KR20160034624A - Stone corbel for support device - Google Patents

Abstract

The present invention relates to a stone corbel support device for construction and, more specifically, relates to a stone corbel support device for construction, wherein a plurality of press-fitting pieces formed on the inner circumference of a stopper is press-fitted into a screw hole of an anchor bolt screw part coupled to a wall to allow a cylindrical cutter pipe coupled to a supporter penetrating an insulation material attached to the wall or an insertion plate bent from both sides of a support plate to maintain stable coupling at right angles to the wall.

Description

[0001] STONE CORBEL FOR SUPPORT DEVICE [0002]

In particular, the present invention relates to a supporting device for supporting a stone support angle of a building, and more particularly, to a supporting device for supporting a stone supporting angle of a building, which comprises a screw thread of an anchor bolt threaded portion coupled to a wall, The cylindrical cutter tube or the insert plate bent at both sides of the support plate can maintain a stable engagement with the wall at right angles to fix the insert plates bent at both sides of the cutter tube and the support or support plate perpendicularly to the wall, It is possible to arrange the supporting angles, and furthermore, the stones installed on the supporting angles can be coordinated in order, so that a good stonework effect can be obtained with a good appearance and the insertion plates bent at both sides of the cutter tube and the supporting body or the supporting plate at right angles with the wall By being fixed by the stopper, The present invention relates to a support device for supporting a stone support angel for a building, which can stably support a stone on a supporting angle since no tilted coupling or shaking occurs.

No. 10-1318299 entitled " Device for Supporting Stone Angles Supporting Architectural Buildings ", filed by the same applicant.

The conventional art has a structure in which a guide pipe is formed at the center so as to guide anchor bolts fixed to a wall and a tool insert is inserted into an upper surface of the guide pipe so as to guide the anchor bolt, A cutter tube made of a metal material separately formed from the support and having a plurality of cutter blades for piercing the heat insulating material and a coupling means for coupling the cutter tube to the support body.

In the above-described prior art, a heat insulating body is inserted through a cutter tube coupled to a support, and a nut is inserted into a male screw portion exposed at the center of the support body, and then the nut is fastened.

That is, as described above, when the cutter tube is not perpendicular to the wall and it is unclear whether or not the cutter tube is coupled, when the cutter angle is inserted, there occurs a phenomenon in which the cutter tube that is already coupled by the cushion of the heat insulator is pushed and tilted .

Therefore, since the cutter pipe is slanted by the cushion of the heat insulating material, and the installation angle of the next support angle is set at an angle or a lower angle than the reference value, the stone can not be stacked properly within the set range.

Further, since the cutter tube and the support body are likely to be shaken when the cutter pipe is pierced through the heat insulating material and the bezel is engaged, the stones placed on the support angle are easily removed by strong winds or the like.

SUMMARY OF THE INVENTION An object of the present invention is to solve such conventional problems,

It is possible to fix the insertion plates bent at both sides of the cutter tube and the supporting body or the supporting plate at right angles to the wall so that the supporting angles can be installed at the correct angle set and the stones installed in the supporting angle can be arranged in order. It is possible to obtain a good stone building effect and to secure a stable and stable support device by fixing the cutter tube and the support plates or the insertion plates formed by bending at both sides of the support plate at right angles to the wall by the stopper, So that the stone can be more stably fixed to the supporting angle.

According to an aspect of the present invention,

A cylindrical cutter tube coupled to a supporting body for inserting a heat insulating material adhered to the wall body by pressing a plurality of compaction pieces formed on the inner peripheral surface of the stopper by a threaded bore of an anchor bolt threaded portion coupled to the wall, So that the object of the present invention can be achieved.

According to the present invention as described above, it is possible to fix the insert plates bent at both sides of the cutter tube and the support body or the support plate at right angles to the wall, so that the support angles can be installed at an accurate angle set, and furthermore, Since it is possible to combine, it is possible to obtain a good stone-building effect which is aesthetically pleasing.

According to the present invention as described above, it is possible to obtain a rigid and stable support device by fixing the cutter tube and the support plates or the insertion plates bent at both sides of the support plate at right angles to the wall by the stopper, so that a tilted engagement or shaking So that the stone can be stably fixed to the supporting angle.

1 is a front view of a first embodiment showing a structure of a stopper according to the present invention;
2 is a side sectional view of the first embodiment showing the structure of the stopper of the present invention
3 is a perspective view of a first embodiment showing a state in which the stopper of the present invention is coupled to a support;
4 is a view of the first embodiment showing the state where the stopper of the present invention is coupled to the support and the anchor bolt
5 to 8 are views showing an assembling process of the first embodiment for constructing the stopper of the present invention
9 is a perspective view of a second embodiment showing the structure of the stopper of the present invention.
10 is a front view of the second embodiment showing the structure of the stopper of the present invention
Figs. 11 and 12 show an assembling process of the second embodiment for constructing the stopper of the present invention

The configuration of the first embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The cylindrical cutter tube 3 coupled to the supporting body 1 penetrating the heat insulating material 12 attached to the wall body 11 is joined to the wall body 11 in order to be able to maintain a stable coupling perpendicularly to the wall body 11. [ And a stopper 101 formed on the inner circumferential surface of a plurality of compression arms 102 inserted into a threaded portion of the threaded portion of the anchor bolt 4 and pressing the support body 1 thereinto.

A plurality of tool insertion grooves 103 formed in the flange 104 of the stopper 101 so that the tool can be inserted and rotated so as to detach the stopper 101 from the threaded portion of the anchor bolt 4 upon disassembly, .

The configuration of the second embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The insertion plate 22 bent at both sides of the support plate 21 penetrating the heat insulating material 12 attached to the wall body 11 is coupled to the wall body 11 in order to maintain a stable engagement with the wall body 11 at right angles. A stopper 111 which is inserted into the threaded portion of the threaded portion of the anchor bolt 4 to form a plurality of compression pieces 113 for supporting the support plate 21 on the inner circumferential surface thereof,

A plurality of notches 112 formed at predetermined distances from the inner circumferential surface of the stopper 111 to the outer circumferential surface of the stopper 111 so as to exert the elastic force when the pusher members 113 of the stopper 111 are inserted into the threaded portion of the anchor bolt 4, )Wow,

And a support piece 115 attached to the rear surface of the stopper 111 to support the stopper 111. [

A stopper 111 and a plurality of tool insertion grooves 115 formed on the outer circumferential surface of the support plate 115 for allowing the tool to be inserted and rotated so as to detach the stopper 111 from the threaded portion of the anchor bolt 4 upon disassembly, (114).

The operation of the first embodiment of the present invention will now be described.

FIG. 1 is a front view of a first embodiment showing a structure of a stopper according to the present invention, FIG. 2 is a side sectional view of a first embodiment showing the structure of a stopper of the present invention, 1 is a perspective view of an embodiment of the present invention, in which a plurality of the compression arms 102 are radially larger and smaller in size in the interior of the stopper 101 and exhibit elasticity.

4, the pressing pieces 102 of the stopper 101 are tightly pressed against the threaded bosses formed on the threaded portion of the anchor bolt 4 so as to exhibit a strong supporting force, 2), the cutter tube 3 of the support body 1 can be coupled in parallel with the anchor bolt 4, and at the same time, the wall body 11 is coupled at a right angle.

5 to 8 illustrate the assembling of the first embodiment for constructing the stopper of the present invention. First, the cutter tube 3 coupled to the support 1 of the present invention is rotated, And is installed as shown in Fig. 5

When the installation work of the cutter tube 3 is completed, a drilling operation is performed through the through hole 2 formed at the center of the support body 1, and the anchor bolt 4 is planted there as shown in Fig.

When the anchor bolt 4 is installed, the stopper 101 of the present invention is coupled to the stopper 101 of the anchor bolt 4 using the tool 14 as shown in Fig. 7, A large number of large and small pieces 102 formed on the inner circumferential surface of the anchor bolt 101 closely contact the threaded portions formed on the threaded portion of the anchor bolt 4 to exhibit a strong supporting force.

The stopper 101 is made to be integral with the anchor bolt 4 by the compression arms 102 and the outer circumferential surface of the stopper 101 is coupled to the support body 1 by the through hole 2, So that the cutter tube 3 is maintained in a solid support state without shaking or rocking.

When the installation of the stopper 101 is completed, the support angle 6 is fitted to the anchor bolt 4 and fixed by the nut 5, and the stone 13 is placed on the support angle 6 and fixed The stone 13 can be firmly supported as shown in Fig.

The nut 5 and the support angle 6 are separated from the anchor bolt 4 when the support angle 6, the support body 1 and the cutter tube 3 are disassembled, When the tool is inserted into the tool insertion groove 103 formed in the flange 104 of the stopper 101 fixed to the stopper 101 and then rotated, the compression arms 102 of the stopper 101 are moved along the threaded portion of the threaded portion of the anchor bolt 4 It is possible to perform disassembly work by a simple operation since it is separated while moving.

The operation of the second embodiment of the present invention will now be described.

10 is a front view of a second embodiment showing the structure of a stopper according to the present invention, in which the compression pieces 113 of the present invention are inserted into the stopper 111 A plurality of radial teeth are formed and exhibit elasticity.

The pressing pieces 102 of the stopper 111 are tightly pressed against the threaded portion of the threaded portion of the anchor bolt 4 to exert a strong supporting force and the supporting piece 115 supports the surface of the supporting plate 21 The support plate 21 and the insertion plates 22 on both sides can be coupled in parallel with the anchor bolts 4 and at the same time,

11 and 12 illustrate the assembling of the second embodiment for constructing the stopper of the present invention. First, drilling is performed at a set position to drill the heat insulating material 12 and plant the anchor bolts 4 there.

When the installation work of the anchor bolts 4 is completed, the insertion plate 22, which is bent at both sides of the support plate 21, is pushed in to inserting the heat insulating material 12 at a predetermined position

When the installation of the support plate 21 and the insertion plate 22 is completed, the stopper 111 of the present invention is coupled to the threaded portion of the anchor bolt 4 using the tool 14 as shown in FIG. 11 A plurality of compression arms 113 formed on the inner peripheral surface of the stopper 111 are tightly engaged with threaded bosses formed on the threaded portion of the anchor bolt 4,

Therefore, the stopper 111 is made to be integral with the anchor bolt 4 by the compression arms 113 and the support piece 115 of the stopper 111 comes into close contact with the surface of the support plate 21, The two side insertion plates 22 are maintained in a solid supported state without shaking or rocking.

When the installation of the stopper 111 is completed, the support angle 6 is fitted into the anchor bolt 4 and fixed by the nut 5. When the stone 13 is placed on the support angle 6 and fixed It is possible to firmly support the stone 13 as shown in Fig.

The nut 5 and the supporting angle 6 are separated from the anchor bolt 4 when the support plate 21 having the support angle 6 or the insertion plate 22 is bent at both sides, When the tool is inserted into the tool insertion groove 114 formed in the outer circumferential face portion of the stopper 111 fixed to the threaded portion of the bolt 4 and then the tool is inserted into the tool insertion groove 114, the compression arms 113 of the stopper 111 are screwed into the threaded portion of the anchor bolt 4 The disassembly operation can be performed by a simple operation.

Stopper 102
103-Tool insert groove 104-Flange
111-stopper 112-cutout
113 - Alloyed carbide 114 - Tool insert groove
115-

Claims (4)

The cylindrical cutter tube 3 coupled to the supporting body 1 penetrating the heat insulating material 12 attached to the wall body 11 is joined to the wall body 11 in order to be able to maintain a stable coupling perpendicularly to the wall body 11. [ And a stopper (101) formed on the inner circumferential surface of a plurality of compression arms (102) inserted into a threaded hole of the screw part of the anchor bolt (4) for pressing the support body (1) Device. The method according to claim 1,
A plurality of tool insertion grooves 103 formed in the flange 104 of the stopper 101 so that the tool can be inserted and rotated so as to detach the stopper 101 from the threaded portion of the anchor bolt 4 Wherein the angle of the supporting stone of the supporting stone of the building stone supporting angle is set to be smaller than the angle of the supporting stone. The insertion plate 22 bent at both sides of the support plate 21 penetrating the heat insulating material 12 attached to the wall body 11 is coupled to the wall body 11 so as to maintain a stable engagement with the wall body 11 at right angles. A stopper 111 which is inserted into the threaded portion of the threaded portion of the anchor bolt 4 to form a plurality of compression pieces 113 for supporting the support plate 21 on the inner circumferential surface thereof,
A plurality of notches 112 formed at predetermined distances from the inner circumferential surface of the stopper 111 to the outer circumferential surface of the stopper 111 so as to exert the elastic force when the pusher members 113 of the stopper 111 are inserted into the threaded portion of the anchor bolt 4, )Wow,
And a support piece (115) attached to the rear surface of the stopper (111) to support the stopper (111). The method of claim 3,
A stopper 111 and a plurality of tool insertion grooves 114 formed on the outer circumferential surface of the support plate 115 so that the tool can be inserted and rotated so as to detach the stopper 111 from the threaded portion of the anchor bolt 4 upon disassembly The supporting stone of the supporting stone angle of a building stone according to claim 1,

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