WO2012148113A2 - Supporting device of stone corbel for construction - Google Patents

Abstract

The present invention pertains to a supporting device of a stone corbel for construction. Specifically, a screw hole is formed in the center of a supporting body such that the supporting body may move along the thread of an anchor bolt which is fixed to a wall element. In addition, a cutting blade section is formed at one side portion of the supporting body so as to penetrate and be inserted inside an insulating member by rotational force which is generated by the movement through the screw hole. Therefore, the cutting blade section is supported while in contact with the wall element.

Description

Support device for building stone support angle

The present invention relates to a support device for building stone bearing angle, in particular, to form a screw hole in the center of the support to enable the support to be moved along the thread of the anchor bolt fixed to the wall and to form a cutting blade on the support cutting blade The bearing is inserted after cutting the heat insulating material by the rotational force generated by the movement of the additional screw hole to be supported while contacting the wall. The cutting edge of the support is inserted while cutting the heat insulating material in a circular shape to support the contact with the wall. Since the angle can be fixed in a stable state without twisting or tilting, it is possible to obtain a solid support force and the insulation cut by the cutting blade of the support is positioned inside the support without falling to the outside. To minimize the damage of the insulation It relates to a supporting device for building stone bearing angle that can be used.

Conventional support angles are shown in FIGS. 1 and 2.

The conventional support angle is such that the vertical plate 1 is brought into contact with the surface of the heat insulating material 6 attached to the wall 7 to fix the stone 8 such as marble on the surface of the wall 7 of the building. The anchor bolt 5 fixed to (7) is inserted into the vertical long hole (2) is fixed by the nut (4) and the horizontal plate (3) is configured to put the stone (8).

The prior art as described above, the vertical plate (1) by attaching the vertical hole (2) of the support angle to the anchor bolt (5) exposed to the surface of the heat insulating material (6) after attaching the heat insulating material (6) to the surface of the wall (7) ) Is in contact with the heat insulating material (6) and the anchor bolt (5) inserted into the vertical hole (2) by fastening the nut (4) to fix the support angle.

However, while the nut 4 is fastened to the anchor bolt 5, the support angle is not firmly fixed by the elasticity of the heat insulating material 6 but is fixed in a twisted or inclined state.

Therefore, when the support angle is fixed in an inverted or inclined state, the stone 8, which is a post-process, cannot be fixed in an orderly state when it is fixed to the horizontal plate 3.

In addition, since the support angle does not maintain a firm fixed state, the stone is attached in an unstable state, and the air supply has a dangerous problem such as the stone 8 falling off.

In order to solve the above problems, in recent years, in order to make the support angle directly contact the wall 7, the insulation material 6 in contact with the support angle is cut in a rectangular shape to form a through hole, and then the support angle with the through hole. There is also a work site that takes means to insert the vertical plate 1 of the insulator to directly contact and fix the wall 7.

However, since the support angles are attached to dozens to hundreds in one building, in order to attach the tens to hundreds of support angles, it was necessary to cut dozens to hundreds of through holes, which was very inefficient and inefficient. .

In particular, when cutting several hundred to hundreds of through-holes as described above, the heat insulation effect is reduced by that much had a cumbersome and uncomfortable problems that need to take additional insulation measures.

An object of the present invention for solving and solving such a conventional problem,

The cutting blades of the support are inserted while cutting the heat insulating material in a circular shape to support the contact with the wall, so that the supporting angle to be joined later can be fixed in a stable state without being twisted or tilted, thereby obtaining a strong support force and cutting of the support. Since the insulation cut by the blade is located inside the support without falling to the outside, it provides the purpose of maximizing the insulation effect of the insulation by minimizing the damage of the insulation when attaching the support angle to the wall.

In order to achieve the above object, the present invention,

A screw hole is formed in the center of the support so that the support can be moved along the thread of the anchor bolt fixed to the wall, and a cutting blade is formed in the support so that the cutting blade penetrates the insulation by the rotational force generated by the movement of the screw hole. When inserted and supported in contact with the wall, the object of the present invention can be achieved.

In the present invention as described above, the cutting blade portion of the support body is inserted while cutting the heat insulating material in a circular shape so as to support the contact with the wall can be fixed in a stable state without the phenomenon of twisting or tilting the support angle to be coupled in the future solid support force Has the effect of obtaining.

The present invention as described above, since the heat insulating material cut by the cutting blade portion of the support is located inside the support without falling to the outside is useful to minimize the damage of the heat insulating material when attaching the support angle to the wall to maximize the heat insulating effect of the heat insulating material. Has an effect.

1 is a partially cutaway perspective view showing the configuration of a conventional support angle

Figure 2 is a view showing for explaining the combined state of the conventional bearing angle

Figure 3 is a perspective view showing the configuration of the support device of the present invention

4 and 5 are views for explaining the coupling process of the support device of the present invention

Figure 6 is a view showing for explaining the position adjustment action of the support angle supported by the support device of the present invention

Figure 7 is a view showing a state in which the stone raised on the support angle supported by the support device of the present invention

Description of the sign

101-support 102-cutting blade

103-indentation 104-screw

105-flange

The configuration of the present invention will be described in detail with the accompanying drawings.

The support angle 11 supporting the stone 16 can be firmly fixed to the wall 14 of the building, and at the same time, the damage of the heat insulating material 15 is minimized when the support angle 11 is attached to the wall 14. A support 101 having a screw hole 104 formed at the center thereof so as to be moved along the thread of the anchor bolt 12 fixed to the wall 14 to increase the effect;

The cutting blade 102 is formed on the support 101 to be inserted into the support body 101 by being inserted through the heat insulating material 15 by the rotational force generated by the rotation of the support 101 to be in contact with the wall 14.

In addition, a flange 105 formed on an outer circumferential surface of the support 101 is further provided to prevent air from flowing through the cutting blade portion 102 and the heat insulating material 15.

In addition, the concave in which the tool 17 can be inserted into the outer peripheral surface of the screw hole 104 of the support 101 so that the support 101 can be screwed to the anchor bolt 12 using the tool 17. (103) was further provided.

Referring to the operation of the present invention as described above is as follows.

Figure 3 is a partially cutaway perspective view showing the configuration of the support device of the present invention, the support 101 of the present invention is first screwed to the anchor bolt 12 exposed to the surface of the heat insulating material 15 attached to the wall (14) Let.

Then, when the vertical hole formed in the vertical plate of the support angle 11 is coupled to the anchor bolt 12 and then the nut 13 is fastened to complete the coupling.

That is, Figures 4 and 5 are views for explaining the coupling process of the support device of the present invention, the screw hole 104 formed in the center of the support 101 of the present invention exposed to the heat insulating material 15 of the wall (14) Screwed to the anchor bolt (12).

At this time, when the screw bolt 104 is made to the anchor bolt 12, the cutting blade 102 formed on the support 101 while the support 101 moves and rotates along the thread, the heat insulating material 15 The cutting is circular.

In addition, the cutting blade 102 is in contact with the wall 14 through the heat insulating material 15 by the continuous rotation and the support 101 is no longer rotated by the wall 7 is stopped.

As described above, the support 101 of the present invention is in a state of filling the internal space without dropping the cut heat insulating material 15 to the outside.

Since the heat insulating material 6 cut as described above is filled in the support body 101, the heat insulating effect is not lowered.

In addition, the support 101 may be coupled to the anchor bolt 12 by the operator by manual rotation, but because the number is very large, the crowd will follow.

Accordingly, in the present invention, the recess 103 is formed in the outer peripheral surface of the screw hole 104 of the support 101 so that the power tool 17 and the like can be inserted.

That is, by inserting the power tool 17, etc. in the concave inlet 103 to rotate automatically, it is possible to perform the assembly work of the support 101 more quickly.

When the assembly work of the support body 101 is completed as described above, the existing support angle 11 is coupled to the anchor bolt 12 exposed by the screw hole 104 of the support body 101 which is firmly supported. The vertical long hole formed on the vertical plate of the support angle 11 may be inserted into the anchor bolt 12 and then fastened by fixing the nut 13.

At this time, the support angle 11 is to be fixed after adjusting the position by easy to move up and down in the vertical hole, as shown in FIG.

Then, after the support angle 11 is firmly fixed to the support 101, the stone 16 is placed on the support angle 11 and fixed as shown in FIG. 7.

On the other hand, the flange 105 formed as the outer circumferential surface of the support body 101 of the present invention is insulated by air flows through the gap generated between the cutting edge 102 and the interface between the insulating member 15 by the cutting of the cutting blade 102 It is for preventing an effect from falling.

Claims (3)

1. The support angle 11 supporting the stone 16 can be firmly fixed to the wall 14 of the building, and at the same time, the damage of the heat insulating material 15 is minimized when the support angle 11 is attached to the wall 14. A support 101 having a screw hole 104 formed at the center thereof so as to be moved along the thread of the anchor bolt 12 fixed to the wall 14 to increase the effect;

   It is characterized in that it is provided with a cutting blade 102 formed in the support 101 to be supported by contact with the wall 14 is inserted through the heat insulating material 15 by the rotational force generated by the rotation of the support 101 Support device for building stone support angle.
2. The method of claim 1,

   Building stone support angle, characterized in that further provided with a flange 105 formed on the outer circumferential surface of the support 101 to prevent the flow of air between the cutting blade 102 and the heat insulating material 15 is lowered Support device.
3. The method of claim 1,

   Indentation portion 103 in which the tool 17 can be inserted into the outer peripheral surface of the screw hole 104 of the support 101 so that the support 101 can be screwed to the anchor bolt 12 using the tool 17 Supporting device for building stone support angle, characterized in that further provided).

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