KR20150144596A - Install system of support unit for stone plate corbel - Google Patents

Abstract

A system for installing a support unit for a stone panel supporting angle according to the embodiment of the present invention includes: a rotary tool assembly of which one end is inserted and guided in an anchor member installed to protrude the end with a screw thread from a building wall surface wherein an insulating material is installed on the surface and the other end is joined to an electric tool and receiving the torque of the electric tool; a cylindrical supporting member rotating by being interlocked with the rotation of the rotary tool assembly and inserted into the insulating material until an edge unit formed on the inserted end at an insertion position comes into contact with the building wall surface and of which the other end of the edge unit is arranged side by side with an exposed surface of the insulating material; and a support angle comes into face-contact with the cylindrical supporting member and coupled to a bolt screw-joined to the screw thread formed on the end of the anchor member. The rotary tool assembly includes: a body unit longer than the anchor member and having an inner diameter corresponding to that of the cylindrical supporting member; a gripping unit formed on the end of the body unit and having an inner diameter corresponding to an outer diameter of the cylindrical supporting unit to grip the outer circumference of the cylindrical supporting unit; a protrusion formed on the body unit and of which one end is protruding out of the cylindrical supporting unit; and a tool connecting unit integrally formed on the other end of a guide pipe and connected to the electric tool.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an installation system for a stone panel,

The present embodiment relates to a support unit installation system used in a support angle of a building stone panel.

The exterior wall of the building can be finished with various materials. The outer wall finishing using stone panel such as marble is formed in a certain space between the building wall and the stone panel, so that the wall surface of the building can be protected by rainfall and external moisture.

However, due to the recent amendment of the law, when such a stone panel is installed on the outer wall of a building, it has been installed through a heat insulating member having a certain thickness or more between the wall surface of the building and the stone panel. In the case where the heat insulating member is interposed between the stone panel and the wall surface of the building in this way, in order to assemble the anchor bolt and the supporting angle to be inserted and fixed to the outer wall of the building in order to construct the stone panel, There is a hassle.

In addition, such a removing step is a step of cutting out a joint part by using a heat mechanism such as hot wire or the like, thereby wasting the heat insulating member of the connecting part, There is a problem in addition to this.

Korean Registered Patent No. 10-1299633 (Registered on August 19, 2013) Korean Registered Patent No. 10-1299632 (Registered on August 19, 2013)

The present embodiment provides a system for installing a stone panel support for a building, which does not require a separate heat insulating member removing step.

The system for installing a stone panel support arm angle supporting unit according to the present embodiment is constructed such that one end is inserted and guided by an anchor member provided with a threaded end protruding from a wall surface of a building constructed on the surface thereof, A rotating tool assembly for receiving rotational power of the power tool; The rotary tool assembly rotates in conjunction with the rotation of the rotary tool assembly and is inserted into the heat insulating member until an edge formed at the insertion end of the insertion tool contacts the wall of the building, A cylindrical support member arranged side by side; And an anchor angle in which a bolt threaded into a screw thread formed on an end of the anchor member is engaged while being in surface contact with the cylindrical support member, wherein the rotation tool assembly has a length longer than a length of the anchor member, A body portion having a diameter corresponding to a diameter of an inner circumferential surface of the cylindrical support member; A grip portion formed at an end of the body portion and having an inner diameter corresponding to an outer circumferential surface of the cylindrical support member to grip an outer circumferential surface of the cylindrical support member; A support protrusion protruding from the body and having an end projecting outwardly formed on the cylindrical support member; And a tool connecting part integrally formed at the other end of the guide pipe and connected to the power tool.

The gripping part may further include at least one slit to enable a circumferential deformation of the gripping part.

And at least one cut-out portion having a larger width than the slit.

One of the support protrusions may protrude.

The supporting protrusions may have a rectangular cross section.

In the insertion process of the cylindrical support member, the anchor member may be supported on the inner circumferential surface of the body portion and the inner circumferential surface of the cylindrical support member.

Wherein the cylindrical supporting member has a cylindrical body having a length corresponding to the thickness of the heat insulating member; An edge portion formed at an insertion side end of the cylindrical body; And a support groove formed in a shape and position corresponding to the support protrusions.

The support groove may have a depth corresponding to the insertion length of the support protrusion.

When the thickness of the cylindrical supporting member is 2 to 10 mm, the edge portion may form a tapered portion at one of the inner side and the outer side so that the shape of the end is sharp.

When the thickness of the cylindrical supporting member is 1 to 2 mm, the shape of the edge of the edge portion may be flat.

When the diameter of the cylindrical support member is 50 mm or more, a support plate may be interposed between the cylindrical support member and the support angle.

The support unit can be inserted into the wall of the building while guiding the precise position of the support unit with the anchor bolt by simply inserting the cylindrical stone panel support angle supporting unit into the wall of the building using a dedicated tool.

In addition, it can be manufactured at a lower cost than the prior art described in the prior art or the like, and since the dedicated tool is guided by the anchor bolts for installing the stone panel, the insertion position of the simple shape supporting unit is accurately guided, have.

1 is an exploded perspective view of a system for installing a building stone panel support angle support unit according to the present embodiment,
2 is a perspective view of a rotating tool assembly according to the present embodiment,
Fig. 3 is a front view of Fig. 2,
4 to 7 are sectional views of a cylindrical supporting member,
8 is a cross-sectional view illustrating a process of installing a system for installing a stone panel support for a building,
9 is a cross-sectional view showing a state in which a building stone panel is installed by installing a building stone panel support angle supporting unit installation system according to the present embodiment,
FIGS. 10 to 13 are perspective views schematically showing a state in which a building stone panel support angle supporting unit mounting system according to the present embodiment is inserted into a wall surface of a building to which a heat insulating member is attached.

Hereinafter, the present embodiment will be described with reference to the accompanying drawings.

Fig. 2 is a perspective view of a rotary tool assembly according to the present embodiment, Fig. 3 is a front view of Fig. 2, Figs. 4 to 7 are cross- FIG. 8 is a cross-sectional view illustrating a process of installing a system for installing a building stone panel support angle supporting unit according to the present embodiment, and FIG. 9 is a view for installing a construction stone panel support angle supporting unit installation system according to the present embodiment 10 to 13 illustrate a state in which a system for installing a building stone panel support angle supporting unit according to the present embodiment is inserted into a wall surface of a building to which a heat insulating member is attached, It is a perspective.

It is to be noted that the same components of the drawings are denoted by the same reference numerals and symbols as possible even if they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Also, when a part is referred to as "including " an element, it does not exclude other elements unless specifically stated otherwise.

1, the construction stone panel support angle supporting unit installation system according to the present embodiment includes a rotary tool assembly 100, a cylindrical supporting member 200, a power tool 300, a support plate 400, Angle < / RTI >

The rotary tool assembly 100 is guided at one end by being inserted into an anchor member 10 provided with a threaded end portion 11 protruding from a wall surface 1 of the building where the heat insulating member 2 is installed on the surface, And is coupled with the power tool 300 to receive the rotational power of the power tool 300.

According to the present embodiment, the rotary tool assembly 100 may include a body 110, a grip 120, a support protrusion 130, and a tool connection 140.

The body portion 110 may be provided in a cylindrical shape having a first diameter D1 as shown in FIG. The first diameter D1 may be equal to the diameter of the cylindrical support member 200 and the inner diameter of the body 110 may be the same as the inner diameter of the cylindrical support member 200 .

The body portion 110 is provided such that the cylindrical support member 200 can be inserted while being guided along the anchor member 10 and the inner and outer peripheral surfaces of the anchor member 10 and the length L is longer than the length of the cylindrical support member 200 are longer than the length of the anchor member 10 exposed at the fully inserted position. The first diameter D1 of the body portion 110 may correspond to the size of the cylindrical support member 200 used. Accordingly, the body 110 may not contact the end of the anchor member 10 at the installation position of the cylindrical support member 200.

As shown in FIG. 2, the grip portion 120 is formed at one end of the body portion 110 and may have a second diameter D2. At this time, the second diameter D2 is preferably set to a value larger than the first diameter D1, and preferably has a diameter of the inner circumferential surface corresponding to the outer diameter of the cylindrical support member 200 . That is, the gripper portion 120 is provided so that the inner circumferential surface thereof can grip the end portion of the cylindrical support member 200, and the end of the cylindrical support member 200 is in contact with the opening side end portion of the body portion 110 The outer circumferential surface can be supported by the grip portion 120.

According to the present embodiment, at least one slit 121 may be provided on the peripheral surface of the gripper 120. The slit 121 is formed so as to be capable of gripping the cylindrical support member 200 while being elastically deformed in the circumferential direction even if the diameter of the cylindrical support member 200 is formed to be slightly larger due to manufacturing tolerance or the like will be. The cylindrical support member 200 can be more easily inserted and bonded by the slit 121.

A cutout 122 may be provided at a position of the grip 120 that does not interfere with the slit 121 in order to improve the insertion property of the cylindrical support member 200. The cutout portion 122 is formed to be larger than the slit 121 and can form an open space portion having a substantially rectangular shape. When the incision part 122 is provided, insertion and removal operations of the cylindrical supporting member 200 can be easily performed through this part.

The supporting protrusions 130 may be connected in a direction perpendicular to the center of the body 110 as shown in FIGS. 2 and 3. For example, the protrusions having a rectangular section may protrude in a predetermined length . The support protrusion 130 may be integrally formed with the grip portion 120 or may be integrally formed with the body portion 110. The support protrusions 130 may be disposed symmetrically with respect to the center of the body 110, but are not limited thereto. As shown in FIG. Although not shown, two or more of them may be provided so as to disperse the force required for rotation.

The support protrusions 130 and the body 110 and / or the grips 120 may be formed as one body as described above, but not limited thereto, And may be welded and connected if the part 110 is made of a steel material or may be adhesively fixed with an adhesive member if it is a synthetic resin material.

The tool connecting portion 140 may be formed integrally with the body portion 110 and may be connected to a tool mounting portion of a known commercial power tool 300.

4 is a perspective view of the cylindrical support member 200 according to the present embodiment.

As shown in the figure, the cylindrical support member 200 according to the present embodiment is formed of a steel pipe material and may include a cylindrical body 210, an edge portion 220, and a support groove 230.

The cylindrical body 210 may have a length corresponding to the thickness of the heat insulating member 2 and may be inserted and coupled such that one end of the cylindrical body 210 is parallel to the exposed surface of the heat insulating member 2. [ Therefore, the length of the cylindrical body 210 can be selectively changed corresponding to the thickness of the heat insulating member 2 used in the building.

In the case of this embodiment, unlike the conventional support mentioned above, since the pipe member having a simple shape is used as the cylindrical body 210, it is advantageous in that the manufacturing is simple and the construction is convenient. That is, the thickness and the diameter of the cylindrical body 210, which can ensure an appropriate supporting force, can be determined according to the load of the building-use stone panel P (see FIGS. 9 and 10) A commercial steel pipe or the like can be easily cut and cut to a required length.

As shown in FIG. 5, the edge portion 220 is formed at the insertion side end of the cylindrical body 210, and a tapered portion is formed at the inner circumferential surface to sharpen the tip, or a tapered portion is formed on the outer peripheral surface as shown in FIG. So that the ends can be sharpened. In the case of forming the taper, the thickness of the cylindrical body 210 is 2 to 10 mm. If the cylindrical body 210 has a thin thickness of 1 to 2 mm, it may be flat as shown in FIG. 7 without additional tapering. This is because, when the thickness of the cylindrical body 210 is thin, it is possible to penetrate the heat insulating member 2 having a low strength without difficulty during the rotation operation of the cylindrical body 210.

On the other hand, the tapering process can be constituted by a separate post-processing operation. However, during the process of cutting the steel pipe to a required size, a steel pipe may be cut simultaneously with tapering using a special tool.

If the cylindrical body 210 is made of a synthetic resin material, it is possible to manufacture the cylindrical body 210 by forming the tapered shape in a mold for injection molding with a required size.

The support groove 230 may be formed in a shape corresponding to the position corresponding to the support protrusion 130 described above. According to the present embodiment, the support protrusions 130 are formed to have a depth corresponding to the length of the support protrusions 130, and can rotate in conjunction with the rotation operation of the rotation tool assembly 100 by the complementary engagement with the support protrusions 130. Accordingly, if one support protrusion 130 is provided, one support groove 230 may be provided as shown in FIGS.

The power tool 300 is a commercial power tool, and a general-purpose tool capable of using an AC power source as well as a rechargeable type power tool can be used. Further, the supporting angle 500 may also be an "L" -shaped angle having a width of 50 to 150 mm and a height of 50 to 200 mm according to the standard.

When the diameter of the cylindrical body 210 is larger than the width of the support angle 500 when the cylindrical support member 200 configured as described above is used, The support member 200 may not be sufficiently supported. In this case, a separate support plate 400 may be provided.

9 and 10, the support plate 400 is provided to cover at least the entire exposed surface of the cylindrical support member 200, so that the support angle 400 is formed at a distance from the support plate 400 To be in surface contact with the entire surface of the substrate. At this time, they may be formed in a rectangular shape as shown in FIGS. 10 and 11, may be circular as in FIG. 12, or may have a square shape as shown in FIG. At this time, the through hole formed in the support plate 400 may be circular or may be formed long in a slit shape.

Even when the size of the cylindrical support member 200 is excessively large compared with the size of the support angle 500 during the construction, the support plate 400 is reinforced, The construction can be continued as soon as possible without the need of re-installing the battery 200. Further, even if the position of the anchor member 10 is not constant, it is possible for the operator to easily perform the fixing operation while changing the position of the support plate 400. [

Hereinafter, a method of installing a building stone panel support angle supporting unit mounting system according to the present invention will be described with reference to FIGS. 8 to 10. FIG.

A heat insulating member (2) having a predetermined thickness can be adhered and fixed to the building wall surface (1). 8, a hole having a predetermined diameter is first formed in the heat insulating member 2 and the building wall surface 1 by using the power tool 300 on the building wall surface 1 on which the heat insulating member 2 is installed, The anchor member 10 can be inserted and fixed as shown in Fig. On the other hand, a thread is formed on the end 11 of the fixed anchor member 10 so that this portion can be exposed to the outside of the heat insulating member 2.

When the work of the anchor member 10 is completed, the worker joins the rotary tool assembly 100 constructed as described above to the end of the power tool 300 and attaches the support tool 130 to the support protrusion 130 of the rotary tool assembly 100 The support groove 230 of the cylindrical support member 200 can be inserted and coupled. At this time, the end of the cylindrical body 210 of the cylindrical support member 200 may be coupled to the inside of the grip portion 220 so as to be in close contact with the end of the opening portion of the body portion 110. At this time, since the diameter of the inner circumferential surface of the body 110 and the diameter of the inner circumferential surface of the cylindrical body 210 are the same, the inner circumferential surface can be connected without a step as shown in FIG.

After the rotary tool assembly 100 is coupled to the power tool 300 and the cylindrical support member 200 is coupled to the other end of the rotary tool assembly 100, the upper end of the inner peripheral surface of the body portion 110 of the rotary tool assembly 100, The anchor member 10 can be guided to the upper end of the inner circumferential surface of the body 110 through the upper side of the inner circumferential surface of the cylindrical support member 200. [

Therefore, when the power tool 300 is operated to rotate the rotary tool assembly 100, the cylindrical support member 200 is also inserted into the heat insulating member 2 as shown in Figs. 8 and 9, And the anchor member 10 performs a role of guiding the cylindrical support member 200 so that the cylindrical support member 200 can be inserted straightly. At this time, the cylindrical support member 200 can be inserted until the edge portion 220 contacts the building wall surface 1, as shown in FIG. The cylindrical supporting member 200 has a length corresponding to the thickness of the heat insulating member 2 and can be aligned in parallel with the surface of the exposed surface of the heat insulating member 2 as shown in Fig. .

10, the supporting angle 500 is fixedly coupled with the nut member 12 screwed to the thread 11 of the exposed angle member 10, and the construction stone panel P is mounted on the upper and lower sides, And a sealing member SL is applied between the respective stone panels P so as to be waterproofed.

If the dimensions of the support angle 500 and the cylindrical support member 200 are not the same as described above, the support plate 400 may be interposed between the support angle 500 and the cylindrical support member 200 It is also possible to construct. At this time, the support plate 400 may be omitted when the sizes of the cylindrical support member 200 and the support angle 500 correspond to each other.

As described above, according to the present invention, it is possible to insert the cylindrical support member 200 into the inside of the heat insulating member 2 very simply and inexpensively compared with the technology proposed in the existing prior arts, Reduction is possible.

In particular, the hot wire or the like can be used to reduce the inconvenience of removing the heat insulating member 2 at the portion where the angle is assembled, and heat loss can be prevented from being generated through the portion. In addition, since the cost of disposing the heat insulating member 2 cut off can be reduced, environmentally friendly construction is possible.

In addition, the length of the cylindrical support member 200 can be easily adjusted at the construction site so as to correspond to the thickness of the heat insulating member 2 used. In addition, the diameter of the cylindrical support member 200 The construction can be continued through the interposition of the support plate 400, and the air can be shortened.

In particular, since the cylindrical supporting member 200 can be inserted and fixed as shown in Figs. 8 to 10 with the anchor member 10 already inserted and inserted as a guide reference plane without a separate guide member, even if there is no separate guide tool The construction for inserting the cylindrical supporting member into the predetermined position can be performed, and the ease of operation can be improved.

In the foregoing, the present invention has been described in detail based on the embodiments and the accompanying drawings. However, the scope of the present invention is not limited by the above embodiments and drawings, and the scope of the present invention will be limited only by the content of the following claims.

One; Building wall 2; Insulating member
10; Anchor member 100; Rotating tool assembly
110; Body portion 120; Grip section
130 support protrusions 140; Tool connection
200; A cylindrical support member 210; Cylindrical body
220; An edge portion 230; Support groove
300; A power tool 400; Support plate
500; Base angle P: Stone panel
SL: sealing member

Claims (11)

A rotary tool assembly having one end inserted and guided in an anchor member provided with a threaded end protruding from a wall surface of a building constructed on the surface thereof and the other end coupled to the power tool to receive rotational power of the power tool;
The rotary tool assembly rotates in conjunction with the rotation of the rotary tool assembly and is inserted into the heat insulating member until an edge formed at the insertion end of the insertion tool contacts the wall of the building, A cylindrical support member arranged side by side; And
And a support angle in which a bolt threaded into a thread formed on the end of the anchor member is engaged with the cylindrical support member while being in surface contact with the cylindrical support member,
The rotating tool assembly includes:
A body portion having a length longer than a length of the anchor member and having a diameter of an inner circumferential surface corresponding to a diameter of an inner circumferential surface of the cylindrical support member;
A grip portion formed at an end of the body portion and having an inner diameter corresponding to an outer circumferential surface of the cylindrical support member to grip an outer circumferential surface of the cylindrical support member;
A support protrusion protruding from the body and having an end projecting outwardly formed on the cylindrical support member; And
And a tool connecting part integrally formed at the other end of the guide pipe and connected to the power tool.
The apparatus according to claim 1,
Further comprising at least one slit to enable circumferential deformation of said grip portion.
3. The method of claim 2,
Further comprising at least one cut-out portion having a larger width than the slit.
The method according to claim 1,
Wherein the supporting projection has one protrusion formed thereon.
5. The method of claim 4,
Wherein the support protrusions are formed to have a rectangular cross section.
The method according to claim 1,
Wherein the anchor member is supported on the inner circumferential surface of the body portion and the inner circumferential surface of the cylindrical support member in the process of inserting the cylindrical support member.
The apparatus of claim 1, wherein the cylindrical support member comprises:
A cylindrical body having a length corresponding to the thickness of the heat insulating member;
An edge portion formed at an insertion side end of the cylindrical body; And
And a support groove formed in a shape and position corresponding to the support protrusions.
8. The apparatus according to claim 7,
And a depth corresponding to an insertion length of the support protrusion.
8. The apparatus according to claim 7,
Wherein the tapered portion is formed at one of the inner side and the outer side so that the shape of the end is sharp when the thickness of the cylindrical supporting member is 2 to 10 mm.
8. The apparatus according to claim 7,
Wherein when the thickness of the cylindrical supporting member is 1 to 2 mm, the shape of the end is formed to be flat.
The method according to claim 1,
Wherein the support plate is interposed between the cylindrical support member and the support angle when the diameter of the cylindrical support member is 50 mm or more.

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