KR20140142109A - Stone complex panel, stone complex panel assembly wall and method for manufacting stone comlex panel - Google Patents

Abstract

The present invention relates to a stone complex panel and a method for manufacturing a stone complex panel assembly wall and the stone complex panel. According to an embodiment of the present invention, the stone complex panel comprises: a stone plate which has multiple coupling surfaces formed on a rear surface so that the coupling point of the stone fixture has the same thickness as that of the front surface and stone holes formed on each of the coupling surfaces; an insulation plate attached to the rear surface of the stone plate; panel bracket units which are formed on upper and lower sides of the insulation plate, are formed of multiple panel brackets fastened with a bracket of an upper side panel or a lower side panel or brackets of upper and lower side panels when the panels are fastened, and support the panel to the structure when the panel assembly wall is constructed; and multiple stone fixtures which are coupled to the stone holes to be attached to the coupling surfaces and maintain that the front surface of the stone plate and the front surface of the adjacent stone plate have the same vertical surface line when the panels are assembled by fixing and coupling the panel bracket to the stone plate and keeping a predetermined distance between the front surface of the stone plate and the panel bracket. Also, the method for manufacturing a stone complex panel assembly wall and the stone complex panel is provided.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of manufacturing a composite panel,

The present invention relates to a stone composite panel, a stone composite panel building wall, and a method for manufacturing a stone composite panel. More particularly, the present invention relates to a stone composite panel, a stone composite panel assembly wall, and a method of manufacturing a stone composite panel that can easily be applied by removing a thickness variation caused by a thickness error caused by processing a stone.

Recently, the use of panels using stone in various building interior and exterior materials has been increasing. Among the methods of using stone, natural marble is inferior in economy and workability due to weight and price, and always has a possibility of being easily damaged by impact even when used. In order to solve the problem of natural stone, composite panel products including natural stone and ceramic tile are being developed. Natural stone and ceramic composites are lighter than natural stone, and workability is slightly improved.

On the other hand, when natural stone is used or a composite stone is used, there is a problem that a separate insulation should be applied. Therefore, a composite panel of stone and insulation is being developed. At this time, natural stones or composite stones are processed to join or adhere the processed stones to the insulating plates.

However, it is necessary to process both natural stone and composite stone at the time of joining or adhering the stone plate and the heat insulating plate, and the thickness may be not uniform due to some errors in each of the segments depending on the processing of the stone, There may be a thickness error and may not be flat. In the case where the thickness of the strakes is different for each segment or in one segment, if the shirting wall is installed by attaching or bonding to the heat insulating plate as it is, the outer wall surface is not flat.

Accordingly, a separate process for correcting the thickness deviation of each panel is required at the time of constructing the wall.

Korean Patent Publication No. 10-2011-0065628 (published on June 16, 2011) Korean Utility Model Publication No. 20-2012-0001318 (published on February 27, 2012)

In order to solve the above-mentioned problem, a method of manufacturing a composite panel of a stone composite panel, a composite panel of a stone panel and a composite panel of a stone, which can easily be constructed by eliminating a thickness variation caused by a thickness error caused by processing a stone, is proposed.

In order to solve the above problems, according to one aspect of the present invention, there is provided a stonepaper comprising a stone hole formed in each of a plurality of fastening surfaces and fastening surfaces formed on a rear surface so that the point of attachment of the stone fastener has the same thickness from the front surface; An insulating plate attached to the back surface of the stoneportion; A panel bracket which is formed on the upper and lower sides of the heat insulating plate and includes a plurality of panel brackets which are bridged with the brackets of the upper, lower or upper and lower panels adjacent to each other when the panel is assembled, part; And the panel brackets are fixedly connected to the stonewall so that the distance from the front of the stonewall to the panel bracket is kept the same, so that when the panel is assembled, the front face of the stonewall becomes the front face of the adjacent panel stonewall And a plurality of stone fasteners for maintaining the same vertical plane.

At this time, in one example, the fastening surface is the bottom of the groove formed at the first surface on the back surface, and a stone hole having a pit shape such that the diameter of the bottom portion is formed larger than the entrance diameter at the central portion of the fastening surface may be formed.

In another example, the stone fastener includes: an anchor portion provided with an inner hole and inserted and fixed in the stone hole; A thickness maintaining socket which is in close contact with the fastening surface and maintains a constant distance between the fastening surface and the panel bracket; And a fastening bolt portion inserted into the inner hole through the panel bracket and the thickness retaining socket to expand the anchor portion to closely contact the stone hole and closely attach the panel bracket to the thickness retaining socket.

In one example, the brackets of the upper, lower, or upper and lower panels adjacent to each other when the panel is assembled are provided with receiving grooves or insertion protrusions so that the panel brackets can be male and female engageable with each other. And a socket groove may be provided.

According to another example, the upper panel bracket, which is the panel bracket on the upper side of the heat insulating plate, may further include a bracket fastening groove to be fastened to the fixing bracket to be fixed to the structure by the bracket fastening tool when the panel assembly wall is installed.

In this case, the upper panel bracket further includes a hollow portion capable of securing a supporting force against the load of the stone composite panel when the upper panel bracket is fixed to the structure, and the bracket coupling groove is formed on the upper surface side, the rear surface side, or the upper surface and the rear surface side of the hollow portion .

Further, in one example, the panel bracket portion may further include a plurality of left and right panel brackets formed on the left and right sides of the heat insulating plate, and the left and right panel brackets may be male-mated with the left and right panel brackets of the neighboring panel.

Next, in order to solve the above-described problems, according to another embodiment of the present invention, there is provided an example of a stone composite panel according to one aspect of the present invention, A plurality of stone composite panels according to the present invention; And a fixing bracket fastened to a bracket fastening groove formed on an upper panel bracket which is a panel bracket formed on an upper side of the heat insulating plate of the stone composite panel by a bracket fastening member and fixedly coupling the stone composite panel to the structure. An assembly wall is proposed.

At this time, in one example, it may further include an insulating strip material installed in an assembly gap between adjacent stone composite panels and shielding the outside from heat.

According to another aspect of the present invention, there is provided a stoneshole formed on each of a plurality of fastening surfaces and fastening surfaces formed on a rear surface of a stone fastening hole so as to have the same thickness from the front surface, Preparing a gypsum board provided with the gypsum board; Stone composite panel and a plurality of panel brackets to be bridged with upper and lower side panels or upper and lower panel brackets adjacent to each other when assembling the panel are installed on the upper side and the lower side of the lower side of the slab using a plurality of stone fasteners , The stone fastener is tightened with the stone hole so that it is in close contact with the clamping face, and the panel bracket is fixedly connected to the back side of the stone plate to maintain the same distance from the front face of the stone plate to the panel bracket. Installing a panel bracket so as to maintain the same vertical plane as the front face of the adjacent panel stonewall; And forming a heat insulating plate on the back surface of the stone plate provided with the panel bracket so that the upper surface of the panel bracket provided on the upper back side and the lower surface of the panel bracket provided on the lower back side are exposed, Is proposed.

At this time, in one example, in the step of preparing the gypsum board, grooves are formed on the back surface so that the adhesion points of the stone fasteners on the fastening surface which is the bottom of the grooves have the same thickness from the front surface, A stone hole can be formed so that the diameter of the bottom portion is larger than the diameter of the entrance.

In addition, in one example, in the step of installing the panel bracket, a certain distance is secured from the point of attachment of the fastening surface to the panel bracket by the thickness retaining socket of the stone fastener, and the panel bracket and the thickness retaining socket are passed through the stone fastener, The panel bracket can be installed such that the bracket is brought into close contact with the thickness holding socket and the distal end of the stone fastener inserted in the stone hole is extended to closely contact the stone hole so that the same distance is maintained from the panel bracket to the front face of the stone plate.

In another example, in the step of forming the heat insulating plate, a heat insulating material injection case matching the size of the stonry plate is provided on the back surface of the stone plate provided with the panel bracket, the heat insulating material is injected into the heat insulating material injection case, The heat insulating plate can be formed such that the upper surface of the panel bracket provided on the upper back side where the portion is formed and the lower surface of the panel bracket provided on the lower back surface side are exposed.

According to the embodiment of the present invention, it is possible to eliminate the thickness variation of the stone composite panel due to the thickness error caused by the processing of the stone, thereby making it easy to construct the stone composite panel wall.

In addition, according to one example, it is possible to assemble a stone composite panel by a male and female coupling method, and at the same time, by making the thickness of the stone composite panel uniform, it is possible to construct a simple stone composite panel wall.

It is apparent that various effects not directly referred to in accordance with various embodiments of the present invention can be derived by those of ordinary skill in the art from the various configurations according to the embodiments of the present invention.

Fig. 1 schematically shows an assembled stone composite panel. Fig.
2 is a cross-sectional view schematically showing a stone composite panel according to one embodiment of the present invention.
3A and 3B are cross-sectional views schematically showing an assembled portion of a stone composite panel according to one example of the present invention.
4 is a view schematically showing a stonework portion of a stone composite panel according to one example of the present invention.
FIG. 5 is a schematic view showing a male and female coupling of a panel bracket of a stone composite panel according to an example of the present invention.
6 is a flowchart schematically showing a method of manufacturing a stone composite panel according to another example of the present invention.
7 is a flow chart schematically showing a method of manufacturing a composite stone panel according to another example of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram showing the configuration of a first embodiment of the present invention; Fig. In the description, the same reference numerals denote the same components, and a detailed description may be omitted for the sake of understanding of the present invention to those skilled in the art.

As used herein, unless an element is referred to as being 'direct' in connection, combination, or placement with other elements, it is to be understood that not only are there forms of being 'directly connected, They may also be present in the form of being connected, bonded or disposed. In the present specification, 'front', 'front' and 'back' are used not in the fixed direction but according to the reference, and are generally classified according to one reference in the drawing. In addition, 'front' and 'front' are used in the same concept.

It should be noted that, even though a singular expression is described in this specification, it can be used as a concept representing the entire constitution unless it is contrary to, or obviously different from, or inconsistent with the concept of the invention. It is to be understood that the phrases "including", "having", "having", "comprising", etc. in this specification are intended to be additionally or interchangeable with one or more other elements or combinations thereof.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings, in which: FIG.

A stone composite panel according to an embodiment of the present invention will be described in detail with reference to the drawings. Here, reference numerals not shown in the drawings to be referred to may be reference numerals in other drawings showing the same configuration.

Figure 1 is a schematic representation of an assembled stone composite panel, Figure 2 is a cross-sectional view schematically illustrating a stone composite panel according to one embodiment of the present invention, Figures 3a and 3b are cross- 4 is a view schematically showing a portion of a stone plate of a stone composite panel according to one example of the present invention, and Fig. 5 is a cross-sectional view schematically showing a stone composite panel according to one example of the present invention Fig. 3 is a schematic view showing female and male coupling of a panel bracket of a composite panel. Fig.

Referring to Figures 1, 2, 3a, and / or 3b, the stone composite panel 1 according to one example comprises a stone plate 10, a heat insulating plate 30, a panel bracket portion, and a plurality of stone fasteners 20 . In the following, a detailed description will be given in order.

First, with reference to Figs. 1, 3a, 3b and 4, the stone plate 10 will be described in detail. A stone plate (10) used in a stone composite panel (1) is provided with a large number of fastening surfaces (11) and stone holes (13) on the back surface thereof. At this time, the stone hole 13 is formed only in one side and the other side in a clogged structure. For example, the material of the stone plate 10 may be natural stone, natural stone, or ceramic composite stone. For example, the material of the stone plate 10 may be natural stone. For example, it may be a granite material, natural marble, or the like.

The stone plate (10) used in the stone composite panel (1) uses a flat stone plate (10). For example, at this time, it is difficult for the natural stone used as the stone plate 10 to have a uniform thickness of the plate material when it is made of a flat plate material. In general, a flat natural stone plate is often made to have a different thickness for each plate material. When the stone composite panel 1 is manufactured by using the stone plate 10 having such a working thickness error as it is and the panel wall is constructed, the panel wall surface is protruded or inserted by each panel segment to form the same vertical surface I can not. Therefore, it is possible to perform the work of correcting the thickness error of the stone plate 10 in the process of constructing the panel wall with the stone composite panel 1, or the work of correcting the thickness error one by one in manufacturing the stone composite panel 1 . Typically, the thickness error is corrected at the time of wall construction using the stone composite panel 1.

The present invention proposes a stone composite panel (1) having a structure capable of obtaining a stone composite panel (1) in which the thickness error of the stone plate (10) is corrected easily when the stone composite panel (1) is manufactured. The stitch point of the stone fasteners 20 on the plurality of fastening surfaces 11 formed on the back surface of the stone plate 10 is formed to have the same distance or the same thickness from the front surface. For example, by grinding the back side of the thick stone plate 10 with a grinder or the like, or by cutting off an excess portion of a predetermined predetermined thickness by various other methods, the tightening point of the stone fastener 20 is fastened The surface 11 can be formed on the back surface. A stone hole 13 is provided on each fastening surface 11.

For example, referring to FIGS. 3A, 3B and 4, in one example, the fastening surface 11 formed on the back surface of the stoneporting plate 10 may be the bottom of the groove formed on the back surface. At this time, the stone hole 13 formed on the fastening surface 11 may be formed by drilling the central portion of the fastening surface 11. The stone fastening tool 20 is fastened to the fastening surface 11 which is the primary formed groove bottom so that the fastening point where the stone fastening tool 20 is seated is the same distance or the same thickness from the front surface of the stone plate 10 The thickness of the stone composite panel 1 up to the panel bracket 40 can be made uniform. Accordingly, it is not necessary to correct the wall surface to be flat without error during the construction of the panel wall. Further, even when the stone composite panel 1 is manufactured, the stone fastening tool 20 is brought into close contact with the fastening surface 11 of the stone plate 10 without individually correcting the thickness error by the stone fastening tool 20 By bonding with the heat insulating plate 30, the stone composite panel 1 can be easily manufactured with a constant thickness.

For example, referring to Figs. 2, 3a, 3b and 4, the stone hole 13 may have a larger diameter at the bottom than at the entrance diameter. Thus, the stone fastening tool 20 inserted into the stone hole 13 can be prevented from being easily released. The stone plate 10 and the panel bracket 40 are formed by inserting an anchor structure having an inner diameter larger than the inlet diameter into the stone hole 13 at a portion of the stone fastener 20 to be fastened to the stone plate 10, Can be fixed. That is, the stone fastening tool 20 is seated on the fastening surface 11 and the portion of the stone fastening tool 20, for example, serving as an anchor portion is inserted into the stone hole 13 having an inner diameter larger than the entrance, And the thickness of the stone composite panel 1 can be kept constant and unchanged. Accordingly, it is possible to easily assemble and construct a panel wall body so that a flat outer wall is easily formed without a thickness error.

Next, a heat insulating plate 30 of the stone composite panel 1 will be described with reference to Figs. 1, 2, 3a and 3b. The heat insulating plate (30) is attached to the back surface of the lining board (10). The heat insulating plate 30 of the stone composite panel 1 is formed to have the same size as the stone plate 10, for example. For example, the heat insulating plate 30 can be formed by providing a heat insulating material injection case having the same size as that of the stoner plate 10 on the back surface of the stone plate 10, injecting the heat insulating material into the inside thereof and foaming it. At this time, the upper side of the upper side panel bracket 40 and the lower side of the lower side panel bracket 40 are exposed, so that it is possible to engage with the neighboring panel during the assembly of the panel.

For example, the heat insulating plate 30 may be attached to the back surface of the straking plate 10 without a separate supporting frame other than the panel bracket 40. Alternatively, although not shown, it is also possible to reinforce the support frame for securing the structural strength and stability of the stone composite panel 1 in the heat insulating plate 30. [ The material of the heat insulating plate 30 can be formed, for example, by foaming a polyurethane foam, or by foaming a phenol resin. It may also be formed by foaming a resin to which an ash is added. The heat insulating plate 30 can be manufactured by foam molding various heat insulating materials.

For example, referring to FIGS. 1, 2, 3a, and 3b, the heat insulating plate 30 has a back surface of the insulating plate 30 and a front surface side boundary surface of the heat insulating plate 30, May be formed to be exposed. Alternatively, although not shown, a case may be formed to cover the side surface and / or the back surface of the heat insulating plate 30 with the metal plate case.

Next, the panel bracket portion of the stone composite panel 1 will be described with reference to Figs. 1, 2, 3a, 3b and 5. The panel bracket portion supports the stone composite panel 1 to the structure 3 when the panel assembly wall is constructed. The panel bracket portion includes a plurality of panel brackets 40. For example, the panel bracket 40 may be made of aluminum or an alloy thereof.

A plurality of panel brackets (40) are formed on at least the upper side and the lower side of the heat insulating plate (30). That is, the panel bracket 40 is formed on the back side of the upper side and the lower side of the staked plate 10. For example, the plurality of panel brackets 40 include a plurality of upper panel brackets 40a formed on the upper side of the heat insulating plate 30 and a plurality of lower panel brackets 40b formed on the lower side of the heat insulating plate 30 . The panel bracket 40 is fixed to the slab plate 10 through a stone fastener 20 and supports the stone composite panel 1.

At this time, the plurality of panel brackets 40 are engaged with the brackets of the upper, lower, or upper and lower panels adjacent to each other when assembling the panel. The panel assembly can be easily assembled when the stone composite panel 1 is assembled and the stone panel 10 and the stone panel 10 can be easily assembled through the stone fastener 20 seated on the fastening surface 11 of the stone panel 10. [ The same thickness is maintained from the front surface of the stonry plate 10 to the panel bracket 40 by only the male and female assembly of the stone composite panel 1 for the panel wall construction so that the front surface of the panel wall Can be formed flat. In other words, the panel bracket 40 is formed in a manner such that the front face of the stone plate 10 is kept in the same vertical plane as the front face of the stone plate 10 of the neighboring stone composite panel 1 when the stone composite panel 1 for constructing the wall is assembled, And is fixedly coupled to the stone plate 10 by a fastener 20.

Referring to FIGS. 1, 2, 3a, 3b and 5, when the panel assembly is performed, the panel brackets 40 to be engaged with the brackets of the upper, lower, The receiving groove 41 or the insertion projection 43 may be provided.

For example, the upper panel bracket 40a, which is the panel bracket 40 on the upper side of the heat insulating plate 30 to be engaged with the adjacent upper panel at the time of assembling the panel, may include the receiving groove 41 or the insertion projection 43. In addition, the lower panel bracket 40b, which is the panel bracket 40 on the lower side of the heat insulating plate 30 to be engaged with the neighboring lower panel at the time of assembling the panel, may include the insertion protrusion 43 or the receiving groove 41. For example, in FIG. 2, the upper panel bracket 40a of the lower-side stone composite panel 1 to be joined with the adjacent upper-side stone composite panel 1 at the time of assembling the panel is provided with the receiving grooves 41, The lower panel bracket 40b of the upper-side stone composite panel 1 to be fastened is provided with an insertion protrusion 43. The upper panel bracket 40a is provided with the receiving groove 41 or the insertion protrusion 43 and the lower panel bracket 40b is provided with the insertion projection 41 43 or the receiving groove 41, as shown in Fig.

On the other hand, when there is no adjacent upper panel in assembling the panel, the upper panel bracket 40a, which is the panel bracket 40 on the upper side of the heat insulating plate 30, is not formed with protrusions like the insertion protrusions, The lower panel bracket 40b ', which is the panel bracket 40 on the lower side of the heat insulating plate 30, does not have a protrusion like the insertion protrusion. For example, in FIG. 2, the upper panel bracket 40a of the upper-side stone composite panel 1 having no neighboring upper panel at the time of assembling the panel has the receiving recess 41, not the insertion protrusions, The lower panel bracket 40b 'of the lower-side stone composite panel 1 is provided with the receiving grooves 41 instead of the insertion projections.

1, 2, 3a, 3b and 5, the panel bracket 40 may have a socket groove 45 for receiving the thickness-retaining socket 23 of the stone fastener 20. At this time, in the socket groove 45 of the panel bracket 40, the thickness holding socket 23 of the stone fastening tool 20 is seated, and the fastening surface of the stone plate 10 on which the other side of the thickness holding socket 23 is seated. And a predetermined distance or a certain distance from the contact point of the first electrode 11. For example, the socket groove 23 may be formed as a long groove formed in the longitudinal direction. The socket groove 23 may be formed to have a width corresponding to the diameter of the thickness-retaining socket 23. [

1, 2, 3a, 3b and 5, in another example, the upper panel bracket 40a, which is the panel bracket 40 on the upper side of the heat insulating plate 30, . The bracket fastening groove 47 can be fastened to the fixing bracket 70 to be fixed to the structure 3 by the bracket fastening tool 50 when the panel assembly wall construction is performed. The fixing bracket 70 may be formed of one bracket, or may be configured such that the first and second fixing brackets 70a and 70b are connected as shown in FIG. 3B. For example, the bracket engagement groove 47 may be formed on the upper panel bracket 40a. At this time, since the lower panel bracket 40b is engaged with the upper panel bracket 40a of the neighboring panel when assembling the wall, only the fixing bracket 70 fixed to the structure 3 and the upper panel bracket 40a are fixedly connected So that the panel wall assembled can secure the supporting force against the structure 3 sufficiently. Thus, the manufacturing cost and the construction cost can be reduced and the panel wall assembly can be easily performed.

Referring to the lower-side stone composite panel 1 of FIG. 2, bracket locking grooves 47 may be formed in all of the upper and lower panel brackets 40a and 40b 'of the panel bracket 40. In this case, although not shown, a fixing bracket (not shown) to be fixed to the structure 3 at the time of constructing the panel assembly wall body is provided in each of the bracket coupling grooves 47 of the upper panel bracket 40a and the bracket coupling grooves 47 of the lower panel bracket 40b ' (70) can be fastened by the bracket fastener (50). 2, the upper panel bracket 40a of the lower-side stone composite panel 1 is joined and fixed to the lower panel bracket 40b in an example, Only the upper panel brackets 40a of the respective stone composite panels 1 and the lower panel brackets 40b 'of the lowermost stone composite panel 1 are assembled to support the load of the bracket coupling grooves 47, . ≪ / RTI >

1, 2, 3a, 3b and 5, in one example, the upper panel bracket 40a may further include a hollow portion 49. The lower panel bracket 40b 'may also include a hollow portion (refer to reference numeral 49 in FIG. 5) as in the case of the lower stone composite panel 1 of FIG. When the hollow portion 49 is fixed to the structure 3, the supporting force of the stone composite panel 1 against the load can be secured. At this time, the bracket fastening groove 47 may be formed on the upper surface side, the rear surface side, or the upper surface and the rear surface side of the hollow portion 49.

For example, referring to FIGS. 3A, 3B and 5, the bracket coupling groove 47 may include first and second bracket coupling grooves 47a and 47b selectively engaged with the fixing bracket 70. At this time, the first bracket engagement groove 47a may be formed on the upper surface side of the hollow portion 49, and the second bracket engagement groove 47b may be formed on the rear surface side of the hollow portion 49. 3A, a first bracket locking groove (see reference numeral 47a in FIG. 5) formed on the upper surface side of the hollow portion 49 of the upper panel bracket 40a is fixed to the fixing bracket 50 70, a work space groove may be formed below the heat insulating plate 30 of the neighboring upper side stone composite panel 1 for fastening the bracket fastener 50.

3A and 3B, the bracket fastener 50 includes a fixing bracket 70 fixed to the structure 3 at the time of installation of the assembly wall of the stone composite panel 1 to the outside of the bracket fastening groove 47, Respectively. 3A and 3B, a fastening groove nut 53 of a bracket fastening hole 50 is inserted into a bracket fastening groove 47 having a larger internal size than an inlet, and an upper portion of the bracket fastening groove 47 and a fastening groove The fixing bracket 70 and the panel bracket 40 can be fixed by the fastening bolts 51 of the bracket fastening tool 50. In this case, For example, the bracket coupling grooves 47 may be formed in a trapezoidal shape in the longitudinal direction, and the coupling groove nuts 53 may be formed in a trapezoidal shape corresponding to the cross-sectional shape of the bracket coupling grooves 47.

In addition, although not shown, in one example, the panel bracket portion may further include left and right panel brackets (not shown) on left and right sides of the heat insulating plate 30. [ At this time, the left and right panel brackets (not shown) may be male-mated with the corresponding left or right panel brackets of the neighboring panels. For example, the left and right panel brackets may be of the same or similar construction as the upper and lower panel brackets 40a, 40b.

Next, the stone fastening tool 20 of the stone composite panel 1 will be described with reference to Figs. 2, 3a, 3b and 4. A plurality of stone fasteners 20 are fastened to the stone hole 13 in close contact with the fastening surface 11 of the stone plate 10. Further, the stone fastener 20 fixes the panel bracket 40 to the stone plate 10. The stone fastener 20 maintains the same distance from the front surface of the stone plate 10 to the panel bracket so that the front face of the stone plate 10 maintains the same vertical plane as the front face of the adjacent panel stone plate when assembling the panel . That is, the stone fastener 20 is closely attached to the fastening surface 11 and fastened between the stone plate 10 and the panel bracket 40 to keep the distance from the front face of the stone plate 10 to the panel bracket the same Whereby the stone composite panel 1 having a uniform thickness can be easily manufactured and also the flat wall surface can easily be formed in the construction of the panel wall.

Referring to one example with reference to FIGS. 3A, 3B and 4, the stone fastener 20 may include an anchor portion 21, a thickness retaining socket 23, and a fastening bolt portion 25. For example, referring to FIGS. 1 and 2, two pairs of stone fasteners 20 may be formed on the upper side and two pairs on the lower side to match the number of the fastening surfaces 11, and various amounts of the stone fasteners 20 may be deformed.

At this time, the anchor portion 21 is provided with an inner hole though not shown. The anchor portion 21 constitutes the distal end of the stone fastener 20 and is inserted and fixed in the stone hole 13 of the stone plate 10. That is, the anchor portion 21 is laterally expanded by the fastening bolt portion 25 inserted into the inner hole of the anchor portion 21 after being inserted into the stone hole 13, and is fixed tightly to the stone hole 13 do. For example, as shown in Figs. 3A, 3B and 4, the stone hole 13 of the anchor portion 21 inserted into the stone hole 13 is formed so that the stone hole 13 of the stone plate 10 is larger in diameter than the entrance side, The lower end of the anchor portion 21 is extended in the lateral direction by inserting the fastening bolt portion 25 into the inner hole (not shown) so that the stone plate 10 and the panel bracket 40 can be firmly fixed The panel bracket 40 is held at the same thickness or at the same distance from the front face of the stone plate 10 so that the stone fasteners 20 are seated on the fastening surface 11 so as to be tightly fixed, The thickness can be made constant.

3A, 3B and 4, the thickness-retaining sockets 23 of the stone fasteners 20 are in close contact with the fastening surfaces 11 of the slabs 10 and are joined to the slabs 10 and the panel brackets 40 ) In a direction perpendicular to the direction of movement. The contact point on the clamping surface 11 on which the thickness retaining socket 23 is seated is the same thickness or the same distance from the front face of the stone plate 10 and the distance from the contact point of the clamping face 11 by the thickness retaining socket 23 Since the distance between the panel brackets 40 is kept constant, the thickness of the stone composite panel 1 can be made constant. Accordingly, not only the stone composite panel 1 having no thickness variation can be easily manufactured, but also the wall surface can be easily formed so as to form a flat surface without any error at the time of constructing the panel wall. For example, when the spacing space is formed between the back surface of the slab plate 10 and the panel bracket 40 by the thickness-retaining sockets 23, unlike FIGS. 3A, 3B and 4, An insulating plate 30 may be formed.

The fastening bolt portion 25 of the stone fastening tool 20 is inserted into the inner hole of the anchor portion 21 through the panel bracket 40 and the thickness retaining socket 23. [ At this time, the fastening bolt portion 25 expands the anchor portion 21 and is brought into close contact with the side surface of the bottom of the stone hole 13, specifically, the large-diameter stone hole 13. In addition, the fastening bolt portion 25 brings the panel bracket 40 into close contact with the thickness-retaining socket 23. At this time, the fastening bolt portion 25 of the stone fastener 20 may have a single bolt structure (not shown), or may be composed of one bolt 25a and a nut 25b as shown in FIG. 5, Or may be of the two-bolt type, though not shown. When the fastening bolt portion 25 is composed of a single bolt 25a and a nut 25b as shown in FIG. 5, the bolt 25a may be a flathead bolt. In the case of a single bolt structure A bolt with a dusky head (25a) and a nut (25b) can be used. When the fastening bolt portion 25 is of a two-bolt type, one bolt is inserted into the inner hole of the anchor portion 21 and the remaining one bolt is inserted into the thickness-retaining socket 23, And the panel bracket 40, as shown in Fig.

Next, a method of manufacturing a stone composite panel according to another aspect of the present invention will be described with reference to the drawings. At this time, the description of the stone composite panel according to the above-described embodiments can be referred to, and also the figures 1 to 5 can be referred to. Accordingly, the redundant explanations can be omitted, and the omitted explanation will be made with reference to the description of the above-described stone composite panel.

FIG. 6 is a flow chart schematically illustrating a method for manufacturing a composite composite panel according to another embodiment of the present invention, and FIG. 7 is a flowchart schematically showing a method for manufacturing a composite composite panel according to another embodiment of the present invention.

6 and 7, a method for manufacturing a composite stone panel according to one example comprises steps of preparing a stone plate (S100, S100 '), a step of installing a panel bracket (S200, S200') and a step of forming an insulation plate (S300, S300 ' .

Referring to Figs. 6 and 7, in the stone preparing step (S100, S100 '), a stone plate 10 having a plurality of fastening surfaces 11 and stone holes 13 is prepared. At this time, the plurality of fastening surfaces 11 are formed on the back surface so that the point of attachment of the stone fastener 20 of the stone plate 10 has the same thickness from the front side. Further, the stone holes 13 are formed in each of the plurality of fastening surfaces 11.

For example, referring to FIG. 7, in one example, in step S100 'of preparing the lining board 10, a groove is formed on the back surface of the stone plate 10, . At this time, the piercing stone hole 13 can be formed at the center of the clamping surface 11 simultaneously or sequentially. The stitch plate 10 is formed so as to have the same thickness or the same distance from the front face of the stoner plate 10 as the point of attachment of the stone fastener 20 on the fastening face 11 which is the bottom of the groove formed at the back of the stonge plate 10 10 are formed with grooves on the back surface thereof to form a fastening surface 11. In forming the stone hole 13, the stone hole 13 may be formed so that the diameter of the bottom portion is larger than the diameter of the entrance hole.

Next, referring to FIGS. 6 and 7, the panel bracket installing steps (S200 and S200 ') will be described. In the panel bracket installing step S200 and S200 ', a plurality of panel brackets 40 are installed at least on the upper side and the lower side of the lower side of the stone plate 10 by using a plurality of stone fasteners 20. At this time, the plurality of panel brackets 40 serve to support the stone composite panel 1. For example, at least the upper panel bracket 40a provided on the upper rear side of the stator 10 among the plurality of panel brackets 40 serves to support the stone composite panel 1 to the structure 3 when the panel wall is constructed. A plurality of panel brackets 40 installed on the upper and lower side of the upper side and lower side of the lattice plate 10 in the panel bracket installing step S200 and S200 'are assembled with the brackets of the upper, The male and female are fastened.

At this time, in the panel bracket installation step S200 and S200 ', the stone fastener 20 is fastened to the stone hole 13 so as to be in close contact with the fastening surface 11 of the stone plate 10, The panel bracket 40 is fixedly engaged. The distance from the front face of the stak plate 10 to the panel bracket 40 is maintained to be the same and the front face of the staked plate 10 is maintained in the same vertical plane as the front face of the neighboring panel 40 can be installed.

7, in the panel bracket installing step S200 ', the thickness of the panel bracket 40 is increased from the contact point of the fastening surface 11 to the thickness holding socket 23 of the stone fastener 20, The panel bracket 40 and the thickness retaining socket 23 are passed through the stone fastener 20 such as the fastening bolt portion 25 and the panel bracket 40 is inserted into the thickness retaining socket 23 And is brought into close contact. At this time, the distal end portion of the stone fastener 20 inserted into the stone hole 13, for example, the anchor portion 21 is extended to closely contact the stone hole 13, specifically, the side surface of the bottom portion of the stone hole 13 having a large diameter . Accordingly, in the panel bracket installing step S200 ', the panel bracket 40 can be installed so that the same distance is maintained from the panel bracket 40 to the front face of the stone plate 10.

6 and 7, in the step of forming the insulating plate (S300 and S300 '), the heat insulating plate 30 is formed on the back surface of the staked plate 10 provided with the panel bracket 40. The upper surface of the panel bracket 40 provided on the upper rear side of the staked plate 10 and the lower surface of the panel bracket 40 provided on the lower back side of the staked plate 10 are exposed, The heat insulating plate 30 is formed on the back surface.

For example, referring to FIG. 7, in one example, in a heat insulating plate forming step S300 ', a heat insulating material injection case (not shown) A heat insulating material is injected into the case for inserting the heat insulating material and foamed to form the heat insulating plate 30. [ The heat insulating plate 30 may be formed, for example, by foaming a polyurethane foam or a phenol resin. At this time, the upper surface of the panel bracket 40, which is provided on the upper back side of the straking plate 10 on which the brackets of the neighboring panels and the male and female coupling parts are formed, and the panel bracket 40 provided on the lower back side of the straking plate 10 The heat insulating plate 30 is formed so that the lower surface is exposed. That is, the heat insulating plate 30 is formed to expose the receiving grooves 41 and / or the insertion protrusions 43, which are male / female engaging portions of the panel bracket 40. For example, when the spacing space is formed between the back surface of the slab plate 10 and the panel bracket 40 by the thickness holding socket 23 of the stone fastener 20, the spacing space may be filled with the heat insulating material.

Next, a stone composite panel building wall according to another embodiment of the present invention will be described in detail with reference to the drawings. At this time, the description of the stone composite panel according to the above-described embodiments can be referred to, and also the figures 1 to 5 can be referred to. Accordingly, the redundant explanations can be omitted, and the omitted explanation will be made with reference to the description of the above-described stone composite panel.

The stone composite panel building wall according to one example comprises a plurality of stone composite panels 1 and a plurality of fixing brackets 70. The plurality of stone composite panels 1 are male and female at least in the vertical direction when assembled. At this time, the male and female coupling can be performed on the upper part of one of the stone composite panels 1 and / or on the lower part of the lower panel brackets 40a and 40b and the other of the adjacent stone composite panels 1 and / or the upper panel brackets 40a and 40b. This is done by combining male and female. At this time, the upper panel bracket 40a is formed on the upper part of the heat insulating plate 30 and the lower panel bracket 40b is formed on the lower part of the heat insulating plate 30. [

For example, the upper panel bracket 40a, which is mated with the lower panel bracket 40b of the neighboring upper stone composite panel 1, has a receiving groove 41 or an insertion projection 43, The lower panel bracket 40b of the composite panel 1 has an insertion protrusion 43 or receiving groove 41 corresponding to male and female. The upper panel bracket 40a of the adjacent lower-side stone composite panel 1 has a lower panel bracket 40b engaging with the upper panel bracket 40a. The lower panel bracket 40b includes an insertion protrusion 43 or receiving groove 41, The upper panel bracket 40a of the composite panel 1 has a receiving groove 41 or an insertion projection 43 corresponding to male and female. Although not shown, the upper panel bracket 40a of the stone composite panel 1, which is assembled with the panel vertically adjacent to the upper and lower sides of the panel wall, has a receiving groove 41 or an insertion protrusion 43 And the lower panel bracket 40b may have an insertion protrusion 43 or a receiving groove 41 corresponding thereto.

For example, in the case where the upper panel bracket 40a in the absence of the panel adjacent to the upper side and the lower panel bracket 40b 'in the absence of the panel adjacent to the lower panel are not provided with the insertion protrusions 43 protruding to the outside do. The upper panel bracket 40a and the lower panel bracket 40b have the same structure as the upper panel bracket 40a and the lower panel bracket 40b because the stone composite panel 1 assembled to the outermost frame portion of the panel wall must prevent the insertion projection 43 from protruding outward. As shown in FIG. For example, referring to FIG. 2, the lower panel bracket 40b 'of the lower stone composite panel 1 forming the outermost frame wall of the panel wall must prevent the insertion protrusions 43 from protruding outward, The receiving grooves 41 may be formed in the same structure as the upper panel bracket 40a.

Further detailed description of the stone composite panel 1 will be made with reference to the above-mentioned embodiments.

Next, with reference to Figs. 3A and 3B, the fixing bracket 70 of the stone composite panel assembly wall will be described. The fixing bracket 70 fixes the stone composite panel 1 to the structure 3. The structure 3 may be a frame for installing a panel wall installed on a building wall or a wall itself. For example, a panel wall mounting frame may be installed, and the panel assembly wall may be installed parallel to the plane formed by the frame by assembling and installing the stone composite panels 1 on the frame. At this time, the front faces of the lattice plates 10 of the panel assembly wall parallel to the plane formed by the panel wall mounting frame form the same plane.

At this time, one side of the fixing bracket 70 is fixed to the structure 3, for example, a panel wall mounting frame or a building wall by a fastening member 80, and the other side is fixed to the stone composite panel 1 by a bracket fastener 50. [ The panel bracket 40 is fixedly connected. For example, at this time, the fixing bracket 70 is installed on the upper panel bracket 40a formed on the upper side of the heat insulating plate 30 of the panel bracket 40 of the stone composite panel 1, (47). At this time, the fixing bracket 70 may be formed of one bracket or first and second fixing brackets 70a and 70b connected to each other by a fastening member 81 as shown in FIG. 3B. When the fixing bracket 70 is formed of one bracket, as shown in FIG. 3A, the first and second fixing brackets 70a and 70b shown in FIG. Bracket structure.

For example, the fastening portions 50, 81 may be coupled through a long hole or a plurality of through holes formed in the fastening portions of the fastening brackets 70, 70a, 70b so as to be adjustable in length.

Next, referring to FIGS. 1, 2, 3a and 3b, the stone composite panel building wall according to one example may further include a heat insulating strip material 90. FIG. At this time, the heat insulating strip material 90 is installed in a gap between the neighboring stone composite panels 1, and serves to shield heat from the outside. For example, the heat insulating strip material 90 may be installed in a gap between the stone plates 10 in the stone composite panel 1 or in a gap between the heat insulating plates 30. [ For example, the heat insulating strip material 90 may be installed in the gap between the upper and lower panel brackets 40 of the heat insulating plate 30. [ For example, the heat insulating strip material 90 can be formed by inserting a heat insulating bar or by filling a gap with a heat insulating material as a caulking material.

For example, when the stone composite panel 1 is assembled in the vertical direction, the heat insulating strip material 90 is adhered to the lower panel bracket 40b of the upper stone composite panel 1 and the upper panel bracket 40a To the gap between the upper and lower panel brackets 40 in front of the insertion protrusions 43 forming the male and female coupling of the upper and lower panel brackets 40. [

For example, when there is a panel adjacent to the left and right sides of the stone composite panel 1, the insulation strip material 90 is installed in a gap between neighboring panels, for example, a gap between left and right panel brackets .

The foregoing embodiments and accompanying drawings are not intended to limit the scope of the present invention but to illustrate the present invention in order to facilitate understanding of the present invention by those skilled in the art. Embodiments in accordance with various combinations of the above-described configurations can also be implemented by those skilled in the art from the foregoing detailed description. Accordingly, various embodiments of the present invention may be embodied in various forms without departing from the essential characteristics thereof, and the scope of the present invention should be construed in accordance with the invention as set forth in the appended claims. Alternatives, and equivalents by those skilled in the art.

1: Stone composite panel
10: Stone plate 11: Fastening surface
13: stone hall 20: stone fastener
21: anchor portion 23: thickness retaining socket
25: fastening bolt part 30:
40: panel bracket 40a: upper panel bracket
40b: lower panel bracket 41: receiving groove
43: insertion protrusion 45: socket groove
47, 47a, 47b: Bracket fastening groove 49:
50: bracket fastener 51: fastening bolt
53: fastening groove nut 70, 70a, 70b: fastening bracket
80, 81: fastener 90: heat insulating strip material

Claims (14)

A stone plate having a plurality of fastening surfaces formed on the back surface and a stone hole formed in each of the fastening surfaces so that the point of attachment of the stone fastening tool has the same thickness from the front surface;
An insulating plate attached to a back surface of the lining board;
And a plurality of panel brackets formed on the upper and lower sides of the heat insulating plate and bridging the brackets of the upper, lower or upper and lower panels adjacent to each other when the panel is assembled, Bracket portion; And
The panel bracket is fixedly coupled to the stator plate so that the distance from the front surface of the stator panel to the panel bracket is the same, And a plurality of stone fasteners for maintaining the same vertical surface as the front surface of the adjacent panel stone plate.
The method according to claim 1,
Wherein the fastening surface is a bottom of a groove formed on the back surface,
And the stone hole is formed such that the diameter of the bottom portion is larger than the diameter of the inlet at the central portion of the coupling surface.
The method according to claim 1,
The stone fastener includes:
An anchor portion having an inner hole and inserted and fixed in the stone hole;
A thickness maintaining socket which is in close contact with the engagement surface and maintains a constant distance between the engagement surface and the panel bracket; And
And a fastening bolt portion inserted into the inner hole passing through the panel bracket and the thickness retaining socket to expand the anchor portion to closely contact the stone hole and closely attach the panel bracket to the thickness retaining socket.
Wherein said composite material is a composite material.
4. The method according to any one of claims 1 to 3,
Wherein the brackets of the upper, lower or upper and lower panels adjacent to each other when the panel is assembled are provided with receiving grooves or insertion protrusions so that the panel brackets can be mated with each other,
Wherein the panel bracket further comprises a socket groove for receiving the thickness maintaining socket.
The method of claim 4,
Wherein the upper panel bracket as the panel bracket on the upper side of the heat insulating plate further comprises a bracket fastening groove to be fastened to the fixing bracket to be fixed to the structure when the panel assembly wall is installed.
The method of claim 5,
Wherein the upper panel bracket further includes a hollow portion capable of securing a supporting force against the load of the stone composite panel when the upper panel bracket is fixed to the structure,
Wherein the bracket coupling grooves are formed on an upper side, a rear side, or an upper side and a rear side of the hollow portion.
4. The method according to any one of claims 1 to 3,
The panel bracket further includes a plurality of left and right panel brackets formed on left and right sides of the heat insulating plate,
And the left and right panel brackets are male-engaging with the left and right panel brackets of the neighboring panel.
A plurality of stone composite panels according to any one of claims 1 to 3, wherein a plurality of stone composite panels are assembled in a plurality, but at least in a vertical direction. And
And a fixing bracket fastened to a bracket fastening groove formed on an upper panel bracket that is a panel bracket formed on the upper side of the heat insulating plate of the stone composite panel by a bracket fastening member and fixedly coupling the stone composite panel to the structure Composite panel assembly wall.
The method of claim 8,
Wherein the brackets of the upper, lower or upper and lower panels adjacent to each other when the panel is assembled are provided with receiving grooves or insertion protrusions so that the panel brackets can be mated with each other,
Wherein said panel bracket further comprises a socket groove for receiving said thickness retention socket. ≪ Desc / Clms Page number 17 >
The method of claim 8,
Further comprising a heat insulating strip material installed in an assembly gap between the neighboring stone composite panels and shielding the outside from heat.
Preparing a stone plate having a plurality of engaging faces formed on the back face and a stone hole formed in each of the engaging faces so that the point of attachment of the stone engaging groove has the same thickness from the front face;
Stone composite panel and a plurality of panel brackets to be engaged with male and female brackets of upper, lower or upper and lower panels adjacent to each other during the assembly of the panel are fixed to the upper and lower rear sides of the lining board by using a plurality of the stone fasteners And the panel bracket is fixedly coupled to the back side of the stone plate so that the distance from the front surface of the stone panel to the panel bracket is kept the same And installing the panel bracket so that the front face of the stator plate maintains the same vertical plane as the front face of the adjacent panel strakes when assembling the panel; And
And forming a heat insulating plate on the back surface of the lattice plate provided with the panel bracket so that the upper side of the panel bracket provided on the upper back side and the lower side surface of the panel bracket provided on the lower back side are exposed, Method of manufacturing a composite panel.
The method of claim 11,
Wherein the step of preparing the stonepaper comprises the steps of forming grooves on the back surface so as to make the adhesion points of the stone fasteners on the fastening surface at the bottom of the grooves have the same thickness from the front surface, Wherein the paver forms the stone hole so that the diameter of the bottom portion is larger than the diameter of the entrance hole.
The method of claim 11,
Wherein the panel bracket is provided with a thickness retaining socket for retaining a predetermined distance from a point of attachment of the engaging surface to the panel bracket by a thickness retaining socket of the stone fastener, passing the panel bracket and the thickness retaining socket through the stone fastener, The panel bracket is brought into close contact with the thickness holding socket and the distal end portion of the stone fastener inserted into the stone hole is extended to come in close contact with the stone hole so that the same distance from the panel bracket to the front face of the stone plate is maintained, Wherein the step of preparing the stone composite panel comprises the steps of:
The method according to any one of claims 11 to 13,
In the step of forming the heat insulating plate, a heat insulating material injecting case matching the size of the stone plate is provided on the back surface of the stone plate on which the panel bracket is provided, and the heat insulating material is injected into the heat insulating material injecting case, Wherein the heat insulating plate is formed such that an upper surface of the panel bracket provided on the upper rear side and a lower surface of the panel bracket provided on the lower rear surface are exposed.

Images