KR102381707B1 - Reinforced structure and its installation method - Google Patents

Abstract

Disclosed is a reinforced structure capable of securing structural stability to prevent deformation and damage due to external force. The reinforced structure according to an embodiment of the present invention includes a plurality of upper structures disposed in a first direction and having a curved truss structure; connection structures disposed to face each other in a second direction different from the first direction and supporting both ends of the upper structures; and lower structures disposed to face each other in the first direction and supporting the connection structures in the second direction.

Description

Reinforced structure and its installation method

The present invention is directed to a reinforcing bar structure and a method for installing the same.

In general, a temporary warehouse of a semi-circular shape includes a structure including an arch-shaped steel pipe frame spaced apart from each other at regular intervals on the ground, a plurality of steel pipe frames on both sides and a straight support pipe welded to the top, and a structure disposed around the structure It consists of a cover.

However, the conventional temporary warehouse has a problem in that the structure constituting the frame is formed in a structure that is difficult to withstand loads or wind pressure in vertical and horizontal directions, and is easily deformed or damaged during localized heavy rain accompanied by strong winds in summer or heavy snow in winter.

In addition, the structure once deformed or damaged has a problem in that durability is remarkably lowered and reuse is not possible.

Meanwhile, in the prior art, in order to solve the above problems, a construction method of arranging a cover for protecting the structure on the periphery of the structure has been used. There was a problem that took a lot of time.

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a reinforcing bar structure capable of preventing deformation and damage due to external force by securing structural stability and an installation method thereof.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

Reinforcement structure according to an embodiment of the present invention for solving the above problems is arranged in plurality along the first direction, the upper structure having a curved truss structure; a connection structure disposed opposite to each other in a second direction different from the first direction to support both ends of the upper structure and having a warren truss structure; and a lower structure disposed opposite to each other in the first direction to support the connection structure in the second direction.

It is disposed to be perpendicular to the ground and may further include a column structure supporting the connection structure at a plurality of positions.

The upper structure, the first curved bar; a second curved bar that is spaced apart from the first curved bar; and an upper truss support bar disposed in plurality between the first curved curved bar and the second curved curved bar, and configured to interconnect and support the first curved curved bar and the second curved curved bar.

The lower structure, the upper straight bar; a lower straight bar spaced apart from the upper straight bar and disposed below the upper straight bar; and a lower truss support bar disposed in plurality between the upper straight bar and the lower straight bar, and interconnecting and supporting the upper straight bar and the lower straight bar.

The connection structure may include: a first transverse support bar supporting an end of the first curved bar; a second horizontal support bar that is spaced apart from the first horizontal support bar in a horizontal direction to support an end of the second curved bar and is supported by the upper straight bar; a third transverse support bar that is vertically spaced apart from the first transverse support bar and disposed below the first transverse support bar; a fourth transverse support bar that is vertically spaced apart from the second transverse support bar, is disposed below the second transverse support bar, and is supported by the lower straight bar; and the first transverse support bar, the second transverse supporting bar, the third transverse supporting bar, and the fourth transverse supporting bar disposed in plurality, the first transverse supporting bar, the second transverse supporting bar, and the It may include a connecting truss support bar for interconnecting and supporting the third transverse support bar and the fourth transverse support bar.

The pillar structure may include: a bottom plate installed on the ground; an 'L'-shaped anchor bolt penetrating the bottom plate and fixing the bottom plate to the ground; a plurality of column bars disposed on the upper surface of the bottom plate and at least two perpendicular to the ground; a column truss support bar disposed in plurality between the plurality of column bars and interconnecting and supporting the plurality of column bars; and a top plate disposed on top of the plurality of pillar bars to support the connection structure.

It is disposed between the connection structures disposed to face each other along the second direction, the movable structure is movable in the first direction, and further comprising a movable structure movable in a third direction different from the first direction and the second direction can

The movable structure may include: a lower frame assembly movable in the first direction along the ground; a plurality of vertical frame assemblies disposed to face opposite ends of the lower frame assembly along a longitudinal direction of the lower frame assembly; an upper frame assembly coupled to the plurality of vertical frame assemblies and disposed on the lower frame assembly, the upper frame assembly being lifted by the plurality of vertical frame assemblies; a communication assembly connecting the upper space of the lower frame assembly and the upper space of the upper frame assembly to each other; and a connection frame assembly disposed on the upper frame assembly and interconnecting upper ends of the plurality of vertical frame assemblies.

The lower frame assembly may include: a lower frame plate on which the plurality of vertical frame assemblies are disposed at both ends; a plurality of driving casters disposed on the lower surface of the lower frame plate and generating a rotational force on the ground to move the lower frame plate; and a guide rail installed on the ground and accommodated in the plurality of driving casters to guide the plurality of driving casters in the first direction.

The plurality of vertical frame assemblies may include: a first vertical frame assembly disposed at one end of the lower frame plate to support one end of the upper frame assembly; and a second vertical frame assembly disposed at the other end of the lower frame plate to support the other end of the upper frame assembly.

The first vertical frame assembly and the second vertical frame assembly may include: a vertical frame plate disposed perpendicular to the lower frame plate; an elevating drive shaft rotatably coupled to the vertical frame plate, the upper frame assembly is screwed to an outer surface, and elevating the upper frame assembly through rotation; and a guide shaft disposed parallel to the elevating drive shaft and guiding the upper frame assembly lifted by the elevating drive shaft in the third direction.

The upper frame assembly may include: a transfer module coupled to the elevating drive shaft and the guide shaft, and elevating along an outer surface of the elevating drive shaft and an outer surface of the guide shaft when the elevating drive shaft rotates; an upper frame plate lifted by the transfer module; and a guide bar disposed around the upper frame plate.

The communication assembly may include: a step ladder rotatably coupled to the upper frame plate, lifted by the upper frame plate, and inclined with respect to an upper surface of the lower frame plate; a guide caster coupled to an end of the step ladder and supported on the upper surface of the lower frame plate, and performing a rolling motion in a linear direction along the upper surface of the lower frame plate when the step ladder is lifted; and grip bars disposed on both sides of the step ladder.

It may further include a pillar supporter coupled to the plurality of pillar bars, respectively, configured to fix the plurality of pillar bars.

The pillar supporter is installed on the bottom plate, the tubular cover holder for accommodating a portion of the pillar bar therein; a bar end cap fastened to an end of the pillar bar and accommodated in the cover holder together with a portion of the pillar bar; an alignment plate accommodated in the cover holder, fixedly disposed on an upper surface of the bottom plate, and coaxially aligning the bar end cap seated thereon; a pressing member coupled to the alignment plate and accommodated in the bar end cap; and being accommodated in the bar end cap and being pressed against the outer surface of the pressing member while the bar end cap is seated on the upper surface of the alignment plate to move in the radial direction of the pillar bar to press the inner surface of the cover holder. It may include a fixing member.

The bar end cap may include a fastening part screw-coupled to the inner circumferential surface of the pillar bar; a first accommodating part in which the pressing member is accommodated; a second accommodating part accommodating the fixing member and guiding the fixing member in a radial direction of the pillar bar; and a spherical alignment part seated on the upper surface of the alignment plate.

The alignment plate may include: a first alignment plate that includes a spherical alignment groove corresponding to the alignment unit and a hemispherical first rotation guide surface capable of accommodating a portion of the pressing member, and is seated and supported on an upper surface of the bottom plate; and a second alignment plate that is connected to the first rotation guide surface to form a sphere, and includes a second rotation guide surface supporting another portion of the pressing member, and is seated on the upper surface of the first alignment plate and fixed can

The pressing member is accommodated in the first rotation guide surface and the second rotation guide surface, the spherical ball portion rotatable along the first rotation guide surface and the second rotation guide surface; and a conical body portion extending from the ball portion and accommodated in the first receiving portion.

The fixing member may be arranged at equal intervals around the pressing member along the circumferential direction of the bar end cap to press the inner surface of the cover holder at a plurality of positions.

The fixing member may include a first fixing member; a second fixing member spaced apart from the first fixing member by an interval of 120 degrees along the circumferential direction of the bar end cap; and a third fixing member disposed to be spaced apart from the second fixing member by an interval of 120 degrees along the circumferential direction of the bar end cap.

The first fixing member, the second fixing member, and the third fixing member are each supported on the outer surface of the body portion inclined support surface pressed against the outer surface of the body portion; and a wedge for pressing the inner surface of the cover holder.

The wedge portion may be configured such that the thickness and width are gradually reduced in the longitudinal direction of the fixing member.

Reinforcement structure installation method according to an embodiment of the present invention for solving the above problems comprises the steps of arranging a plurality of column structures on the ground; Installing a cover on one assembly structure in which the upper structure, the lower structure, and the connection structure are combined, and seating and fixing the assembly structure on top of the plurality of column structures; and installing an outer wall around the plurality of pillar structures.

The arranging of the plurality of pillar structures on the ground may include: forming a holding groove in the ground; Reinforcing reinforcing bars in the support grooves and pouring concrete to form a base post; disposing a bottom plate on the upper surface of the base post, and fixing the bottom plate to the base post by using an 'L'-shaped anchor bolt; arranging a plurality of column bars on an upper surface of the bottom plate, and fixing the plurality of column bars to an upper surface of the bottom plate; disposing a column truss support bar between the plurality of column bars, and fixing the column truss support bar to the plurality of column bars; and disposing a top plate on top of the plurality of pillar bars, and fixing the top plate to the plurality of pillar bars.

According to an embodiment of the present invention, as the upper structure is provided in a curved truss structure, and the column structure supporting the upper structure has a four warren truss structure, the durability against load and wind power is strong, and the shear force and bearing capacity are improved As a result, resistance to vertical and horizontal loads can be improved.

In addition, as the durability against load and wind power is strong, and the shear force and support force are improved, the resistance to vertical and horizontal loads is improved, so it is possible to minimize shaking due to external force, and through this, it is possible to prevent deformation and damage to improve durability and Stability can be maximized.

The effect according to the present invention is not limited by the contents exemplified above, and more various effects are included in the present invention.

1 is a view showing an assembly structure of a reinforcing bar structure according to an embodiment of the present invention.
2 is a view showing a state in which the assembly structure is coupled to the upper end of the column structure of the reinforcing bar structure according to the embodiment of the present invention.
Figure 3 is a view showing a part of the column structure in the reinforcement structure according to the embodiment of the present invention.
Figure 4 is a front view showing the moving structure of the reinforcing bar structure according to an embodiment of the present invention.
5 is a side view showing the moving structure of the reinforcing bar structure according to the embodiment of the present invention.
6 is a view schematically showing a state in which the moving structure of the reinforcing bar structure according to an embodiment of the present invention is elevating.
7 is a view schematically showing a state in which the column supporter of the reinforcing bar structure according to the embodiment of the present invention is fixed by the column bar.
8 is a view schematically showing a process in which the column supporter of the reinforcing bar structure is deployed in the radial direction according to an embodiment of the present invention.
9 and 10 are flowcharts showing a method for installing a reinforcing bar structure according to an embodiment of the present invention.
11 is a view showing a state in which a holding groove is formed on the ground and reinforcing bars are reinforced.
12 is a view showing a state in which the base post is formed on the ground, and the bottom plate is installed on the upper surface of the base post.
13 is a view showing a state in which the column structure is installed on the base post.
14 is a view showing a state in which the outer wall is installed around the column structure.

Hereinafter, various embodiments will be described in more detail with reference to the accompanying drawings. The embodiments described herein may be variously modified. Certain embodiments may be depicted in the drawings and described in detail in the detailed description. However, the specific embodiments disclosed in the accompanying drawings are only provided to facilitate understanding of the various embodiments. Therefore, the technical idea is not limited by the specific embodiments disclosed in the accompanying drawings, and it should be understood to include all equivalents or substitutes included in the spirit and scope of the invention.

Terms including an ordinal number such as 1st, 2nd, etc. may be used to describe various components, but these components are not limited by the above-mentioned terms. The above terminology is used only for the purpose of distinguishing one component from another component.

In this specification, terms such as "comprises" or "have" are intended to designate that the features, numbers, steps, operations, components, parts, or combinations thereof described in the specification exist, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof. When a component is referred to as being “connected” or “connected” to another component, it may be directly connected or connected to the other component, but it is understood that other components may exist in between. it should be On the other hand, when it is said that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the other element does not exist in the middle.

Meanwhile, as used herein, a “module” or “unit” for a component performs at least one function or operation. And “module” or “unit” may perform a function or operation by hardware, software, or a combination of hardware and software. In addition, a plurality of “modules” or a plurality of “units” other than a “module” or “unit” to be performed in specific hardware or to be executed in at least one processor may be integrated into at least one module. The singular expression includes the plural expression unless the context clearly dictates otherwise.

In addition, in describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be abbreviated or omitted.

1 is a view showing an assembly structure of a reinforcing bar structure according to an embodiment of the present invention.

Referring to FIG. 1 , a reinforcing bar structure 1 (hereinafter referred to as 'reinforcing bar structure 1 ') according to an embodiment of the present invention is arranged in plurality along the first direction, and the upper structure 11 having a curved truss structure. ) and a connection structure 12 facing each other in a second direction different from the first direction to support both ends of the upper structure 11 and having a Warren truss structure, and facing along the first direction and a lower structure 13 disposed to support the connection structure 12 in the second direction.

The upper structure 11 may include a first curved bar 111 and a second curved bar 112 spaced apart from the first curved bar 111 .

The upper structure 11 is disposed in plurality between the first curved bar 111 and the second curved bar 112 , and an upper part for interconnecting and supporting the first curved bar 111 and the second curved bar 112 . It may include a truss support bar 113 .

The lower structure 13 may include an upper straight bar 131 and a lower straight bar 132 spaced apart from the upper straight bar 131 and disposed below the upper straight bar 131 .

The lower structure 13 is arranged in plurality between the upper straight bar 131 and the lower straight bar 132, and the lower truss support bar ( 133) may be included.

The connection structure 12 includes a first transverse support bar 121 supporting an end of the first curved bar 111 and a second curved bar 112 spaced apart from the first transverse supporting bar 121 in the horizontal direction. The second transverse support bar 122 supported by the upper straight bar 131 and supported by the upper straight bar 131 and the first transverse support bar 121 are vertically spaced apart from the lower side of the first transverse support bar 121 . The third transverse support bar 123 disposed in and the second transverse support bar 122 are vertically spaced apart from each other and disposed below the second transverse support bar 122 , and are supported by the lower straight bar 132 . It may include a fourth transverse support bar 124 that is.

The connection structure 12 is disposed in plurality between the first transverse support bar 121 , the second transverse support bar 122 , the third transverse support bar 123 and the fourth transverse support bar 124 , and the first The transverse support bar 121, the second transverse support bar 122, the third transverse support bar 123, and the fourth transverse support bar 124 may include a connecting truss support bar 125 for interconnecting and supporting each other. there is.

2 is a view showing a state in which the assembly structure is coupled to the upper end of the column structure of the reinforcing bar structure according to an embodiment of the present invention, and FIG. 3 is a view showing a part of the column structure in the reinforcing bar structure according to the embodiment of the present invention .

2 and 3, the present reinforcing bar structure (1) is arranged so as to be perpendicular to the ground (2), it will further include a plurality of pillar structures 14 supporting the connection structure 12 at a plurality of positions. can

The plurality of pillar structures 14 each have a bottom plate 141 installed on the ground 2 , and an 'L' shape penetrating the bottom plate 141 to fix the bottom plate 141 to the ground 2 . An anchor bolt 142 may be included.

In addition, the plurality of pillar structures 14 are, respectively, a plurality of pillar bars 143 disposed on the upper surface of the bottom plate 141 so as to be perpendicular to the ground 2 , and a plurality of pillar bars 143 between the plurality of pillar bars 143 . It may include a column truss support bar 144 for interconnecting and supporting the plurality of column bars 143 .

In addition, each of the plurality of pillar structures 14 may include a top plate 145 disposed on top of the plurality of pillar bars 143 to support the connection structure 12 .

4 is a front view showing the moving structure of the reinforcing bar structure according to the embodiment of the present invention, Figure 5 is a side view showing the moving structure of the reinforcing bar structure according to the embodiment of the present invention.

4 and 5, the present reinforcing bar structure (1) is disposed between the connecting structures (12) disposed opposite to each other along the second direction and movable in the first direction along the ground (2), It may further include a movable structure 15 capable of elevating in a third direction (vertical direction) different from the first and second directions.

The movable structure 15 includes a lower frame assembly 151 movable in a first direction along the ground surface 2 , and opposite ends of the lower frame assembly 151 in a longitudinal direction of the lower frame assembly 151 . It may include a plurality of vertical frame assemblies 152 .

In addition, the movable structure 15 is coupled to the plurality of vertical frame assemblies 152 and disposed on the lower frame assembly 151, and the upper frame assembly 153 is lifted by the plurality of vertical frame assemblies 152 and , a communication assembly 154 for communicating the upper space of the lower frame assembly 151 and the upper space of the upper frame assembly 153 with each other.

In addition, the movable structure 15 may include a connection frame assembly 155 disposed on the upper frame assembly 153 and interconnecting the upper ends of the plurality of vertical frame assemblies 152 .

The lower frame assembly 151 includes a lower frame plate 1511 having a plurality of vertical frame assemblies 152 disposed at both ends, and a plurality of lower frame plates 1511 disposed on the bottom surface of the lower frame plate 1511, and applying a rotational force on the ground 2 It may include a plurality of driving casters 1512 for moving the lower frame plate 1511 by generating it.

In addition, the lower frame assembly 151 includes a guide rail 1513 installed on the ground 2 and accommodated in the plurality of drive casters 1512 to guide the plurality of drive casters 1512 in the first direction. can do.

The plurality of vertical frame assemblies 152 are disposed at one end of the lower frame plate 1511 and include a first vertical frame assembly 1521 supporting one end of the upper frame assembly 153 and a lower frame plate 1511 . A second vertical frame assembly 1522 disposed at the other end to support the other end of the upper frame assembly 153 may be included.

The first vertical frame assembly 1521 and the second vertical frame assembly 1522 are each rotatable on the vertical frame plate 1523 and the vertical frame plate 1523 disposed in a vertical state on the lower frame plate 1511 . The upper frame assembly 153 is screwed to the outer surface, and the elevating drive shaft 1524 for elevating the upper frame assembly 153 through rotation is arranged in parallel to the elevating drive shaft 1524, , a guide shaft 1525 for guiding the upper frame assembly 153 lifted by the lifting drive shaft 1524 in the third direction may be included.

The upper frame assembly 153 is coupled to the elevating drive shaft 1524 and the guide shaft 1525 , and along the outer surface of the elevating drive shaft 1524 and the outer surface of the guide shaft 1525 when the elevating drive shaft 1524 rotates. It may include a transfer module 1531 that is lifted, an upper frame plate 1532 that is lifted by the transfer module 1531 , and a guide bar 1533 disposed around the upper frame plate 1532 .

6 is a view schematically showing a state in which the moving structure of the reinforcing bar structure according to an embodiment of the present invention is elevating.

4 and 6 , the communication assembly 154 is rotatably coupled to the upper frame plate 1532 , is lifted by the upper frame plate 1532 , and is inclined with respect to the upper surface of the lower frame plate 1511 . is coupled to the end of the step ladder 1541 and the step ladder 1541 to be supported on the upper surface of the lower frame plate 1511, and when the step ladder 1541 is lifted in a straight line along the upper surface of the lower frame plate 1511 It may include a guide caster 1542 for performing a rolling motion, and grip bars 1543 disposed on both sides of the step ladder 1541 .

Accordingly, the communication assembly 154 may always communicate the upper space of the lower frame assembly 151 and the upper space of the upper frame assembly 153 with each other, thereby enabling the worker to enter and exit.

7 is a view schematically showing a state in which the column supporter of the reinforcing bar structure according to the embodiment of the present invention is fixed by the column bar.

Referring to FIG. 7 , the present reinforcing bar structure 1 may further include a column supporter 16 coupled to the plurality of column bars 143 to fix the plurality of column bars 143 , respectively.

The pillar supporter 16 is installed on the bottom plate 141 and is fastened to the end of the tubular cover holder 161 for accommodating a part of the pillar bar 143 therein, and the pillar bar 143 . ) may include a bar end cap 162 accommodated in the cover holder 161 together with a portion.

In addition, the pillar supporter 16 is accommodated inside the cover holder 161, is fixedly disposed on the upper surface of the bottom plate 141, and aligns the bar end cap 162 seated thereon to a coaxial position. ) and a pressing member 164 coupled to the alignment plate 163 and accommodated in the bar end cap 162 .

In addition, the pillar supporter 16 is accommodated inside the bar end cap 162 and is pressed against the outer surface of the pressing member 164 while the bar end cap 162 is seated on the upper surface of the alignment plate 163 to be the pillar bar. A fixing member 165 for pressing the inner surface of the cover holder 161 while moving in the radial direction of 143 may be included.

The bar end cap 162 includes a fastening part 1621 screw-coupled to the inner circumferential surface of the column bar 143 , a first accommodating part 1622 in which the pressing member 164 is accommodated, and the fixing member 165 is accommodated therein. , may include a second accommodating part 1623 for guiding the fixing member 165 in the radial direction of the pillar bar 143 , and a spherical alignment part 1624 seated on the upper surface of the alignment plate 163 . .

The alignment plate 163 includes a spherical alignment groove 16311 corresponding to the alignment unit 1624 and a first rotation guide surface 16312 of a hemispherical shape that can accommodate a portion of the pressing member 164, and a bottom plate ( The first alignment plate 1631 seated and supported on the upper surface of 141 and the second rotation guide surface 16321 connected to the first rotation guide surface 16312 to form a spherical shape and support another portion of the pressing member 164 ), and may include a second alignment plate 1632 that is seated and fixed on the upper surface of the first alignment plate 1631 .

The pressing member 164 is accommodated in the first rotation guide surface 16312 and the second rotation guide surface 16321, and a spherical ball part ( 1641 , and a conical body portion 1642 extending from the ball portion 1641 and accommodated in the first accommodating portion 1622 may be included.

8 is a view schematically illustrating a process in which the column supporter of the reinforcing bar structure is deployed in the radial direction according to an embodiment of the present invention.

7 and 8 , the fixing member 165 is spaced apart from each other at equal intervals around the pressing member 164 along the circumferential direction of the bar end cap 162 to provide a plurality of inner surfaces of the cover holder 161 . It may be configured to pressurize in position.

Specifically, the fixing member 165 includes the first fixing member 1651 and the second fixing member 1652 disposed to be spaced apart from the first fixing member 1651 by an interval of 120 degrees along the circumferential direction of the bar end cap 162 . ) and a third fixing member 1653 disposed to be spaced apart from the second fixing member 1652 by an interval of 120 degrees along the circumferential direction of the bar end cap 162 .

The first fixing member 1651 , the second fixing member 1652 , and the third fixing member 1653 are each supported on the outer surface of the body portion 1642 and the inclined support surface pressed against the outer surface of the body portion 1642 ( 1654 , and a wedge portion 1655 for pressing the inner surface of the cover holder 161 may be included.

Here, the wedge portion 1655 may be configured such that the thickness and width are gradually reduced in the longitudinal direction of the fixing member 165 .

Hereinafter, a method for installing a reinforcing bar structure according to an embodiment of the present invention will be described.

For reference, for each configuration for describing the method for installing a reinforcing bar structure according to an embodiment of the present invention, the same reference numerals are used to describe the reinforcing bar structure for convenience of explanation, and the same or overlapping description will be omitted. . In addition, the performing subject performing each step in the method for installing a reinforcing bar structure according to an embodiment of the present invention is a work device configured to perform the corresponding work.

14 is a view showing a state in which the outer wall is installed around the column structure.

9 and 10 are flowcharts showing a method for installing a reinforcing bar structure according to an embodiment of the present invention.

2 and 9 , in the method for installing a reinforcing bar structure (hereinafter referred to as a 'reinforcing bar structure installation method') according to an embodiment of the present invention, a plurality of column structures 14 are disposed on the ground surface 2 (S110) .

11 is a view showing a state in which a post groove is formed on the ground and reinforcing bars are reinforced, FIG. 12 is a view showing a state in which a base post is formed on the ground, and a bottom plate is installed on the upper surface of the base post, FIG. It is a view showing the state in which the column structure is installed on the base post.

The process of arranging the plurality of column structures 14 on the ground 2 will be described in more detail.

Referring to FIGS. 10 and 11 , a plurality of post grooves 21 are formed in the ground 2 ( S111 ).

10, 11 and 12, when a plurality of post grooves 21 are formed on the ground surface 2, the reinforcing bars 22 are each reinforced in the plurality of post grooves 21, and the reinforcing bars 22 are Concrete is poured into the reinforced post groove 21 to form the base post 23 (S112).

10 and 12 , when the base post 23 is formed on the ground 2 , the bottom plate 141 is disposed on the upper surface of the base post 23 , and an 'L' shaped anchor bolt 142 . The bottom plate 141 is fixed to the base post 23 by using (S113).

10 and 13, when the bottom plate 141 is fixed to the upper surface of the base post 23, a plurality of column bars 143 are arranged on the upper surface of the bottom plate 141, and a plurality of column bars ( 143) is fixed to the upper surface of the bottom plate 141 (S114).

When the plurality of column bars 143 are fixed to the upper surface of the bottom plate 141 , the column truss support bar 144 is disposed between the plurality of column bars 143 , and the column truss support bar 144 is connected to the plurality of columns It is fixed to the bar 143 (S115).

When the column truss support bar 144 is fixed between the plurality of column bars 143 , the top plate 145 is disposed on the upper end of the plurality of column bars 143 , and the top plate 145 is formed with the plurality of column bars ( 143) and fixed to the top (S116).

2 and 9, when a plurality of pillar structures 14 are disposed on the ground 2, an upper structure 11, a lower structure 13, and a connection structure 12 are combined into one assembly structure ( The cover 17 is installed on the AS), and the assembly structure AS is seated and fixed on the top of the plurality of pillar structures 14 (S120).

9 and 14 , when the assembly structure AS is fixed to the upper end of the plurality of pillar structures 14 , the outer wall 18 is installed around the plurality of pillar structures 14 ( S130 ).

As such, according to an embodiment of the present invention, the upper structure 11 is provided in a curved truss structure, and the column structure 14 supporting the upper structure has a four Warren truss structure, load and wind power It has strong durability, and the shear force and bearing capacity are improved, so that the resistance to vertical and horizontal loads can be improved.

In addition, as the durability against load and wind power is strong, and the shear force and support force are improved, the resistance to vertical and horizontal loads is improved, so it is possible to minimize shaking due to external force, and through this, it is possible to prevent deformation and damage to improve durability and Stability can be maximized.

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications are possible by those having the knowledge of, of course, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

1. Reinforced Structures
AS. assembly structure
11. Superstructure
111. The 1st Gokhyeon Bar
112. 2nd Gokhyeon Bar
113. Upper Truss Support Bar
12. Connecting Structures
121. First transverse support bar
122. Second transverse support bar
123. Third transverse support bar
124. 4th transverse support bar
125. Connecting truss support bar
13. Substructure
131. Upper straight bar
132. Lower straight bar
133. Lower truss support bar
14. Column structure
141. Bottom plate
142. Anchor bolts
143. Pillar bar
144. Column truss support bar
145. Top plate
15. Mobile Structures
151. Lower frame assembly
1511. Lower frame plate
1512. Drive Caster
1513. Guide rail
152. Vertical Frame Assembly
1521. First vertical frame assembly
1522. Second vertical frame assembly
1523. Vertical Frame Plate
1524. Elevating drive shaft
1525. Guide shaft
153. Upper Frame Assembly
1531. Transfer module
1532. Upper frame plate
1533. Guide bar
154. Flue assembly
1541. Step ladder
1542. Guide Caster
1543. Fajiva
155. Connecting frame assembly
16. Pillar Supporter
161. Cover Holder
162. Bar end caps
1621. Fastening
1622. First Receptacle
1623. Second Receptacle
1624. Alignment
163. Alignment plate
1631. First alignment plate
16311. Alignment groove
16312. 1st rotation guide surface
1632. Second alignment plate
16321. 2nd rotation guide surface
164. Pressing member
1641. Ball Boo
1642. Body part
165. Fixing member
1651. First fixing member
1652. Second fixing member
1653. Third fixing member
1654. Inclined support surface
1655. Wedge
17. Cover
18. Exterior wall
2. ground
21. Holding Home
22. Rebar
23. Bass Post

Claims (2)

delete an upper structure disposed in plurality along the first direction and having a curved truss structure;
a connection structure disposed opposite to each other in a second direction different from the first direction to support both ends of the upper structure and having a warren truss structure; and
and a lower structure disposed opposite to each other in the first direction to support the connection structure in the second direction,
It is disposed so as to be perpendicular to the ground, further comprising a column structure supporting the connection structure at a plurality of positions,
The upper structure is
first gokhyeon bar;
a second curved bar disposed spaced apart from the first curved bar; and
and an upper truss support bar disposed between the first curved bar and the second curved bar, and configured to interconnect and support the first curved bar and the second curved bar,
The lower structure is
upper straight bar;
a lower straight bar spaced apart from the upper straight bar and disposed below the upper straight bar; and
and a lower truss support bar disposed in plurality between the upper straight bar and the lower straight bar, and interconnecting and supporting the upper straight bar and the lower straight bar,
The connection structure is
a first transverse support bar for supporting an end of the first curved bar;
a second horizontal support bar that is spaced apart from the first horizontal support bar in a horizontal direction to support an end of the second curved bar and is supported by the upper straight bar;
a third transverse support bar that is vertically spaced apart from the first transverse support bar and disposed below the first transverse support bar;
a fourth transverse support bar that is vertically spaced apart from the second transverse support bar, is disposed below the second transverse support bar, and is supported by the lower straight bar; and
A plurality of the first transverse support bar, the second transverse support bar, the third transverse support bar, and the fourth transverse support bar are disposed between the plurality of support bars, the first transverse support bar, the second transverse support bar, and the first transverse support bar. 3 and a connecting truss support bar for interconnecting and supporting the transverse support bar and the fourth transverse support bar,
The pillar structure is
a bottom plate installed on the ground;
an 'L'-shaped anchor bolt penetrating the bottom plate and fixing the bottom plate to the ground;
a plurality of column bars disposed on the upper surface of the bottom plate and at least two perpendicular to the ground;
a column truss support bar disposed in plurality between the plurality of column bars and interconnecting and supporting the plurality of column bars; and
and a top plate disposed on top of the plurality of pillar bars to support the connection structure,
A movable structure disposed between the connection structures disposed opposite to each other along the second direction, movable in the first direction along the ground, and movable in a third direction different from the first direction and the second direction including more,
The mobile structure is
a lower frame assembly movable in the first direction along the ground;
a plurality of vertical frame assemblies disposed to face opposite ends of the lower frame assembly along a longitudinal direction of the lower frame assembly;
an upper frame assembly coupled to the plurality of vertical frame assemblies and disposed on the lower frame assembly, the upper frame assembly being lifted by the plurality of vertical frame assemblies;
a communication assembly connecting the upper space of the lower frame assembly and the upper space of the upper frame assembly to each other; and
and a connection frame assembly disposed on the upper frame assembly and interconnecting upper ends of the plurality of vertical frame assemblies;
The lower frame assembly,
a lower frame plate on which the plurality of vertical frame assemblies are disposed at both ends;
a plurality of driving casters disposed on the lower surface of the lower frame plate and generating a rotational force on the ground to move the lower frame plate; and
and a guide rail installed on the ground and accommodated in the plurality of drive casters to guide the plurality of drive casters in the first direction,
The plurality of vertical frame assemblies,
a first vertical frame assembly disposed at one end of the lower frame plate to support one end of the upper frame assembly; and
and a second vertical frame assembly disposed at the other end of the lower frame plate to support the other end of the upper frame assembly,
The first vertical frame assembly and the second vertical frame assembly,
a vertical frame plate disposed in a vertical state on the lower frame plate;
an elevating drive shaft rotatably coupled to the vertical frame plate, the upper frame assembly is screwed to an outer surface, and elevating the upper frame assembly through rotation; and
and a guide shaft disposed parallel to the elevating drive shaft and guiding the upper frame assembly lifted by the elevating drive shaft in the third direction,
The upper frame assembly,
a transfer module coupled to the elevating drive shaft and the guide shaft, and elevating along an outer surface of the elevating drive shaft and an outer surface of the guide shaft when the elevating drive shaft rotates;
an upper frame plate lifted by the transfer module; and
and a guide bar disposed on the periphery of the upper frame plate,
The communication assembly,
a step ladder rotatably coupled to the upper frame plate, lifted by the upper frame plate, and inclined with respect to an upper surface of the lower frame plate;
a guide caster coupled to the end of the step ladder and supported on the upper surface of the lower frame plate, and performing a rolling motion in a linear direction along the upper surface of the lower frame plate when the step ladder is lifted; and
and grip bars disposed on both sides of the step ladder,
Further comprising a pillar supporter coupled to the plurality of pillar bars, respectively, configured to fix the plurality of pillar bars,
The pillar supporter,
a tubular cover holder installed on the bottom plate and accommodating a portion of the column bar therein;
a bar end cap fastened to an end of the pillar bar and accommodated in the cover holder together with a portion of the pillar bar;
an alignment plate accommodated in the cover holder, fixedly disposed on an upper surface of the bottom plate, and coaxially aligning the bar end cap seated thereon;
a pressing member coupled to the alignment plate and accommodated in the bar end cap; and
Fixed to be accommodated in the bar end cap and pressed against the outer surface of the pressing member while the bar end cap is seated on the upper surface of the alignment plate and move in the radial direction of the pillar bar to press the inner surface of the cover holder including absence,
The bar end cap is
a fastening part screw-coupled to the inner circumferential surface of the pillar bar;
a first accommodating part in which the pressing member is accommodated;
a second accommodating part accommodating the fixing member and guiding the fixing member in a radial direction of the pillar bar; and
It includes a spherical alignment part to be seated on the upper surface of the alignment plate,
The alignment plate is
a first alignment plate including a spherical alignment groove corresponding to the alignment unit and a first rotation guide surface having a hemispherical shape capable of accommodating a portion of the pressing member, the first alignment plate being seated and supported on an upper surface of the bottom plate; and
A spherical shape in connection with the first rotation guide surface, a second rotation guide surface supporting another portion of the pressing member, and a second alignment plate seated and fixed on the upper surface of the first alignment plate,
The pressing member is
a spherical ball part accommodated in the first rotation guide surface and the second rotation guide surface, and rotatable along the first rotation guide surface and the second rotation guide surface; and
Reinforcement structure extending from the ball part and including a cone-shaped body part accommodated in the first receiving part.

Images