KR101404420B1 - DIY modular storage system - Google Patents

Abstract

The present invention relates to a DIY modular storage system, in which a modular storage is assembled by continuously coupling vertical and horizontal frames by means of connection members and bases to form a frame of a structure, by coupling a panel to the external surface of the frame of the structure in a sliding manner so as to be fitted to insertion recesses formed on the connection members and the bases, and by coupling two or more gable-shaped brackets having a coupling portion coupled to the underside thereof to the top surface of the frame of the structure, thus reducing the assembly time of the modular storage and maximizing the work efficiency to improve the productivity of the modular storage. Further, the number of bolts used for the assembly of the storage can be drastically reduced to improve the appearance of the storage, and height adjustment members are formed on both side ends of each bracket and both side ends of a pressure plate, thus allowing cover plates with various thicknesses to be coupled to the top surfaces of the brackets.

Description

DIY modular storage system [0001]

More particularly, the present invention relates to a DIY prefabricated warehouse system, and more particularly, to a DIY prefabricated warehouse system, in which a vertical frame and a horizontal frame are continuously connected to each other to form a structural frame, At least two or more gauze-shaped brackets coupled to the lower end of the coupling part are coupled to the upper surface of the skeleton of the structure so as to form a prefabricated warehouse. Thus, the assembly time and efficiency of the prefabricated warehouse are improved The productivity of the prefabricated warehouse can be maximized and the overall appearance of the prefabricated warehouse can be enhanced by reducing the bolt to a minimum during assembly of the prefabricated warehouse. In addition, height adjustment members The cover plate made of various thicknesses is formed on the upper surface of the bracket The present invention relates to a DIY prefabricated warehouse system that can be coupled to a DIY prefabricated warehouse system.

Generally, a prefabricated warehouse is a structure in which frames made of steel or synthetic resin are continuously connected and a panel is assembled and installed in the frame.

In the conventional prefabricated warehouse, since the panels are fixedly connected to the outer surface of the frame by bolts, the productivity of the prefabricated warehouse is increased due to an increase in assembly time, and the appearance of the prefabricated warehouse is not improved due to the bolts .

In addition, since the conventional prefabricated warehouse is formed in a hexahedron shape, there is a problem that water is accumulated on the upper surface of the prefabricated warehouse, or leaves, snow, dust, etc. are piled up.

In order to solve this problem, a roof of a paved shape is connected to the upper surface of the cage-like warehouse formed by a hexahedron.

The prefabricated structure assembled in the form of a pavilion has a main truss spaced apart from each other and a beam member coupled to the main truss to form a hexahedron, as disclosed in Japanese Patent Application No. 2001-49862.

A square pipe member is vertically coupled to a corner of the main truss assembled as described above, and a plurality of rod bars are coupled to the main truss corner to which the square pipe is coupled in a diagonal shape.

A rod-shaped roof bracket is formed by joining the upper end of the rod bar to the end of the diagonally coupled rod bar using a fixing portion.

That is, a plurality of load bars are slantedly connected to the corner of the main truss, and a roof of a gable shape is installed in a main truss assembled in a hexahedron.

However, a problem with the conventional prefabricated warehouse system is that a plurality of load beams are diagonally connected to the corners of the main truss in order to assemble the roof with the top of the main truss assembled in a hexagonal shape, Therefore, the production time of the prefabricated warehouse is increased and the production cost is increased as well as the productivity is increased.

In addition, since the cover plate coupled to the upper surface of the load beam is coupled with a plurality of bolts, not only the overall appearance of the prefabricated warehouse is not good, but also the cover plate made of various thicknesses can not be installed on the top surface of the load beam .

Also, because the panel is coupled to the outer surface of the main truss assembled with hexahedral bolts, the installation time of the prefabricated warehouse becomes longer and the productivity is lowered.

In order to solve the above problems, according to the present invention, a vertical frame and a horizontal frame are continuously connected to each other using a connector and a base to form a frame of the structure. On the upper surface of the frame, At least two or more brackets coupled to the lower end are combined to form a prefabricated warehouse, thereby reducing the installation time of the prefabricated warehouse, thereby improving the productivity of the prefabricated warehouse and reducing the manufacturing cost. At both ends of the pressurizing plate and the bracket, A cover plate made of various thicknesses can be easily installed on the bracket by forming a control member, and a pressure plate for pressing and fixing the cover plate is coupled to the bracket by fitting and detaching. The panel, which is coupled to the side surface of the structure frame, And the upper and lower surfaces of the structural frame Since the combined panel is mounted on the fixing plate provided at the connecting port and the base, it is possible to reduce the maintenance cost of the prefabricated warehouse and to minimize the bolt when assembling the prefabricated warehouse, so that the appearance of the prefabricated warehouse can be improved DIY prefabricated warehouse system.

According to an aspect of the present invention,

A bracket that is coupled to an upper surface of the frame so as to be inclined downward to both sides of the frame, and a pressing plate for fixing the cover plate to the bracket, The DIY prefabricated warehouse system comprising:

The horizontal frame or the coupling portion formed to be long in the longitudinal direction so that the upper portion of the panel is coupled to the inner side is coupled to the lower end of the bracket.

According to an aspect of the present invention, there is provided a bracket including a frame and a horizontal frame coupled to each other by using a connecting port and a base, and a horizontal frame or a bracket coupled to a lower end of the frame so that an upper end of the panel is inserted into the upper surface of the frame. At least two or more assemblies are combined to form a prefabricated warehouse, thereby reducing the installation time of the prefabricated warehouse, thereby reducing the manufacturing cost while improving the productivity of the prefabricated warehouse.

In addition, a cover plate made of various thicknesses can be easily installed on the bracket by forming a height adjusting member at both side ends of the pressure plate and the bracket, and a pressure plate for pressing and fixing the cover plate is coupled to the bracket by fitting and detaching, The panel coupled to the side of the structural frame is slidingly coupled to the base and the panel coupled to the upper and lower surfaces of the structural frame is coupled to the fixing plate provided at the connecting port and the base, The effect can be expected.

In addition, when the prefabricated warehouse is assembled, the bolt can be minimized, and the appearance of the prefabricated warehouse can be improved.

1 is an exploded perspective view of a DIY prefabricated warehouse system of the present invention.
2 is an assembled perspective view of a DIY prefabricated warehouse system of the present invention.
3 is a partially enlarged perspective view of the DIY prefabricated warehouse system of the present invention.
4 is a partially enlarged perspective view showing another embodiment of the engaging portion of the present invention.
Figures 5 and 6 illustrate the height adjustment member of the present invention.
7 is a view showing a state where a reinforcing fiber is joined to a bracket of the present invention.
8 is a view showing a state of being coupled to a water-receptacle frame of the present invention.
9 is a view showing another embodiment of the water-receptacle frame of the present invention.
10 is a bottom perspective view showing another embodiment of a connector according to the present invention;
11 is a perspective view showing another embodiment of the base of the present invention.
12 is a view illustrating a state where a base and a connector are coupled to upper and lower ends of a vertical frame of the present invention, respectively.
13 is a cross-sectional view of the base showing a state in which the finishing portion of the present invention is engaged.
14 is a view showing another form of a frame of the present invention;
15 is a front view showing a state where a window is installed on the bracket of the present invention.
16 and 17 are views showing a state in which a bracket is coupled to an upper surface of a coupling portion of the present invention in a double manner.
18 is a view showing another form of the frame of the present invention.
Fig. 19 is a view showing that a connector and a base are integrally formed on upper and lower ends of a frame of the present invention; Fig.
20 and 21 are views showing another embodiment of a bracket according to the present invention;
22 is a perspective view showing a tent of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

According to the drawings,

The frame 12 is connected to the vertical and horizontal frames 10 and 11 in a continuous manner to form a structural frame 1. The upper surface of the structural frame 1 is provided with a cover plate 2, And a presser plate (60) for engaging a bracket (40) coupled to the upper surface of the inclined upper surface and fixing the cover plate (50) to the bracket (40), the system comprising:

A pressure plate (60) coupled to the upper surface of the bracket (40) by fitting and detaching to press and fix the lid plate (2) to the bracket (40);

A height adjusting member 70 formed at both ends of the bracket 40 and the pressure plate 60 to vary the installation height of the pressure plate 60 for fixing the cover plate 2;

An engaging portion 100 coupled to a lower end of the bracket 40 and adapted to fit the upper portion of the horizontal frame 11 or the panel 12 inward;

An outer wall 121 and an inner wall 122 which are coupled to both sides of the lower end of the bracket 40 and protrude from the bottom of the body 120 so that the upper end of the vertical frame 10 and the upper side of the panel 12 are fitted inward. 122, and has an insertion hole (123);

The outer wall 22 and the inner wall 21 are spaced apart from each other so as to be spaced apart from each other on the upper surface of the bottom plate 21 so that the lower ends of the vertical frame 10 and the panel 12 are fitted inwardly, And a base (20) provided with a groove (24).

As shown in FIG. 12, the base 20 and the connector 110 are coupled to the upper and lower ends of the vertical frame 10 to allow the horizontal frame 11 and the panel 12 to be continuously connected.

The base 20 forms a bottom plate 21 coupled to the ground with an anchor bolt and the outer wall 22 and the inner wall 23 are formed on the upper surface of the bottom plate 21 so as to be spaced apart from each other, An insertion groove 24 is formed in which the lower portion of the insertion hole 12 is fitted inward.

The anchor bolt is coupled to an anchor coupling part 25 protruding outside the outer wall 22, which is one side of the bottom plate 21.

The finishing portion 27 is coupled as shown in FIG. 13 so that the anchor bolt connected to the anchor coupling portion 25 is connected to the outer wall 22 so as to protect the anchor bolt from the external environment.

The anchor bolt can be prevented from being corroded by an external environment and the anchor bolt can be prevented from being exposed to the outside due to the finishing portion 27, The overall appearance can be made beautiful.

An upwardly inclined fitting groove 26 is formed on the upper surface of the anchor coupling portion 25 so as to engage with the finishing portion 27 and an outer wall 22 corresponding to the fitting groove 26, So that the finishing portion 27 is inclined downwardly.

11, the base 20 is formed in a shape of any one of 'a', 'T', and '+' 'l' depending on the position where the vertical frame 10 is installed Thereby coupling the base 20.

That is, as shown in FIG. 1, the base 20 connected to the lower end of the vertical frame 10 installed at the edge of the structural frame 1 is formed in the shape of a letter 'A', and is installed in the middle of the structural frame 1 The base 20 is formed by forming one of a 'T' character or a 'l' character shape as shown in FIG.

The base 20 coupled to the vertical frame 10 installed in the middle of the structural frame 1 is formed in a '+' shape as shown in FIG.

The connector 110 coupled to the upper end of the vertical frame 10 forms a body 120 coupled to a lower end of the bracket 40. An outer wall 121 and an inner wall 122 are formed on a bottom surface of the body 120, So as to form an insertion groove 123 into which the upper end of the vertical frame 10 and the panel 12 is inserted inward.

3 and 10, the connector 110 is formed in one of 'a', 'T', and '+' 'l' depending on the position of the vertical frame 10 .

That is, the base 20 formed in the same shape at the upper and lower ends of the vertical frame 10 and the connector 110 are symmetrically connected to each other.

The base 20 and the coupling hole 110 are coupled to the upper and lower ends of the vertical frame 10 so that the upper and lower ends of the vertical frame 10 are inserted into the insertion grooves 24 and 123 The panel 12 which blocks the vertical frame 10 and the vertical frame 10 as well as the frame 12 can be easily inserted into the insertion grooves 24 and 123 So that the coupling force of the panel 12 can be increased.

At this time, fixing plates 28 and 124 are formed on the outer surface of the base 20 and the inner walls 23 and 122 of the coupling hole 110, respectively, and the panels are mounted on the upper surface of the fixing plates 28 and 124 12a are horizontally connected to each other, the installation time of the ceiling panel and the floor panel can be reduced.

19 shows the base 20 and the connecting hole 110 integrally formed on the upper and lower ends of the vertical frame 19, respectively.

19 (b) at the upper and lower ends of the vertical frame 19, it is possible to remarkably reduce the work speed at the time of assembling and installing the prefabricated warehouse.

The U-bar 30 is coupled to the insertion groove 24 and the U-bar 30 so that the U-bar 30 is connected to the base 20 and the U- So that the mounting strength and assembly of the panel 12 can be facilitated.

A guide rail 130 is formed on the outer surface of the vertical frame 10 and the horizontal frame 11 to which the base 20 and the coupling 110 are coupled, And the panels 12 and 12a are fitted to the inside of the guide rails 130 so that the installation time of the panels 12 and 12a can be reduced and the assembling cost can be reduced, The effect of improving the productivity can be expected.

The guide rails 130 protruding from the outer surfaces of the frames 10 and 11 are protruded as shown in Figs. 18A to 18C so that the panels 12 can be easily engaged with each other.

1, a bracket 40 is coupled to an upper surface of a structural frame 1 to which the panels 12 and 12a are coupled. The bracket 40 has a horizontal frame 11, The engaging portion 110 is engaged so that the upper end of the engaging portion 12 is fitted inward.

The coupling unit 100 includes a horizontal plate 101 coupled to a lower end of the bracket 40 and a vertical plate 102 formed perpendicularly to one or both ends of the horizontal plate 101.

As shown in FIG. 3, a concave / convex portion 52 is formed at the lower end of the bracket 40 to which the coupling portion 110 is coupled, and the horizontal plate 52 provided at the coupling portion 110 is inserted into the concave / The concave and convex holes 103 may be formed in the bracket 101 to reinforce the bonding strength between the bracket 40 and the engaging portion 110. In addition, The installation time of the coupling part 110 can be reduced.

' 모양 또는 'ㅣ' 자 중 어느 하나의 형태로 형성되어 브라켓(40)의 하단에 결합 구성되는 것이다.The engaging portion 100 coupled to the lower end of the bracket 40 may be formed of a letter 'A' or '

Shaped or 'ㅣ' shape, and is coupled to the lower end of the bracket 40. As shown in FIG.

3 (a) and 3 (b), an engaging plate 104 is formed on the outer surface of the panel 12, which is coupled to the inside of the engaging portion 100 formed in a ' So that the panel 12 coupled to the inside of the coupling part 100 can be easily installed.

16 shows one or more brackets 40 installed on the upper surface of the engaging portion 100. As shown in Fig.

As described above, at least one bracket 40 is coupled to the horizontal plate 101 provided in the coupling unit 100 to reinforce the installation strength of the roof bracket 40 of the prefabricated warehouse assembled in a large size.

At this time, it is possible to join the panel 12 or the like between two or more brackets 40 coupled to the upper surface of the coupling portion 40. [

As shown in FIG. 1, the bracket 40 to which the engaging portion 40 is coupled is formed with a generally tubular body portion 50 whose upper surface is inclined downward to both sides, and on the upper surface of the body portion 50, And the cover plate 2 formed on both sides at an inclined downward position is mounted.

The cover plate 2 is coupled to the upper surface of the bracket 40 so as to be coupled to the cover plate insertion rail 170 having an opening formed at its both sides and to be inserted into the cover plate insertion rail 170 It is possible to increase the coupling force of the lid plate 2 coupled to the bracket 40 by combining the lid plate 170 and to prevent the lid plate 2 from being manufactured so as to be formed in the form of a roof- And an effect of facilitating movement can be expected.

In this case, the 'H' -shaped cover plate fitting rail may be installed in the middle of the upper surface of the bracket 40 as shown in FIG. 2 to reinforce the installation strength of the cover plate 2 of the assembled warehouse do.

2, a fixing groove 55 is formed at the center of the upper surface of the bracket 40, and the cover plate is fitted to the fixing groove 55 by welding and fixing It is possible to prevent the cover plate fitting panel 170 from being easily detached from the bracket 40 beforehand.

A pressing plate 60 is coupled to the upper surface of the lid plate 2 on which the bracket 40 is installed to fix the lid plate 2 to the upper surface of the bracket 40.

As shown in FIG. 7, reinforcing grooves 54 are formed at the upper end of the body portion 50 of the bracket 40 by equally spaced reinforcing pieces 53, A reinforcement pipe 140 is installed to penetrate the reinforcement groove 54 so as to be in close contact with the upper surface of the reinforcement piece 53 to reinforce the support strength of a plurality of brackets 40 provided on the upper surface of the framework 1 The reinforcing pipe 140 can support the lower part of the cover plate 2 so that the mounting strength of the cover plate 2 can be reinforced.

The reinforcing pipe 141 coupled to the body portion 50 of the bracket 40 is formed to have the same angle as the inclined surface formed on the upper surface of the bracket 40 as shown in FIG.

The reinforcing pipe 141 is joined at the same angle as the inclined surface formed on the upper surface of the bracket 40 as shown in Figure 7B so that the contact area between the lid plate 2 and the reinforcing pipe 141 is increased, The coupling force of the plate 2 can be increased.

The support plate 51 formed to be wider than the thickness of the body portion 50 so as to support the lower portion of the cover plate 2 placed on the upper surface of the bracket 40 may be integrally formed or welded as shown in FIGS. .

At this time, a reinforcing groove is formed so that the upper surface of the receiving plate 51 is opened, and the reinforcing pipe 140 can be coupled to penetrate the reinforcing groove.

A bracket 40 and a height adjusting member 70 are installed at both ends of the bracket 40 and the bracket 40. The cover plate 2 is made of various thicknesses, Lt; / RTI >

5, the height adjusting member 70 is vertically formed at both ends of the body portion 50 of the bracket 40 and the height adjusting portion 80 is provided with a long hole 81 ) Are formed long in the up and down directions.

The fixing portions 90 provided with the bolt holes 91 are formed vertically at both sides of the pressing plate 60 so as to be closely contacted to the inner surface of the height adjusting portion 80, The cover plate 2 having different thicknesses can be installed on the upper surface of the bracket 40 as shown in FIGS. 5 (b) and 5 (c).

6 shows another form of the height adjusting member.

The first and second side plates 82 and 82 are formed on the front and rear surfaces of the height adjusting portion 80 as shown in FIG. A second side plate 92 having bolt holes 91 is formed on the front and back sides of the fixing portion 90 as shown in (a) of FIG.

6 (b) and 6 (c), bolts and nuts are combined with the first and second side plates 82 and 92 provided at the height adjusting portion 80 and the fixing portion 90, So that the cover plate 2 can be coupled to the upper surface of the bracket 40.

That is, the lid plate 2 placed on the upper surface of the bracket 40 is fixedly coupled to the upper surface of the bracket 40 by the pressure plate 60. At this time, 2, the height adjusting member 70 is formed so that the pressing plate 60 can be coupled to the upper surface of the bracket 40 by fitting and removing, and the height adjusting member 70 can be manufactured in various thicknesses 5 (b), 5 (c), 6 (b) and 6 (c) can be fixedly connected to the bracket 40. [

As described above, the pressure plate 60 for fixing the cover plate 2 to the bracket 40 is coupled with the cover plate 2 as shown in FIG. 1, thereby facilitating the maintenance of the cover plate 2, thereby reducing the maintenance cost The cover plate 2 having various thicknesses can be coupled to the bracket 40 due to the height adjustment member 70 formed at both ends of the bracket 40 and the pressure plate 60. [ It can be expected.

8 and 9 illustrate a water receiving frame 150 coupled to the bracket 40. The water receiving frame 150 is disposed on both sides of the bracket 40 so as to be positioned between the bracket 40 and the pressure plate 60. [ And a water receiving tube 141 is coupled to the water receiving frame 150 to collect water falling on the upper surface of the lid plate 2 to be discharged to the outside.

The water receiving frame 151 is formed to be longer in the longitudinal direction so that the water receiving case 141 is inserted into the water receiving frame 150 as shown in FIG. 8 to form a water receiving groove 152.

A fitting rail 153 is formed on the outer surface of the water-receiving portion 151 in the longitudinal direction to form a cover plate fitting groove 154. The inside of the cover plate fitting groove 154 is provided with a cover plate- So that water flowing on the lid plate 2 is discharged to the outside in a state where the water is collected by the water receiving case 141.

9 shows another form of the water receiver frame 150. A cover plate 155 is inserted into an upper end of a water receiver fitting part 151 in which the water receiver case 141 is inserted inwardly, Is formed in a direction opposite to the losing direction

10 (b), a blocking portion 155 is further formed at the upper end of the water-receiving portion 151 to which the water-receiving tube 141 is coupled so that the upper surface of the cover plate 2 It is possible to prevent the material such as a falling leaf flowing along the water receiving tube 141 from flowing into the water receiving tube 141 to the maximum extent.

FIG. 15 is a view showing that a window is installed in the middle of a bracket 40 installed on the upper surface of a structural frame 1, and a prefabricated warehouse is assembled in two layers.

A connecting port 166 having a through hole 166 is further formed in the middle of the vertical frame 10 so that the panel can be formed as a two-layer structure. The panel 12a is connected to a fixing plate 165 ).

10, an outer wall 162 and an inner wall 163 are formed on the upper surface of the body 161 so as to be spaced apart from each other to form an insertion groove 164, and an outer wall 162 and an inner wall 163 are formed on the outer surface of the inner wall 163 And a fixing plate 165 is protruded and formed so that the panel 12a is coupled in a horizontal plane.

At this time, a through hole 166 is formed in the body 161 so that the vertical frame 10 passes through the through hole 166, and the intermediate connector 160 is moved up and down by the through hole 166, .

Figures 20 and 21 illustrate different forms of brackets.

Another embodiment of the bracket 40a includes a body portion 50 having a right triangle shape and a lid plate 2 coupled to the upper surface of the body portion 50 in one direction.

The right triangle bracket 40a is coupled to the upper surface of the structural frame 1 coupled to the panels 12 and 12a as shown in FIG. 15 to form a prefabricated warehouse.

By assembling the bracket 40a in the form of a right triangle as described above on the upper surface of the structural frame 1, the assembled warehouse can be installed close to the wall surface.

FIG. 21 shows a bracket formed by connecting a bracket 40a formed of a right triangle to an upper surface of a structural frame 1 so as to be spaced apart therebetween, and connecting the bracket 40a with a connecting plate 180 therebetween.

As described above, the brackets 40 formed of right-angled triangles are coupled to both sides of the upper surface of the structural frame 1, and the connecting plate 180 is coupled therebetween to facilitate the manufacture of the roof bracket 40a of the large- An effect that can be expected can be expected.

22, the vertical and horizontal frames 10 and 11 are continuously coupled to each other by using the base 20 and the coupling hole 110 to form a structural frame 1, And the panels 12 and 12a are coupled to the lower surface to form a tent.

1. Structure skeleton, 2: Cover plate,
10: vertical frame, 11: horizontal frame,
12, 12a: panel, 13: fitting rail,
20: base, 21: bottom plate,
22: outer wall, 23: inner wall,
24: insertion groove, 25: anchor coupling portion,
26: fitting groove, 27: finishing portion,
28: Fixing plate, 40,40a: Bracket,
50: body portion, 51:
52: concave / convex portion, 53: reinforcing piece,
54: reinforcing groove, 55: fixing groove,
60: pressure plate, 70: height adjusting member,
80: height adjusting portion, 81: long hole,
82: first side plate, 90: fixing portion,
91: bolt hole, 92: second side plate,
100: coupling portion, 101: horizontal plate,
102: vertical plate, 103: concave /
104: coupling plate, 110: connector,
120: body, 121: outer wall,
122: inner wall, 123: insertion groove,
124: fixing plate, 130: guide rail,
131: guide groove, 140: reinforced pipe,
141: water receptacle, 150: water receptacle frame,
151: water receiving portion, 152: water receiving groove,
153: fitting rail, 154: cover plate fitting groove,
155: breaking portion, 160: intermediate connector,
161: body, 162: outer wall,
163: inner wall, 164: insertion groove,
165: fixed plate, 166: through hole,
170: cover plate fitting rail, 180: connecting plate,

Claims (33)

The frame 12 is connected to the vertical and horizontal frames 10 and 11 in a continuous manner to form a structural frame 1. The upper surface of the structural frame 1 is provided with a cover plate 2, And a pressure plate (60) for fixing the cover plate (2) to the bracket (40) by engaging a bracket (40) coupled to the upper surface in an inclined manner,
The coupling part 100 formed to be long in the longitudinal direction is coupled to the lower end of the bracket 40 so that the upper part of the horizontal frame 11 or the panel 12 is coupled inward,
The connector 110 is further coupled to both sides of the lower portion of the bracket 40 such that the upper end of the vertical frame 10 and the upper side of the panel 12 are inserted inward,
The connector 110 has an outer wall 121 and an inner wall 122 spaced apart from each other at a lower portion of the body 120 so that the upper end of the vertical frame 10 and the upper side of the panel 12 are inserted inward. (123)
And a fixing plate (124) coupled to the panel (12a) in a horizontal plane is further formed on the outer surface of the inner wall (122) facing the fixing plate (124).
The method according to claim 1,
A base (20) is coupled to the lower end of the vertical frame (10) so that the vertical frame (10) can be installed perpendicularly to the ground,
The base (20)
A bottom plate 21 coupled to the ground is formed,
Wherein an upper wall of the bottom plate is formed with an outer wall and an inner wall so as to protrude from each other to form an insertion groove for coupling the lower end of the vertical frame to the DIY pre- .
The method according to claim 2,
And a fixing plate (28) coupled to the panel (12a) in a horizontal plane is further formed on an outer surface of the inner wall (23) facing the inner wall (23).
The method according to claim 1,
A height adjustment member 70 capable of varying the installation height of the pressure plate 60 to be coupled to the bracket 40 by the thickness of the cover plate 2 is disposed at both ends of the bracket 40 and at both ends of the pressure plate 60, respectively,
The height adjusting member (70)
The height adjuster 80 is vertically formed on both side ends of the body portion 50 of the bracket 40,
The elongated hole 81 is formed at the center of the height adjusting portion 80,
At both ends of the pressure plate 60, a fixing portion 90 having a bolt hole 91 is formed so as to be in close contact with the inner surface of the height adjusting portion 80,
A bolt and a nut are combined with the long hole 81 and the bolt hole 91 so that the height of the pressing plate 60 can be changed while the pressing plate 60 is moved up and down along the long hole 81 DIY prefabricated warehouse system.
The method of claim 4,
A first side plate 82 provided with elongated holes 81 is formed at both side ends of the height adjusting portion 80,
A second side plate 92 having bolt holes 91 is formed on both side ends of the fixing portion 90 so as to correspond to the first side plate 82. Bolts and holes are formed in the long holes 81 and the bolt holes 91, And the mounting height of the pressure plate (60) can be varied.
The method according to claim 1,
A reinforcing groove 53 is formed at the upper end of the bracket 1 by equally spacing the reinforcing pieces 53 folded in the vertical direction so as to be in close contact with the upper portion of the reinforcing piece 53, 140) are inserted into the reinforcing groove (54)
Wherein the reinforcing pipe (140) is integrally formed with the cover plate (2) so as to be inclined along an inclined surface to be coupled to the bracket (40).
The frame 12 is connected to the vertical and horizontal frames 10 and 11 in a continuous manner to form a structural frame 1. The upper surface of the structural frame 1 is provided with a cover plate 2, And a pressure plate (60) for fixing the cover plate (2) to the bracket (40) by engaging a bracket (40) coupled to the upper surface in an inclined manner,
At both side ends of the pressure plate 60 for fixing both side ends of the bracket 40 and the lid plate 2 to the bracket 40, the installation height of the pressure plate 60 is varied, A height adjusting member 70 is formed so as to be fixed to the upper surface of the bracket 40,
The height adjusting member (70)
A height adjusting portion 80 is formed at both ends of the bracket 40 and an elongated hole 81 is formed at the center of the height adjusting portion 80,
A fixing portion 90 that is in close contact with the inner surface of the height adjusting portion 80 is formed at both side ends of the pressing plate 60. A bolt hole 91 is formed at the center of the fixing portion 90,
Wherein a bolt and a nut are coupled to the long hole (81) and the bolt hole (91), respectively, so that the mounting height of the pressure plate (60) for pressing and fixing the cover plate (2) can be varied.
The method of claim 7,
A first side plate 82 provided with elongated holes 81 is formed at both side ends of the height adjusting portion 80,
A second side plate 92 having bolt holes 91 to be coupled to the inside of the first side plate 82 is formed at both side ends of the fixing portion 90 so that the long holes 81 and the bolt holes 91 And a mounting height of the pressure plate (60) for fixing the cover plate (2) to the bracket (40) can be varied by combining the bolt and the nut.
The frame 12 is connected to the vertical and horizontal frames 10 and 11 in a continuous manner to form a structural frame 1. The upper surface of the structural frame 1 is provided with a cover plate 2, And a pressure plate (60) for fixing the cover plate (2) to the bracket (40) by engaging a bracket (40) coupled to the upper surface in an inclined manner,
A pressure plate (60) coupled to the upper surface of the bracket (40) by fitting and detaching to press and fix the lid plate (2) to the bracket (40);
A height adjusting member 70 formed at both ends of the bracket 40 and the pressure plate 60 to vary the installation height of the pressure plate 60 for fixing the cover plate 2;
An engaging portion 100 coupled to a lower end of the bracket 40 and adapted to fit the upper portion of the horizontal frame 11 or the panel 12 inward;
An outer wall 121 and an inner wall 122 which are coupled to both sides of the lower end of the bracket 40 and protrude from the bottom of the body 120 so that the upper end of the vertical frame 10 and the upper side of the panel 12 are fitted inward. 122, and has an insertion hole (123);
The outer wall 22 and the inner wall 21 are spaced apart from each other so as to be spaced apart from each other on the upper surface of the bottom plate 21 so that the lower ends of the vertical frame 10 and the panel 12 are fitted inwardly, And a base (20) provided with a groove (24)
A reinforcing groove 53 is formed at the upper end of the bracket 1 by equally spacing the reinforcing pieces 53 folded in the vertical direction so as to be in close contact with the upper portion of the reinforcing piece 53, 140) are inserted into the reinforcing groove (54)
Wherein the reinforcing pipe (140) is integrally formed with the cover plate (2) so as to be inclined along an inclined surface to be coupled to the bracket (40).
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