Brick panel assembly system

Abstract

A system for dry execution of a finishing material according to one aspect of the present invention can comprise an angled rod fixed to the outer wall of the building, a fixing bracket in which both ends are fixed and installed to the angled rod, an insulation material provided on one side of the fixing bracket to exert insulation and water blocking performance, and a brick which is provided on the other side of the fixing bracket, and in which an insertion groove is formed on one side that faces with the fixing bracket to be combined in a way to insert to the fixing bracket, wherein the fixing bracket comprises an insertion clip which is inserted to the insertion groove to allow the brick to combine with the fixing bracket, and an elastic clip which is provided on the left and right sides of the insertion clip respectively to provide elastic force that pushes in a direction of the other side of the brick with the insertion clip inserted to the insertion groove.

Claims

1. A system for dry execution of a finishing material, comprising: a plurality of vertically-extending rods fixed to an outer wall of a building at predetermined distances thereacross, first and second fixing brackets each having first and second ends, the first end of each of the fixing brackets being fixed and installed to a first rod, and the second end of each of the fixing brackets being fixed and installed to a second rod, an insulation material provided an inner side of the fixing brackets to provide insulation and water blocking performance, and a first brick provided on an outer side of the fixing brackets, the first brick including an insertion groove formed on a side thereof facing the fixing brackets to attach the first brick to at least one of the fixing brackets, wherein each of the fixing brackets comprises an insertion clip which is inserted into the insertion groove to allow the first brick to attach to at least one of the fixing brackets, and an elastic clip which is provided on left and right sides of the insertion clip respectively to provide an elastic force that pushes in a direction towards the outer side of the first brick when the insertion clip is inserted into the insertion groove, each of the fixing brackets comprising: a fixing plate including the insertion clip and the elastic clip, and a first overlapping plate extending in a vertically-upward direction with respect to the fixing plate, and a second overlapping plate extending in a vertically-downward direction with respect to the fixing plate, the first overlapping plate defining a rear portion and the second overlapping portion defining a front portion, the front portion comprising: a lower extending plate extending from a bottom of the fixing plate in a direction towards the insulation material, a front plate extending from one end of the lower extending plate in a vertically-downward direction, and a supporting plate extending from one end of the front plate in a direction toward the brick, the rear portion comprising: an upper extending plate extending from a top of the fixing plate in a direction toward the insulation material, and a rear plate extending from one end of the upper extending plate in a vertically-upward direction, and wherein the second fixing bracket is positioned vertically-upward from the first fixing bracket such that the front plate of the second fixing bracket is located adjacent and in contact with the rear plate of the first fixing bracket, and wherein the supporting plate of the front portion of the second fixing bracket rests upon the upper extending plate of the rear portion of the first fixing bracket, and further comprising a screw extending through the overlapping front and rear plates of the first and second fixing brackets, and extending through the insulation material, and extending into one of the rods thereby simultaneously securing the first and second fixing brackets to one another and to at least one of the rods.

2. The system for dry execution of a finishing material according to claim 1, the insertion clip comprising: a supporting portion having one end fixed to the fixing plate and extending diagonally in a direction towards the first brick to hold up a protruding projection of the first brick, and an insertion portion extending from the supporting portion to be inserted into the insertion groove to contact one side of the protruding projection.

3. The system for dry execution of a finishing material according to claim 2, the elastic clip comprising: a first elastic portion having one end fixed to the fixing plate and extending diagonally in a direction towards the first brick, and a second elastic portion extending from the first elastic portion to contact the other side of the protruding projection.

4. The system for dry execution of a finishing material according to claim 3, wherein a separation space is defined between the insertion portion and the second elastic portion.

5. The system for dry execution of a finishing material according to claim 1, wherein a joint forming member is provided to form a vertical joint between the first brick installed in one of the fixing brackets and an adjacent second brick.

6. The system for dry execution of a finishing material according to claim 5, wherein the first and second bricks define a cross-sectional configuration, and wherein the joint forming member has a cross-sectional configuration, and wherein the cross-sectional configuration of the joint forming member is the same as the cross-sectional configuration of the bricks, and is formed in an elastic material to maintain water tightness between the bricks.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is an exploded perspective diagram of a system for dry execution of a finishing material according to one embodiment of the present invention

(2) FIG. 2 is a perspective diagram of a system for dry execution of a finishing material shown in FIG. 1.

(3) FIG. 3 is a sectional view representing a brick combining to a fixing bracket shown in FIG. 2.

(4) FIG. 4 is an enlarged diagram of A part shown in FIG. 3.

(5) FIG. 5 is a perspective diagram representing a joint forming member shown in FIG. 1.

REFERENCE NUMERAL

(6) 10: an angled rod 20: a waterproof member 21: a body 22: a protrusion 22a: a corrugation portion 100: a fixing bracket 110: an insertion clip 111: a supporting portion 112: an insertion portion 120: an elastic clip 121: a first elastic portion 122: a second elastic portion 130: a fixing plate 140: an overlapping plate 141: a front portion 1411: a lower extending plate 1412: a front plate 1413: a supporting plate 142: a rear portion 1421: an upper extending plate 1422: a rear plate 150: a separation space 200: an insulation material 300: a brick 310: an insertion groove 320: a protruding projection 400: a joint forming member 410: a joint insertion groove 420: a joint protruding projection

DETAILED DESCRIPTION OF THE INVENTION

(7) Hereinafter, a system for dry execution of a finishing material according to one embodiment of the present invention will be described with reference to the accompanying drawings in detail.

(8) FIG. 1 is an exploded perspective diagram of a system for dry execution of a finishing material according to one embodiment of the present invention and FIG. 2 is a perspective diagram of a system for dry execution of a finishing material shown in FIG. 1.

(9) As shown in FIG. 1 and FIG. 2, a system for dry execution of a finishing material according to one embodiment of the present invention can comprise an angled rod (10), a fixing bracket (100), an insulation material (200) and a brick (300).

(10) An angled rod (10) is fixed on the outer wall of the building, which can be formed in the square pipe, etc. which is hollow within inner part. An angled rod (10) can tightly fix a fixing bracket (100) with formed in a material such as aluminum, stainless steel, and etc. And, when a fixing bracket (100) is fixed, one side of a fixing bracket (100) is combined with end part of the other side of a fixing bracket (100), and a waterproof member (20) can be provided to prevent moisture from penetrating between one side of a fixing bracket (100) and the other side of a fixing bracket (100). A waterproof member (20) can be formed in an elastic material to tightly contact with a fixing bracket (100) to prevent moisture from penetrating. If explaining a waterproof member (20) in detail, an angled rod (10) can comprise a protrusion (22) inserted between a body (21) and end part of one side of a fixing bracket (100) and end part of the other side of a fixing bracket (100). A body (21) can be attached to an angled rod (10) with one lateral side formed flatly, and lateral side of a body (21) can tightly contact with inner side of a fixing bracket (100) with a corrugation portion (22a) formed. As a corrugation portion (22a) can be tightly contacted with inner side of a fixing bracket (100), it is possible to prevent moisture from penetrating between end part of one side of a fixing bracket (100) and end part of the other side of a fixing bracket (100).

(11) A fixing bracket (100) can be used to fix a brick (300) as dry method of construction, and manufactured by extruding or injecting materials such as PVC or aluminum and etc. When PVC is used as a fixing bracket (100), it can be formed through injection and when aluminum is used, it can be formed through extrusion. And, a fixing bracket (100) can easily fix and support a brick (300) by inserting a brick (300) to a fixing bracket (100) with fastened to an angled rod (10) through member such as a screw (unsigned), etc. to omit the secondary fixing work using cement mortar or adhesive. Also, a brick (300) can be combined easily to a fixing bracket (100) despite of non-skilled person.

(12) An insulation material (200) can be provided on one side of a fixing bracket (100), i.e., one side facing with the outer wall of the building. As an insulation material (200) is provided between the building and a fixing bracket (100), the heat exchange phenomenon through a fixing bracket (100) can be minimized, thus it can have an effect on improving insulation and water blocking performance of a system for dry execution of a finishing material. And, as rapid execution is achieved by manufacturing an insulation material (200) with a fixing bracket (100) in integrated form, it is possible to improve construction ability of a system for dry execution of a finishing material.

(13) A brick (300) can be formed in a terracotta manner. Terracotta brick is obtained by extrusion molding clay into a predetermined shape and then firing at a high temperature of about 1,000˜1,450° C., and aesthetics and formability are excellent as well as the materials are abundant and homogeneous, so it is a representative inorganic finishing material that can replace a natural stone finishing material. And, at least one or more of hollow portions (unsigned) can be formed inside to reduce weight.

(14) The following will describe a fixing bracket (100) of a system for dry execution of a finishing material according to one embodiment of the present invention in more detail. In the following description, only different parts from example described above will be described in detail and detailed description will be omitted for the same or extremely similar part.

(15) FIG. 3 is a sectional view representing a brick combining to a fixing bracket shown in FIG. 2, and FIG. 4 is an enlarged diagram of A part shown in FIG. 3.

(16) With reference to FIG. 1 to FIG. 4, a fixing bracket (100) of a system for dry execution of a finishing material according to one embodiment of the present invention can comprise an insertion clip (110), an elastic clip (120), a fixing plate (130) and an overlapping plate (140).

(17) An insertion clip (110) and an elastic clip (120) can be provided in a protruding form on one side on a fixing plate (130), i.e., one side facing with brick (300) in a direction of a brick (300). And, an overlapping plate (140) can be provided in the form of extending in a direction of up and down of a fixing plate (130) respectively to be contacted face to face with another fixing bracket (100) neighboring in a direction of up and down in overlapping form in a direction of the front and the rear.

(18) If explaining an insertion clip (110) in detail, the insertion clip (110) can allow a brick (300) to combine with a fixing bracket (100) inserted to an insertion groove (310) formed on one side facing a fixing bracket (100) of a brick (300). To the end, an insertion clip (110) can comprise a supporting portion (111) and an insertion portion (112). A supporting portion (111) has one end fixed to a fixing plate (130), is provided diagonally long in a direction of a brick (300) and contacted face to face on the lower side of a protruding projection (320) of a brick (300) to play a role supporting a protruding projection (320). An insertion portion (112) can be extended from a supporting portion (111) and inserted to an insertion groove (310) of a brick (300). An insertion portion (112) inserted to an insertion groove (310) can be provided to contact face to face with one side of an insertion groove (310) of a protruding projection (320). As such, a supporting portion (111) and an insertion portion (112) prevent a brick (300) from leaving from a fixing bracket (100) and support the bottom, such that the brick (300) can easily remain fixed to the fixing bracket (100).

(19) Meanwhile, an elastic clip (120) is provided on the left and right of an insertion clip (110) respectively to provide elastic force that pushes a brick (300) in a direction of other side of a brick (300), i.e., to the outside of the building with an insertion portion (112) of an insertion clip (110) inserted to an insertion groove (310) of a brick (300). To the end, an elastic clip (120) can comprise a first elastic portion (121) and a second elastic portion (122). A first elastic portion (121) can have one end fixed to a fixing plate (130) and be provided diagonally long in a direction of a brick (300). A second elastic portion (122) can be extended from the first elastic portion (121) and contact face to face with the other side of a protruding projection (320), i.e., one side facing with a fixing plate (130). Here, the elastic clip (120) can maximize elastic force by allowing a folded part contacted face to face when contacted face to face with a protruding projection (320). As such, fixing force of brick can be improved by simultaneously exerting force for pushing a brick (300) to the outside through an elastic clip (120) and force for preventing a brick (300) from being pushed to the outside.

(20) On the other hand, separation space (150) where a protruding projection (320) of a brick (300) is inserted can be formed by allowing an insertion portion (112) of an insertion clip (110) to be provided protruding relatively longer in a direction of a brick (300) than a second elastic portion (122) of an elastic clip (120). The separation space (150) is formed same as or smaller than size of a protruding projection (320), and friction force between a protruding projection (320) and an insertion portion (112), a protruding projection (320) and a second elastic portion (122) can be increased and combining force can be improved.

(21) Meanwhile, an overlapping plate (140) can comprise a front portion (141) extending in a lower direction of a fixing plate (130) and a rear portion (142) extending in a direction of an upper direction of a fixing plate (130). When a pair of fixing brackets (100) neighboring in a direction of up and down combine, a rear portion (142) of the fixing bracket (100) located on the bottom is provided to be located in the rear of a front portion (141) of another fixing bracket (100) located on the top and it is possible to allow a pair of fixing brackets (100) neighboring in a direction of up and down to be overlapped in part. Accordingly, air-tightness performance of the fixing bracket (100) can be improved, thus have an effect on increasing air tightness of a system for dry execution of a finishing material.

(22) A front portion (141) can comprise a lower extending plate (1411) diagonally extended from the bottom of a fixing plate (130) in a direction of an insulation material (200), a front plate (1412) extended from one end of the lower extending plate (1411) to be provided long in a direction of ground surface, and a supporting plate (1412) extended from one end of the front plate (1412) in a direction of a brick (300).

(23) A rear portion (142) can comprise an upper extending plate (1421) diagonally extended from the top of a fixing plate (130) in a direction of an insulation material (200) and thus holding up a supporting plate (1412) of another fixing bracket (100) neighboring in an upper direction, and a rear plate (1422) extended from one end of the upper extending plate (1421), provided diagonally long in a corresponding direction with ground surface to contact face to face with a rear side of a front plate (1412) of another fixing bracket (100) neighboring.

(24) As an upper extending plate (1421) of a rear portion (142) is provided in form of holding up a supporting plate (1412) of a front portion (141), it can easily support a fixing bracket (100) relatively located in an upper direction, and structural stability can be increased. And, a screw (unsigned), etc. is fastened in a front plate (1412) and a rear plate (1422), and a pair of fixing brackets (100) neighboring in a direction of up and down can be integrated.

(25) The following will describe a joint forming member (400) installed in a fixing bracket (100) of a system for dry execution of a finishing material according to one embodiment of the present invention. In the following description, only different parts from example described above will be described in detail and detailed description will be omitted for the same or extremely similar part.

(26) FIG. 5 is a perspective diagram representing a joint forming member shown in FIG. 1.

(27) With reference to FIG. 1 to FIG. 5, a system for dry execution of a finishing material according to one embodiment of the present invention can comprise a joint forming member (400) that forms a vertical joint between one side brick (300) installed in a fixing bracket (100) and the other brick (300) installed neighboring with the one side brick.

(28) A joint forming member (400) can have a similar lateral side form with a brick (300), and can be formed in elastic materials such as PVC or rubber material, etc. to maintain water tightness between bricks (300). And, a joint insertion groove (410) and a joint protruding projection (420) similar with an insertion groove (310) of a brick (300) and a protruding projection (320) can be provided to combine with an insertion clip (110) of a fixing bracket (100) and an elastic clip (120) in the same manner as a brick (300).

(29) As such, as a joint forming member (400) is installed between one side brick (300) and the other brick (300) neighboring in a horizontal direction and forms a vertical joint, it can beautify the appearance and have an effect on preventing outer air, moisture, etc. from penetrating between bricks (300).

(30) In the above, a system for dry execution of a finishing material according to one embodiment of the present invention was described, but technical spirit of the invention cannot be limited by examples disclosed herein. And, those skilled in the art that understand technical spirit of the invention can easily suggest other examples by adding, changing, deleting, appending, or etc. components within same scope of technical spirit, but it also belongs within the scope of technical spirit of the invention.