 40 so that an external force acting on the masonry brick 40 in the front, The adjustment brick 30 and the fixing bracket 20 to the wall surface 10 so that the masonry bricks 40 can be installed more firmly.

The present invention is not limited to the case where the position adjusting plate 30 is provided with the reinforcing beads 31 formed at the center of the position adjusting plate 30 so that the bending rigidity of the position adjusting plate 30 is increased and the fixing bracket 20 is fixed to the wall surface 10 It is possible to prevent the head portion of the concrete nail 12 (14) used for interfering with the position adjusting plate (30) from being used.

1 is an exploded perspective view showing a conventional bar wall connecting device
2 is a cross-sectional view of a conventional barbed wall connection device
3 is an exploded perspective view
Fig. 4 is a rear exploded perspective view of Fig. 3
FIG. 5 is a perspective view of a combined state perspective view
6 is an exploded perspective view showing a retaining ring and a ring spacer according to the present invention.
FIG. 7 is a perspective view showing the construction brick according to the present invention.
8 is a plan view
9 is a sectional view taken along the line A-A 'in Fig. 8

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

As shown in FIGS. 3 to 9, the present invention includes a fixing bracket 20 installed on a wall surface 10; And guide channels 22 and 24 formed parallel to each other in the vertical direction at the right and left ends of the fixing bracket 20.

In the present invention, the front, rear, and left directions are based on the front cross-sectional view of FIG. 9, and fastening holes 26 and 27 for fixing the wall 10 to the wall 10 using the concrete nails 12 and 14, , And the fixing bracket 20 can be formed by press working using a steel plate.

The guide channels 22 and 24 are bent vertically from the left and right ends of the fixing bracket 20 toward the front side and then bent again in directions opposite to each other, As shown in Fig.

The present invention may include a position adjusting plate (30) installed on the fixing bracket (20); And reinforcing beads 31 formed in the vertical direction at the center of the position adjusting plate 30. [

The position adjusting plate 30 can be formed by press working using a steel plate and the reinforcing bead 31 can be formed to have an arc-shaped cross section that is convexly formed toward the front of the position adjusting plate 30. [

The present invention relates to a position adjusting plate (30), which is formed at the left and right ends of the position adjusting plate (30) at an interval in the vertical direction and is repeatedly staggered in the forward and backward direction and is inserted into the guide channels (22, 24) 32) 33 and a rear claw 34 (35); And an engagement groove (32g) (33g) formed between the front claws (32) (33).

The front claws 32 and 33 and the rear claws 34 and 35 may be bent in a staggered manner from the left and right edges of the position adjusting plate 30 to the front and rear sides respectively.

The present invention is characterized in that the guide channel (22) (24) is formed by pulling up from the middle of the guide channel (22) and forming a shape that stands up to the front side and is bent by a force bending in a direction facing each other, (22b) and (24b).

3 and 4, the brackets 22b and 24b are formed in a straight line toward the front side in the beginning, and the position adjusting plate 30 is assembled to the fixing bracket 20, The hooks 22b and 24b are bent toward the inside in a direction facing each other so as to be caught in the engaging grooves 32g and 33g by using a hammer, a pliers, or the like.

The present invention is characterized in that it comprises: a latching ring (50) horizontally joined to the position adjusting plate (30); And open grooves 42 and 44 formed in the plane of the masonry block 40 at a depth larger than the diameter of the latching ring 50 and inserted into the mating ring 50.

As shown in FIG. 7, for example, the open grooves 42 and 44 are formed such that an end portion thereof is extended to the front and rear surfaces of the rough brick 40 and is opened to form a " can do.

The reason why the depth of the opening grooves 42 and 44 is larger than the diameter of the locking ring 50 is that the locking ring 50 and the masonry block 40 So as not to interfere with each other.

7, two openings 42 and 44 are formed on the upper surface and two on the lower surface so as to be symmetrical with each other in the up-and-down direction and the back-and-forth direction so that even if the rough bricks 40 are turned upside down, .

The present invention is characterized in that a ring spacer 60 which is fitted on the left and right sides of the retaining ring 50 and in front of the retaining ring 50 and is in close contact with the inner surface of the opening grooves 42 and 44 and has eccentric holes 60h, 62h and 64h, (62) and (64).

The eccentric holes 60h, 62h and 64h formed in the ring spacers 60, 62 and 64 are formed in the center of the retaining ring 50 and the ring spacers 60 and 62 64 are formed to have a predetermined eccentric distance E and are loosely assembled when the ring spacers 60, 62, 64 are assembled to the retaining ring 50 to secure the retaining ring 50 to the open groove 42 62 and 64 are freely rotated in accordance with the difference in the front-rear or left-right spacing between the retaining ring 50 and the opening grooves 42 and 44 when the ring spacer 60,

It is difficult to assemble the ring spacers 60, 62, and 64 after bending the latching ring 50 into a "C" shape as shown in FIG. 6. Therefore, before the latching ring 50 is bent, The ring spacer shown by the reference numeral 64 is inserted into the center of the retaining ring 50 and then both ends of the retaining ring 50 are bent in the direction of the arrow in FIG. (62) is fitted in the retaining ring (50).

The ends of the retaining ring 50, in which the ring spacers 60, 62, and 64 are assembled, can be joined by welding while being in contact with the front surface of the position adjusting plate 30. [

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

The fixing bracket 20 is vertically installed on the wall surface 10 by using the concrete nails 12 and 14 at suitable heights while stacking the masonry bricks 40 as shown in FIGS. 3 to 9 When the front claws 32 and 33 and the rear claws 34 and 35 formed on the position adjusting plate 30 are fitted to the upper ends of the guide channels 22 and 24 formed in the fixing bracket 20 and lowered, (30) is coupled to the fixing bracket (20).

At this time, the front claws 32, 33 and the rear claws 34, 35 are linearly guided along the guide channels 22, 24 in the vertical direction, and the reinforcing beads 31 formed on the position adjusting plate 30 are positioned The head portion of the concrete pegs 12 and 14 used for fixing the fixing bracket 20 to the wall surface 10 may interfere with the rear surface of the position adjusting plate 30 It also plays a role to prevent.

When the position adjusting plate 30 is lowered as described above, the latching ring 50 joined to the position adjusting plate 30 is inserted into the opening grooves 42 and 44 formed in the masonry brick 40, 62 and 64 provided on the inner circumferential surfaces 50 and 50 are brought into close contact with the inner surfaces of the open grooves 42 and 44.

At this time, the ring spacers 60, 62 and 64 are arranged such that the front and rear left and right gaps between the opening grooves 42 and 44 formed in the masonry block 40 and the engagement ring 50 do not coincide with each other It is freely rotatable about the latching ring 50 and serves to align the gap.

When the masonry bricks 40 are installed, the positions of the ring spacers 60, 62, and 64 are slightly shifted from each other in the front and rear left and right positions so that the mismatched spacing is maintained between the latching ring 50 and the opening grooves 42 and 44 So as to prevent the mooring bricks 40 from being shaken in the front, rear, left, and right directions.

Thereafter, the engaging grooves 32g and 33g formed between the front claws 32 and 33 while moving the position adjusting plate 30 in the up-and-down direction are engaged with the clamps 22b and 24b, When the brackets 22b and 24b are bent 90 degrees inward in the direction facing each other, the brackets 22b and 24b are caught by the latching grooves 32g and 33g and the position adjusting plate 30 is fixed do.

9, since the opening grooves 42 and 44 formed in the masonry bricks 40 have a sufficient depth when the positioning plate 30 is moved in the vertical direction as described above, 62, and 64 are moved along the inner walls of the open grooves 42 and 44, respectively.

8 and 9, the force acting in the left-right direction of the masonry brick 40 is transmitted to the left and right sides of the engagement ring 50, And is transmitted to and supported by the wall surface 10 via the position adjusting plate 30 and the fixing bracket 20 by the spacers 60 and 62 and the retaining ring 50.

The force acting in the longitudinal direction of the rough brick 40 is transmitted to the position adjusting plate 30 by the latching ring 50 by the ring spacer 64 provided at the center of the latching ring 50, And the fixing bracket 20 to the wall surface 10 to be supported.

Since the brick joint agent such as the mortar applied to the joint surface of the masonry bricks 40 flows into the open grooves 42 and 44 when the masonry bricks 40 are stacked, the ring spacers 60, 62, Even in the state in which it is freely rotatable to the ring 50, the brick joint agent maintains the state of being fixed and no rotation and flow are generated in the open grooves 42 and 44.

10: wall 12, 14: concrete nail
20: Fixing bracket 22, 24: Guide channel
22b, 24b: clamp 26, 27:
30: Position adjusting plate 31: Reinforcing bead
32, 33: front claw 32 g, 33 g:
34,35: rear claw 40: rough brick
42, 44: open groove 50:
60, 62, 64: ring spacer 60h, 62h, 64h: eccentric hole
E: Eccentric distance

Claims (1)

A fixing bracket 20 installed on the wall surface 10;
Guide channels (22) (24) formed parallel to each other in the vertical direction at left and right ends of the fixing bracket (20);
A position adjusting plate 30 installed on the fixing bracket 20;
A reinforcing bead 31 formed in a vertical direction at a center of the position adjusting plate 30;
A front claw 32 (see FIG. 1) which is formed by spacing the left and right ends of the position adjusting plate 30 along the vertical direction and repeatedly and alternately bent in the forward and backward directions and is inserted into the guide channels 22 and 24 and guided in the vertical direction 33 and the rear claws 34, 35;
An engagement groove (32g) (33g) formed between the front claws (32) (33);
A claw 22b which is caught in the middle of the guide channels 22 and 24 so as to be raised forward and is bent by a force bent in a direction facing each other and caught in the catching grooves 32g and 33g, (24b);
A latching ring 50 horizontally joined to the position adjusting plate 30;
An opening groove (42) (44) formed in the plane of the artificial brick (40) with a depth larger than the diameter of the retaining ring (50), and the engagement groove (50) And
Ring spacers 60 and 62 which are respectively fitted on the right and left sides of the retaining ring 50 and in close contact with the inner surface of the opening grooves 42 and 44 and which have eccentric holes 60h and 62h and 64h, (64);
And a wall connection device for a residential house.

Images