KR20150019937A - An apparatus for fixing external ornaments to outer wall of building - Google Patents

Abstract

The present invention relates to a building exterior fixture, and more particularly, to a building exterior fixture, which comprises an anchor (100) fixed to a groove formed on an outer wall of a building, a fixing part (111) mounted to be adjustable in position with respect to the anchor, A bracket (110) having a support part (112) and fixing means (120) for fixing the bracket to an anchor, characterized in that the bracket support part (112) And an engaging projection which is disposed on the bracket supporting portion (112) to receive the change of the gap between the supporting portions and supports the exterior panel by the supporting portion so as to maintain the distance of the exterior panel relative to the building exterior wall, (130) having a plurality of brackets (133), whereby the conventional support part can be provided with a bracket As a result, it is possible to reduce the number of parts and reduce the manufacturing cost of the bracket, and it is possible to reduce the manufacturing cost of the existing structure The outer panel can be stably held with respect to the bracket by being engaged with the holes formed on the upper surface and the bottom surface of the outer panel and the support is arranged on the upper surface or the lower surface of the bracket supporting part and the interval with respect to the outer panel can be adjusted with bolts, Can be reduced.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an exterior panel fixing device,

The present invention relates to an external panel fixing device for a building. More particularly, the present invention relates to an external panel fixing device for an external panel such as a stone, a slab, or a tile by means of an anchor and a bracket. To a building exterior panel fixing device.

In the past, tiles were mainly used as exterior materials for buildings, but recently, tiles, stones, and slabs larger than the past tiles have been used because of the upgraded appearance of buildings.

The tiles used as exterior materials have been fixed by attaching them to the outer wall of the building with cement mortar. However, since the slab or stone used as the exterior material recently has a large weight, the cement mortar can not be held on the outer wall of the building during the curing period. An anchor is placed on the outer wall of the building and a bracket is attached to the anchor to support and fix the slab.

1 and 2 show a conventional structure for fixing a slab facer to an outer wall of a building which is not subjected to external thermal insulation. The bracket 5 having the horizontal portion 3 and the vertical portion 4 is folded so that the fastener 7 having the bolts 6 fastened to the anchor 2 is spaced apart by two predetermined lengths So that the slab 1 is fixed. The vertical portion 4 of the bracket 5 is provided with a slot 8 in the vertical direction for positional correction. A slot 9 is also formed in the horizontal portion 3 of the bracket 5 and a plate-like support member 10 for supporting the slate 1 is fixed to a predetermined position of the slot 9 by a bolt 11 And a hole 12 is formed in the tip end portion of the support member 10, and the fixing pin 13 is inserted and assembled so as to protrude up and down.

The slab 1 processed in the form of a plate is supported at the distal end portion of the support member 10 and the upper portion 14 protruding upward from the fixing pin 13 mounted on the end portion of the support member 11 is supported by the upper slab 1 The slat 15 is formed on the upper end face of the lower slab 1 and fixed to the bracket 5 of the fixing hole 7 The slab 1 is held parallel to the outer wall of the building by inserting the lower portion 16 of the fixing pin 13 provided in the supporting member 10 and the load of the slab 1 is held by the supporting member 9 And the slab 1 is installed on the outer wall of the building. At this time, the gap between the slabs 1 may be filled with a seal material 17 such as silicon.

However, in such a slab fastener 7, in order to assemble the support member 10 supporting the slab 1 to the horizontal portion 3 of the bracket 5, the bolt 11 is inserted in the precise position of the slot 9 There is a problem in that the efficiency of the assembling work of the slab 1 is low due to the difficulty of accurate positioning and the tightening operation of the bolt 11 using the tool.

In the conventional fastener 7 in which the support member 10 is fixed to the bracket 5 by fastening the bolts 11, the movement of the vehicle passing around the building during the elapse of a long time after the assembly of the slab 1 Vibration is generated and transmitted to the building. Such minute vibration continues to act on the building, so that the bolt 11 fastening for fixing the support member 10 to the bracket 5 can be gradually released, The position where the bolts 11 are fastened to the horizontal portion 3 of the bracket 5 may be changed.

The upper and lower slabs 1 are fixed together by the upper and lower portions 14 and 16 of the fixing pins 13 mounted on the supporting member 10 so as to protrude up and down. It is not possible to replace only the damaged slab 1 so that the damaged slab 1 can be broken and the existing slab 1 can be inserted and fixed in order to fix the slab 1 to be replaced. The upper and lower portions of the fixing pin 13 must be removed or the lower and upper portions of the fixing pin 13 fitted in the slot 15 in the upper and lower end faces of the slab 1 are cut by a cutter through a gap between the slabs 1 The damaged slab 1 can be removed so that the repair work of the slab 1 takes a lot of time and the upper and lower portions of the fixing pin 13 are removed when the damaged slab 1 is removed. It can not be fixed by the fixing pin 13, As a result, the fixed plate of the slab 1 to be replaced becomes unstable, so that the slab 1 which has been replaced at the time of long-term use can be dropped off. In this case, There was a risk of hurting or damaging people passing by.

In the conventional lithographic fixture 7, a horizontal portion 3 is formed at a right angle to the vertical portion 4 of the bracket 5, and one end portion of the support member 10 is fastened to the horizontal portion 3 with bolts The horizontal portion 3 of the bracket 5 and the support member 10 are deformed downward because the weight of the slab 1 acts on the other end portion of the support member 10, In order to prevent the stability of the support of the slab 1, there is a problem that the thickness of the horizontal part 3 and the thickness of the support member 10 The increase of the material cost and the increase of the interval between the slabs 1 are required to be improved.

Accordingly, In the Korean Patent No. 10-0880648, the horizontal portion of the bracket is configured to partially receive the support member in the inner space through an opening formed in the front as a cartridge form, and is mounted on the horizontal portion and includes a gear member, It is possible to mount the slats in a simple and precise position with the structure including the driving unit for moving the member in the horizontal direction and to stably support the slab by keeping the support member stable at the initially set position, The present invention has been made in view of the above problems, and it is an object of the present invention to provide a slab fixing device for a building, which can easily repair and maintain the slab for exterior use of a building and prevent waste of materials.

Nevertheless, when the distance between the slab and the outer wall of the building is different, it is necessary to use a slab fixing device having a different length of the horizontal part, so that a slab fixing device corresponding to various intervals is required, .

Particularly, the conventional fixing device 7 or the slab fixing device as described above has a structure in which the vertical part 4 of the bracket 5 is installed so as to be directly in contact with the outer wall of the building, The present invention has a serious problem that a sufficient supporting force can not be exerted due to the presence of a considerable thickness of the outer heat insulating material and the adjustment of the position of the bracket 5 with respect to the anchor 2 can be adjusted only up and down along the vertical direction slot 8 , There is a problem that it is difficult to precisely locate the outer wall of the building having a relatively large thickness of the outer insulation material.

Therefore, in order to apply the above-described conventional fastener 7 or the slab fixing device to the external heat insulating wall, the external heat insulating material is cut into a circular shape, and then the anchor 2 is fixed and the bracket 5 is brought into direct contact with the wall It is inevitable that a troublesome and troublesome construction process for fixing the cut-out portion with a polyurethane foam or the like is performed in order to prevent the deterioration of the external heat insulating property. In addition, by fixing the bolt 6 using a conventional nut, The length of the horizontal portion 3 of the bracket 5 or the length of the supporting member 10 is required to be extended by the thickness of the outer heat insulating material and accordingly the supporting force against the stone 1 is inevitably weakened There was a problem.

Korean Patent No. 10-0880648 (registered on January 20, 2009)

Therefore, a first object of the present invention is to provide a building exterior material fixing device capable of exhibiting a sufficient supporting force with respect to an outer wall of a building to which external insulation is applied.

A second object of the present invention is to provide a building exterior material fixing device in which cutting and filling work of external insulation is unnecessary.

A third object of the present invention is to provide a building exterior material fixing device capable of easily fixing the bracket to an anchor in any direction of 360 degrees.

A fourth object of the present invention is to provide a building exterior material fixing device which can easily and efficiently perform installation, fixing, and replacement work of a building exterior material.

A fifth object of the present invention is to provide a building exterior material fixing device which can be used universally even when the exterior material of the building and the exterior wall of the building or the external insulation are different in distance from each other.

In order to achieve the first to third objects of the present invention, an aspect of the present invention provides an anchor to be fixed to a groove formed on an outer wall of a building, And a fixing means for fixing the bracket to the anchor, wherein the bracket is provided at the center of the fixing portion, A fixing plate having a plurality of holes formed adjacent to an outer end of the support portion, the fixing means having a conical protrusion on the back surface and screwed to the free end of the anchor; A washer for fixing the fixing part, and a nut screwed to the anchor, And the position adjustment of the jack can be made in any direction at an angle of 360 [deg.] Within the area of the above-mentioned expansion hole.

Here, a plurality of protrusions may be formed on the outer peripheral surface of the fixing plate at regular intervals.

A plurality of slots may be radially formed in the fixing plate.

Also, a thread may be formed on the outer peripheral surface of the conical projection of the fixing plate.

Meanwhile, the plurality of holes formed at the outer end of the support portion may be configured such that the fixing pin is protruded upward and downward of the support portion, and is engaged with the holes formed in the upper and lower surfaces of the exterior panel to fix the exterior panel.

According to a preferred embodiment of the present invention for achieving the fourth and fifth objects of the present invention, a change in the distance between the support panel and the external panel, which are respectively installed on the upper and lower sides of the support portion of the bracket, And an engaging protrusion disposed on the upper and lower sides of the supporting portion of the bracket to engage with holes formed in the bottom surface and the upper surface of each of the exterior panels to support the exterior panel by the support portion while maintaining a predetermined gap with respect to the exterior wall of the building There is provided a building exterior material fixing device which further includes a supported earth.

Here, the support member may include a plate member having an end portion disposed on an upper surface and a bottom surface of the support portion of the bracket, and a connection portion extending at a right angle at a central portion of the plate member, wherein the coupling protrusion is protruded from the end portion of the connection portion Lt; / RTI >

Further, a plurality of fastening holes having threaded portions formed on both sides of the plate member of the retainer may be used to adjust the position of the plate member with respect to the external panel with a bolt, so that the distance between the fastening protrusion and the external panel And a fixing pin is inserted into a plurality of holes formed at an outer end of the support portion to prevent the plate member from being separated from the support pin.

In addition, it is also possible to form a long hole in the center of the support portion of the bracket so that a separate support member can be bolt-fastened so as to be adjustable in length.

The building exterior panel fixing apparatus according to the present invention can exhibit a sufficient supporting force despite the presence of a considerable thickness of the outer insulation material on the outer wall of the building to which the outer insulation construction is applied and also the cutting and filling operation of the outer insulation material in the construction Since the fixing of the bracket to the anchor can be easily adjusted in any direction of 360 degrees, it is possible to easily carry out the replacement operation of the building exterior material with high ease of installation and construction efficiency, It can be applied to a general purpose even when the distance between the outer wall of the building or the outer heat insulating material is different.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic sectional view showing a device for fixing an exterior panel such as a slab to the outer wall of a conventional building.
2 is a perspective view of the external panel fixing device of Fig.
3 is a perspective view of an external panel fixing apparatus according to the present invention.
4 is an exploded perspective view of the external panel fixing device of Fig.
5 is a perspective view of a fixing plate for fixing the bracket of FIG. 4 to an anchor.
6 is a sectional view showing an example of construction of an external panel fixing apparatus according to the present invention.
7 is a sectional view showing another example of the construction of the external panel fixing apparatus according to the present invention.
Figs. 8 and 9 are cross-sectional views showing examples of the construction in which the slabs are fixed using the same bracket and fixed structure even in the case of Figs. 6 and 7, respectively, where the slabs fixed to the outer wall of the building are different in thickness.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings showing embodiments of a building exterior panel fixing apparatus according to the present invention.

3 to 5, the building exterior panel fixing apparatus according to the present invention includes an anchor 100 fixed to a groove formed on an outer wall of a building, a fixing portion 111 And a supporting portion 112 for supporting the load of the slab as an example of an external panel and a fixing means 120 for fixing the bracket 110 to the anchor 100. [

The bracket 110 has an L shape and is horizontally bent at the lower end of the vertical fixing part 111. The bracket 110 has a large portion for fitting into the anchor 100 at the center of the fixing part 111, And a plurality of circular holes 116 are formed in the support portion 112 adjacent to the outer end of the support pin 112 so as to protrude up and down from the support portion 112 117 are sandwiched between the upper and lower surfaces of the supporting portion 112 and are disposed adjacent to the upper and lower surfaces of the supporting portion 112. The lower surface of the supporting portion 112 and the lower surface of the supporting portion 112, (See reference numeral 141 in FIG. 6) formed on the upper surface of the slab disposed on the lower side so that the slab is held at the fixed position without falling outward, and is disposed on the support portion 112 separately during the open joint construction, Support It engages in 130. The The support 130 will be described later.

Optionally, the support 112 may further include a conventional support member (see reference numeral 10 in FIG. 2) according to the spacing of the stones formed with the long holes 118 along the longitudinal direction And the bracket 110 can be used in a more general manner.

The fixing means 120 for fixing the bracket 110 to the anchor 100 includes a fixing plate 121 having a conical protrusion 124 at the back and screwed to the free end of the anchor 100, A washer 122 for fixing the fixing portion 111 of the bracket 110 with respect to the fixing plate 121 and a nut 123 screwed to the anchor 100.

Therefore, the adjustment of the position of the bracket 110 with respect to the anchor 100 can easily and easily be performed in an arbitrary direction of 360 ° within the area of the above-described expansion hole (not designated). The diameter of the above-mentioned expansion hole is formed to be much larger than the diameter of the anchor 100, and it is usually 25 to 40 mm in diameter, specifically, 32 mm in diameter.

Since the fixing plate 121 has a large area so as to protrude outside the fixing portion 111 of the bracket 110, the fixing plate 121 is pressed against the outer heat insulating material (refer to reference numeral 150 in Figs. 6 to 8) attached to the outer wall of the building Can be maintained more firmly.

Further, a plurality of protrusions 125 are formed on the outer circumferential surface of the fixing plate 121 at a predetermined interval, so that the operator can hold and rotate the assembly by using a hand or a tool.

In addition, a plurality of slots 126 are radially formed on the outer circumferential surface of the fixing plate 121 so that an operator can easily rotate the fixing plate 121 by using a tool, and if necessary, So that it can be easily and firmly fixed by injecting it into one slot 126.

5, the outside of the conical protrusion 124 of the fixing plate 121 may be of a demagnetized type, but it is preferable that the conical protrusion 124 is formed by forming threads (not designated) So that it can be more easily embedded in the body 150.

The fixing of the bracket 110 to the outer wall by means of the fixing means 120 is performed by screwing the fixing plate 121 to the anchor 100 and then fastening the fixing portion 111 of the bracket 110, The washer 122 is disposed on the outer surface of the anchor 100 and the nut 123 is fastened and fastened to fix the bracket 110 to the anchor 100. It is a matter of course that the diameter of the washer 122 should be larger than the diameter of the expansion hole, and the bracket 110 is firmly supported despite the presence of the external heat insulator 150. [

Therefore, in the present invention, the position of the bracket 110 relative to the anchor 100 can be changed by moving the fastening position of the fastening plate 121 screwed to the anchor 100 to the upper, Lt; RTI ID = 0.0 > direction. ≪ / RTI >

The fixing pins 117 are inserted into a plurality of holes 116 formed adjacent to the ends of the supporting portions 112 of the bracket 110 and the upward and downward protruding portions of the fixing pins 117 are, (Refer to reference numeral 141 in FIG. 6) formed on the bottom of a slab (refer to reference numeral 140 in FIG. 6) disposed on the support portion 112 of the bracket 110 so that the slab is spaced apart from the outer wall of the building Respectively. The fixing pin 117 is formed in the form of a circular column and protrudes outward (not shown) so as to be caught and held when it is inserted into the hole in the middle.

When the distance between the outer wall of the building and the exterior panel is larger than the length of the support portion 112 of the bracket 110, the bracket 110 is fixed to the support portion 112 of the bracket 110, Since the external panel can not be supported by the fixing pins 117 fitted in the plurality of holes 116, the bracket 110 can be fixed to the bracket 110, And a support 130 for supporting the exterior panel disposed on the upper and lower surfaces of the support portion 112.

The support member 130 includes a plate member 131 having a lower end disposed on an upper surface or a lower surface of a support portion 112 of the bracket 110, a connection portion 132 extending perpendicularly from a central portion of the plate member 131, And an engagement protrusion 133 protruding upward from an end of the connection part 132. As a result, the support parts 130 are positioned above and below the support part 112. [

A plurality of fastening holes 135 are formed on both sides of the plate member 131 and the bolts 136 are used to adjust the position of the plate member 131 with respect to the slate so that the coupling protrusions 133 are engaged with holes And a fixing pin 117 is inserted into holes 116 on both sides except for the center of the plurality of holes 116 formed at the outer end of the supporting part 112 So that the outward movement of the upper and lower supports 130 fixed to the outer panel, that is, the stones, from the support portion 112 of the bracket 110 can be effectively performed as a stopper for the plate member 131 .

The connecting portion 132 of the support 130 is formed in a tapered shape gradually decreasing in height toward the coupling protrusion 133 so that the inclined slot 142 formed in the slab (refer to reference numeral 140 in FIG. 6) So that the insertion operation of the insertion and engagement protrusions 133 through the holes 141 of the protrusion 133 can be performed efficiently and easily.

A method of fixing a slab at a predetermined interval to an outer wall of a building using a building exterior panel fixing apparatus having the above-described construction according to the present invention will be described.

6 is a cross-sectional view showing a state in which a slab 140 is fixed to an outer wall of a building by an open joint construction using the building exterior panel fixing device of the present invention.

The anchor 100 is fixed to the outer wall of the building through the outer heat insulating material 150 attached to the outer wall of the building and the fixing plate 121 is screwed to the end of the anchor 100 protruded from the outer heat insulating material, The fixing portion 111 of the bracket 110 is inserted and the position is adjusted to the correct position and then the washer 122 is disposed on the outer side and the nut 123 is fastened to the bracket 110. At this time, the conical protrusions 124 on the back surface of the fixing plate 121 dig into the outer heat insulating material 150 and are held firmly. As a result, compared with the prior art in which the outer heat insulating material 150 is circularly removed by using a tool and the anchor 100 and the conventional fixing plate are fixed and then filled with the foaming resin, the anchor 100 and the fixing plate 121 The installation becomes much easier and more efficient.

The position of the fixing pin 117 provided at the outer side end of the supporting portion 112 is the same as the position of the supporting portion 112 of the bracket 110 in relation to the outer wall of the building, The plate member 131 as the support member 130 for this case is arranged to extend vertically from the support portion 112 of the bracket 110 and to the hole 141 formed on the bottom surface of the bracket 110, The engaging projection 133 provided at the end of the connecting portion 132 is fitted to the bottom or upper surface of the slab 140 and fastened by bolts 136 at both sides of the plate member 131. [

At this time, the fixing pin 117 is inserted into the holes 116 on both sides except for the center out of the plurality of holes 116 formed at the outer end of the supporting part 112, The slab 140 to which the support 130 is fixed is firmly fixed without being detached from the support portion 112 of the bracket 110. As a result, In such an open joint construction, caulking is not provided in the gap between the upper and lower slabs 140.

7 shows an example in which the fixing device of the present invention is used in the joint corking construction. Unlike the case of FIG. 6, the fixing part 111 of the bracket 110 is fixed to the anchor 100 fixed to the outer wall of the building, The upper and lower slabs 140 are engaged with the holes 141 formed in the bottom and upper surfaces of the upper and lower slabs 140 by the fixing pins 117 provided in the holes 116, The position is held fixed. 6, the distance between the outer wall of the building and the slab 140 is smaller than that in the case of FIG. 6, so that when the slab 140 is positioned inside the free end of the support portion 112 of the bracket 11, The slab 140 can be used to fix the slab 140 to the building outer wall in a general manner without using the earth 130. [ It goes without saying that, in this example, the gap between the upper and lower slats 140 may be caulked to finish.

FIGS. 8 and 9 are diagrams showing similarity between FIGS. 6 and 7, respectively. In the case where the thickness of the slab 140 fixed to the outer wall of the building is different, the slab 140 can be fixed using the same bracket 110 and the fixing structure And the structure thereof is essentially the same as that of Figs. 6 and 7, so that the explanation of the above will be omitted.

As described above, the building exterior panel fixing device of the present invention can also be widely used for the distance between the exterior wall of the building and the slab, and the thickness of the slab, so that it is necessary to use different brackets to change the distance between the exterior wall of the building and the slab The cost of the bracket part can be reduced, and the construction time can be shortened.

In the present embodiment, the outer panel has been described using the slab as an example. However, it is also within the scope of the present invention that the tile is large enough that the cement mortar can not be fixed to the outer wall of the building due to its large weight.

The building exterior panel fixing apparatus of the present invention can firmly and stably fix the exterior wall of the building despite the existence of external insulation against the exterior wall of the building, and it is possible to fix the exterior wall of the building with a slab, a stone or a tile It can be used to easily attach and fix.

100: anchor 110: bracket
111: fixing part 112; Support
116: hole 117: pin member
130: support member 131: plate member
132: connecting portion 133: engaging projection

Claims (9)

A bracket (110) having an anchor (100) fixed to a groove formed on an outer wall of a building, a fixing part (111) mounted to be adjustable with respect to the anchor, and a support part (112) And fixing means (120) for fixing the bracket (110) to the anchor (100), characterized in that:
The bracket 110 has an expansion hole formed at the center of the fixing portion 111 and a plurality of holes 116 formed adjacent to an outer end of the support portion 112,
The fixing means 120 includes a fixing plate 121 having a conical protrusion 124 on the back and screwed to the free end of the anchor 100 and a fixing plate 121 fixed to the fixing plate 121, A washer 122 for fixing the bolt 111, and a nut 123 screwed to the anchor,
Wherein the adjustment of the position of the bracket (110) relative to the anchor (100) can be made in any direction within 360 ° within the area of the expansion hole. The building exterior fixture fixing device according to claim 1, wherein a plurality of protrusions (125) are formed on the outer circumferential surface of the fixing plate (121) at regular intervals. The building envelope fixing device according to claim 1, wherein a plurality of slots (126) are radially formed in the fixing plate (121). The building exterior fixture as set forth in claim 1, wherein a thread is formed on an outer peripheral surface of the conical projection (124) of the fixing plate (121). The apparatus according to any one of claims 1 to 4, wherein a fixing pin (117) is inserted into the plurality of holes (116) formed at the outer end of the support portion (112) so as to protrude up and down from the support portion And fixing the exterior panel by engaging with a hole (141) formed on the upper and lower surfaces of the exterior panel. The bracket (110) according to any one of claims 1 to 4, wherein a change in the distance between the external panel and the support portion (112) installed on the upper and lower sides of the support portion (112) The support panels 112 are disposed on the upper and lower sides of the support part 112 of the bracket 110 to support the exterior panels while maintaining a predetermined distance from the exterior wall of the building by the support parts 112, Further comprising a support (130) having an engagement projection (133) engaging with the hole (141). The bracket according to claim 6, wherein the support (130) comprises: a plate member (131) having an end disposed on an upper surface and a bottom surface of the support part (112) of the bracket (110) Wherein the coupling protrusions (133) are protruded from the end portions of the connecting portions (132). 8. The apparatus of claim 7, wherein the plate member (131) of the support (130) is formed with a plurality of fastening holes (135) A plurality of holes 116 formed at an outer end of the support portion 112 so as to be adjustable in distance from an external panel in which the coupling projections 133 are fitted in the holes 141 in the bottom surface of the external panel, And a fixing pin (117) is inserted into the plate member (131) to prevent the plate member (131) from coming off. The bracket according to any one of claims 1 to 4, wherein an elongated hole (118) is formed at the center of the support part (112) of the bracket (110) in the longitudinal direction so that a separate support member Fixing device of building exterior material formed to be bolt-fastenable.

Images