KR101829826B1 - Segment type arch structure and method for constructing this same - Google Patents

Abstract

The present invention relates to a segmented arch structure, and a construction method thereof. Two segments are mechanically connected to construct a structurally safe two-segment arch structure such that work time is reduced to prevent safety accidents of operators. The segmented arch structure according to the present invention comprises: base portions (10, 20); segments (30, 40); an interlocking means; and a reinforced assembly (70).

Description

TECHNICAL FIELD [0001] The present invention relates to a segmented arch structure and a method of constructing the segmented arch structure,

More particularly, the present invention relates to an arch structure, and more particularly, to a construction of a two-segment type arch structure in which two segments are mechanically connected to form a structurally safe structure, the use time of the crane equipment is drastically shortened, To prevent safety accidents caused by accidents caused by accidents, to increase the safety accidents due to labor accidents and steel reinforcement for connection of existing curved bolts through shortening of the air, and to prevent increase in business expenses due to delays in leasing of expensive cranes Arch structures and methods of construction thereof.

It is a common practice to construct an open type (road type, railway tunnel, ecological tunnel, etc.) by forming a concrete form on the ground and casting a concrete in the form.

However, in such a construction method, installation of a supporting post or the like is required in order to install the formwork, and the construction period of the concrete such as the curing time of the on-site concrete is prolonged.

In order to solve this problem, a method is used in which arched precast segments manufactured in advance at a factory are sequentially installed on the site to construct a tunnel.

Patent Document 10-1015611 discloses a structure in which left and right split arch members made of precast members are tightly coupled at the ceiling to form an arch structure and a plurality of the arch structures are continuously arranged in the longitudinal direction Having; Wherein the ceiling portion end of the segment arch member is formed on both longitudinally opposite sides of the ceiling portion by cutting off the concave surface from the end surface and the longitudinal side surface of the ceiling portion, A protruding portion is present, and a bottom plate portion exists in the lower portion of the cutout portion by the length of the protruding portion; In a state in which the segmented arch members are arranged continuously in the longitudinal direction, between the longitudinal forward and rearward segmental arch members,

And the fastening rods are fixedly fixed to the protruding portions of the longitudinally adjacent segment arch members, thereby binding the front and rear segment arch members; When the ceiling end portions of the left and right segment arch members are disposed so as to be in contact with each other, the projections of the left and right segment arch members come into contact with each other and the bottom plate portions of the left and right segment arch members also come into contact with each other, The left and right segmental arch members are integrally connected to the steel structure at the ceiling portion and the projected portions are in contact with each other until the filler material is filled, It is difficult to self-assemble. Therefore, there is a disadvantage that the segmental arch member must be lifted by using a crane during filling of the filler material or until completion of curing. This disadvantage leads to a problem that the use time of the crane is very long, which increases the construction cost. In addition, the worker must directly arrange and bind a plurality of reinforcing bars, which often requires a long length of time for complaints, resulting in a frequent fall of the worker.

Patent No. 10-1015611

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for securing a safe self-standing state even before filling a filler structurally by mechanically connecting two segments, The work hours of the laborer are reduced to 1/4 compared to the existing one, which greatly reduces the safety accidents and labor costs. It is more economical than the existing method. It is structurally reinforced through mechanical connection. And an object of the present invention is to provide an improved segmented arch structure and a construction method thereof.

The segmented arch structure according to the present invention comprises: a base portion to be installed on the ground at a predetermined distance from each other along the lateral direction; Two or more segments arranged in a row along the transverse direction with adjacent ends connected to one another and a bottom connected to the base and continuing in a row along the longitudinal direction to form an arcuate structure; Interlocking means formed in a male-like fashion at neighboring ends of the segments to interlock the segments; And a reinforcing bar assembly that is joined to a fixed reinforcing bar that is laid across the neighboring ends of the segments and that is embedded in the segments, wherein the segments include an arcuate segment body, A bottom side connection portion extending to a thickness thinner than the main body and forming a space to be placed in the upper portion of the main body, and a junction wall protruding upward from the bottom of the bottom side connection portion, the bottom side connection portion and the junction wall of the adjacent segments being in close contact with each other, Wherein the interlocking means comprises a locking rod protruding from a joining wall of one of the segments and a clamping means formed on a joining wall of another of the segments and clamping the locking rod, The clamping means has an opening portion facing the locking rod A case which is embedded in the joining wall of the other segment as a tubular structure, a clamp which clamps the locking rod by uneven coupling arranged in a circle in the inside of the case, a clamp which clamps the clamp in a direction to clamp the locking rod And an elastic member for supporting the elastic force.

According to the segmented arch structure according to the present invention and the construction method thereof, even when the first and second segments are interlocked mechanically through the interlocking means to install the filler material (mortar, etc.), the first and second segments It is possible to greatly reduce the operating time of the crane. Therefore, it is possible to drastically reduce the cost of leasing the crane, and it is possible to install the rebar assembly in a single operation and to prevent the operator from binding the rebar assembly and the fixed rebar It is very effective in securing the safety of the worker because the complicated work time is much shorter than the direct reinforcement of the reinforcing bars.

1 is a perspective view of a segmented arch structure according to the present invention;
FIG. 2 is a perspective view of the first and second segments in a separated state applied to the segmented arch structure according to the present invention. FIG.
3 is an enlarged view of interlocking means applied to a segmented arch structure according to the present invention.
4 is a perspective view showing a construction of a reinforcing bar assembly applied to a segmented arch structure according to the present invention.
5 is a plan view showing construction of a reinforcing bar assembly applied to a segmented arch structure according to the present invention.
6 is a view showing a construction process of a segmented arch structure according to the present invention.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and these may be changed according to the intention of the user, the operator, or the like. Therefore, the definition should be based on the contents throughout this specification.

As shown in FIG. 1, the segmented arch structure according to the present invention is constructed by arranging arcuate segment assemblies in which two arc-shaped segments are assembled in a row in the longitudinal direction, A two-segmented arch structure composed of a plurality of segment assemblies consisting of two segments 30, 40, the upper and lower ends of which are connected to the bases 10, 20, respectively, A first feature that maintains a rigid fixed state prior to placement of the mortar by mechanical interlocking of the first and second segments 30,40, and a safe and easy construction through a steel assembly There is a second possible feature.

The base portions 10 and 20 are preferably concrete bodies having a structure in which they are open toward the upper portion and have a space for inserting segments, and both precast concrete blocks, field casting, precast casting and field casting combined casting are possible.

In addition, the bases 10 and 20 are not limited to being separated from each other as shown in the drawing, but can be variously implemented according to the structure to which the present invention is applied. It can also be used as a tied box structure.

Bonding of the base portions 10, 20 and the first and second segments 30, 40 is the same as that of a conventional method, and a detailed description thereof will be omitted.

In the first aspect, the first and second segments 30 and 40 are precast reinforced concrete bodies having first and second segment bodies 31 and 41 having an arc-shaped cross section for constituting an arcuate segment assembly, The first and second bottom side connection portions 32 and 42 and the first and second bottom side connection portions 32 and 42 for connecting the first and second segment bodies 31 and 41, (33, 43) projecting upward with an area narrower than that of the first and second connecting walls (32, 42).

The first and second segment bodies 31 and 41 are, for example, quadrangular in cross section and can have a larger cross-sectional area to reach the bottom for securing rigidity.

The first and second bottom connecting portions 32 and 42 extend laterally from the upper ends of the first and second segment bodies 31 and 41 to a lower height than the first and second segment bodies 31 and 41 And extends in the same line as the bottom of the first and second taxpane bodies 31 and 41 to form a space therebetween.

The first and second bottom side connection portions 32 and 42 are preferably oblique rather than perpendicular to each other, so that the second bottom side connection portion 42 ) Are naturally overlapped on the inclination, so that the alignment is good and no gap is generated in the joint portion.

The first and second joint walls 33 and 43 are integral wall bodies connected to the upper ends of the first and second segment bodies 31 and 41 and the bottom portions of the first and second bottom joint portions 32 and 42, And is disposed at the center so that a space is formed on both sides thereof.

The facing surfaces of the first and second junction walls 33 and 43 may also be oblique, as described in connection with the first and second bottom connection portions 32 and 42.

On both sides of the first and second joint walls 33 and 43, the surfaces of the first and second segment bodies 31 and 41 are seen, and the surfaces of the first and second segment bodies 31 and 41 are separated from each other by a predetermined angle The inclined surface is an inclined surface in order to facilitate the installation of the reinforcing steel assembly.

Mechanical interlocking means is applied so that the joint strength of the first and second segments 30 and 40 is improved and the first and second segments 30 and 40 remain bonded even before the mortar is poured.

As shown in FIG. 2 and FIG. 3, the mechanical interlocking means is not limited to a protruding coupling structure of simple protrusions and grooves, but provides strong rigidity through an active detachment preventing structure. The locking interlocking means includes a locking rod 50, (60).

The locking rod 50 is attached to the first joining wall 33 of the first segment 30 and the clamping means 60 is installed to the second joining wall 43 of the second segment 40, The locking rod 50 is inserted into the clamping means 60 and the clamping means 60 clamps the locking rod 50 so as not to be detached.

The locking rod 50 has one side fixed to the first joint wall 33 of the first segment 30 and the other side fixed to the clamping means 60 and the first segment 30 being embedded and fixed However, in this case, since it protrudes from the first joint wall 33 and may be damaged during storage and transportation, it is preferable to be easily installed at the construction site through the buried nuts 51.

The nut 51 is provided with a female thread and is embedded by the concrete in a state of being fixed to the reinforcing bar of the first segment 30, and the wing portion may be formed at the periphery for fixing the reinforcing bar to the reinforcing bar.

The locking rod 50 is threaded on the outer circumferential surface and is handled separately from the nut 51 until the first segment 30 is installed. So that it is possible to reduce the cost without causing the breakage of the locking rod 50 during the storage and transportation of the first segment 30.

The locking rod 50 is formed with a thread on a part of its periphery and a plurality of projections 52 for coupling with the clamping means 60 in the remaining part.

The protrusion 52 is composed of the inclined portion 52a and the right angle portion 52b and the inclined portion 52a is inserted naturally into the clamping means 60. The right angle portion 52b is formed by the clamping means 60, So as not to fall off.

The clamping means 60 includes a case 61 and a clamp 62 which is provided in the case 61 to prevent the locking rod 50 from being pressed and released and an elastic member which elastically supports the clamp 62 in the clamping direction, (63).

The case 61 has a tubular structure in which a clamp 62 and a leaf spring 63 are installed and has a space into which the locking rod 50 can be inserted and is fixed to the reinforcing bar during manufacturing of the second segment 40 It is buried in concrete.

The case 61 may be of a prefabricated configuration that is divided into two or more to provide a clamp 62 and a leaf spring 63 therein.

The clamp 62 is provided along the circumferential direction with two or more (semicircular cross-section) around the space in which the locking rod 50 is inserted in the case 61. The clamp 62 is provided on the inner circumferential surface of the case 61 So that the clamping position of the locking rod 50 is maintained.

The clamp 62 has a plurality of protrusions 64 formed by the inclined portion 64a and the right angle portion 64b on the inner peripheral surface facing the locking rod 50. [

The inclined portion 64a corresponds to the inclined portion 52a of the locking rod 50 so that the locking rod 50 can be inserted naturally and the right angle portion 64b is formed to be perpendicular to the right angle portion 52b of the locking rod 50 So that the locking rod 50 is not released.

The leaf spring 63 elastically supports the clamp 62 in the clamping direction with the case 61 as a support base between the clamp 62 and the case 61. For example, And the wing portions on both sides are respectively supported by the inner surface of the case 61 and the outer surface of the clamp 62.

A plurality of protrusions 52 and 64 are arranged continuously on both the locking rod 50 and the clamp 62 so that the locking rod 50 can be clamped in a large area and the locking rod 50 is structurally fixed to the clamp 62, The plate spring 63 is subjected to a plurality of elastic deformation (compression and contraction) until the plate spring 63 is inserted into the case 61 and the clamp spring 63, (Hemispherical) grooves are formed on the surfaces of the case 61 and the clamp 62 facing each other, and the two side wing portions 63 of the leaf spring 63 are engaged with each other, (Hemispherical) projection (embossed form) is formed in the groove, and the projection is inserted into the groove.

According to the above structure, when the locking rod 50 is inserted, the clamp 62 is pushed away from the locking rod 50 by the inclined portions 52a, 64a so that the locking rod 50 is inserted, The locking rod 50 can not move to the opposite side because the clamp 62 is not pushed by the right angled portions 52b and 64b in the state where the locking means 50 and 52 and 64 are engaged. It can not be removed in the opposite direction.

When the first segment 30 is first installed and the second segment 40 is installed next to the first segment 30, the locking rod 50 of the first segment 30 is clamped by the clamping means of the second segment 40 The diameter of the end of the second segment 40 is gradually reduced toward the clamping means 60 so that the second segment 40 is naturally inserted into the clamping means 60. Conversely, the diameter of the inlet of the clamping means 60 gradually increases toward the outer end The diameter portion 65 is formed. That is, the inlet-side end of the enlarged diameter portion 65 is larger than the inner diameter of the case 61 and the opposite end thereof is similar to the inner diameter of the case 61.

The enlarged diameter portion 65 may be formed by the structure of the case 61 and may be formed in the second segment 40 when the clamping means 60 is inserted inwardly from the outer end of the second segment 40 May also be formed.

The present invention is characterized in that the locking rod 50 and the clamping means 60 are mechanically clamped by the mechanical compression force and the locking rod 50 and the clamping means 60 are combined by the mortar to form the first and second segments 30, (Referred to as a state before the concrete is poured into concrete) by a large binding force.

The case 61 of the clamping means 60 has a tubular shape in which both sides in the longitudinal direction are opened and the locking rod 50 has a space in which one end is opened inside. The mortar injection path 46 and the overflow path 47 are formed in the second segment 40 so that the mortar injection path 46 and the overflow path 47 can be filled.

The mortar injection flow path 46 is configured such that one inlet communicates with the upper portion of the second segment 40 and the other outlet communicates with the opening of the case 61 so that the mortar injected from the outside is injected into the case 61 So as to fill the inside of the locking rod 50.

The overflow passage 47 is for confirming a state in which the case 61 and the locking rod 50 are filled with the mortar and the one side communicates with the inside of the diameter portion 65 and the other side passes through the second segment 40, And the periphery of the locking rod 50 is provided with one or more through holes penetrating the inside and the outside so that the inside thereof communicates with the enlarged diameter portion 65. Accordingly, And then overflows through the overflow passage 47 to stop the injection of the mortar.

When the mortar is injected in this way, the sealing 48 is applied to prevent the mortar from leaking through the first and second joint walls 33 and 43 of the first and second segments 30 and 40. The sealing ring 48 is provided in a ring shape, for example, so as to surround the locking rod 50 on the surface of the first joint wall 33.

2 and 4, a groove-shaped space is formed on both sides of the first and second joint walls 33 and 43 of the first and second segments 30 and 40, This space is used as a casting space for the mortar to integrally synthesize the first and second segments 30 and 40 by mortar to increase the bonding strength. In this case, reinforcing bars are used to further increase the bonding strength. The present invention uses a reinforcing bar assembly and is constructed as follows to enable rapid binding of the reinforcing bar assembly and the first and second segments 30 and 40.

In the first and second segments 30 and 40, a plurality of fixed reinforcing bars for binding with the reinforcing bar assembly 70 may be used together with the fixed reinforcing bars 34 and 44 and the bent reinforcing bars 35 and 45 having the engaging portions. Of course, it is also possible to use only straight fixed bars or bending fixed bars.

These fixed reinforcing bars 34, 44, 35 and 45 are buried in the manufacturing of the first and second segments 30 and 40. The portions protruding from the first and second segments 30 and 40 are inserted into the reinforcing bar assembly 70, (Coupling, binding by wire, etc.).

As shown in the figure, the reinforcing bars 34, 44, 35, and 45 are formed on one surface facing each other and connected to one side of the reinforcing bar assembly 70, respectively.

The reinforcing bars 34, 44, 35, and 45 are formed at two upper and lower portions of the reinforcing bar assembly 70, respectively. The reinforcing bar assemblies 70, So that when the reinforcing bar assembly 70 is inserted into the pouring space formed by the first and second segments 30 and 40, the upper reinforcing bars do not interfere with the insertion of the reinforcing bar assembly 70 For this purpose, the first and second segments 30 and 40 are formed to be inclined in a direction in which the wall facing the pouring space (the wall provided with the fixed reinforcing bar) is gathered while being lowered. When the walls of the first and second segments 30 and 40 are inclined and the peripheries of the reinforcing bar assembly 70 are equally inclined so that the reinforcing bar assembly 70 is inserted into the pouring space, So that the reinforcing bar assembly 70 is seated on the perimeter of the reinforcing bars 34, 44, 35, and 45. As shown in Fig.

The worker completes the installation of the reinforcing bars only by binding the periphery of the reinforcing assembly 70 and the fixed reinforcing bars 34, 44, 35,

The straight fixed reinforcing bars 34 and 44 are linear without bending portions and the bending reinforcing bars 35 and 45 are bent in such a manner that the ends are bent toward the upper end to form a latching portion. Thereby preventing the rebar assembly 70 from moving in the lateral direction. It is preferable that the linear fixed bars 34 and 44 and the bending fixed bars 35 and 45 are alternately repeated for uniform binding of the steel bar assembly 70.

The reinforcing assembly 70 is formed in a hexahedron shape by a plurality of longitudinal and transverse reinforcing bars, and is inserted into the pouring space as described above, and the peripheries are bound to the fixed reinforcing bars 34, 35, 44 and 45. The reinforcing bar assembly 70 may be provided with a retaining ring at its periphery for binding with the bending-type fixing bars 35, 45.

On the other hand, since spaces are formed on both sides of the first and second segments 30 and 40 with respect to the first and second junction walls 33 and 43 and the peripheral portion thereof is opened, First and second joint walls 33-1, 43-1, 33-2, and 43-2 that are opposed to each other between the two segment assemblies, that is, the first and second taxon assembly 100-1 and 100-2, It is preferable that a closed space is formed between the plurality of segment assemblies and that a single reinforcing assembly 70 is installed in the closed space. Accordingly, as a plurality of segment assemblies are integrally combined in a chain, It is possible to combine the structures to increase the rigidity of the structure.

As shown in FIG. 6, the method of constructing the segmented arch structure according to the present invention is as follows.

1. Construction of foundation.

And the base portions 10 and 20 are respectively installed on the left and right sides of the structure. The bases 10 and 20 are both field ready and precast blocks and combinations thereof. In addition, when the box structure is constructed, the floor is installed by placing the bases between the bases 10 and 20.

A first step of constructing a pair of base portions at a predetermined distance from each other along the lateral direction;

2. Install the segment assembly.

end. Install the first segment.

The segment assembly comprises a first segment 30 and a second segment 40. The first segment 30 having the locking rod 50 is lifted and the bottom portion is inserted into the base portion 10 to stand up.

I. Install the second segment.

The second segment 40 is lifted and the bottom portion is inserted into the base portion 20 while the locking rod 50 is inserted into the clamping means 60. When the clamping means 60 of the second segment 40 is aligned with the locking rod 50 of the first segment 30 already installed, the locking rod 50 is naturally tilted and inserted into the clamping means 60 The second segment 40 is aligned and constructed.

The first and second segments 30 and 40 are connected to the first and second bottom connecting portions 32 and 42 and the first and second connecting walls 33 and 43, And is held mechanically by the clamping means (60), thereby maintaining a stably standing posture without shaking. The mechanical interlocking by the locking rod 50 and the clamping means 60 has been described in detail in the description of the construction, and will not be described.

Thereby, one segment assembly is completed.

In this way, all the segment assemblies 100-1, 100-2,..., 100-n are installed.

3. Putting mortar.

As described above, a gap is provided between the segment assemblies, and the reinforcing bar assembly 70 is lifted from the ground and inserted into the hollow space. The reinforcing bar assembly 70 fixes the first and second segments 30 and 40 The operator is seated on the reinforcing bars 34, 35, 44, 45 and aligned in position, and the worker places the reinforcing bars 34, 35, 44, 45 on the first and second segment assemblies 30, The steel assembly 70 is bound, followed by casting the mortar.

Through the above process, the neighboring two segment assemblies are integrated together, so that all the segment assemblies are integrated.

The above-described mortar casting process is performed by installing all the segment assemblies and then installing the rebar assembly 70 in one space formed by two neighboring segment assemblies and casting the mortar. It is also possible to install a mortar on both sides of the first and second joint walls 33 and 43 after the mold assembly is installed.

4. Deadline.

Leakage may occur between the segment assemblies, and water between the segment assemblies is treated to prevent this. For the waterproof treatment, all known methods such as application of a waterproofing liquid and installation of a waterproof sheet can be used.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

10, 20: base portion, 30, 40: first and second segments
31, 41: first and second segment bodies, 32, 42: first and second bottom-
33, 43: first and second joint walls, 50: locking rod
51: nut, 52,64: projection
60: clamping means, 61: case
62: clamp, 63: leaf spring
70: Reinforcing assembly,

Claims (10)

A base portion disposed on the ground at a predetermined distance from each other along the lateral direction;
Two or more segments arranged in a row along the transverse direction with adjacent ends connected to one another and a bottom connected to the base and continuing in a row along the longitudinal direction to form an arcuate structure;
Interlocking means formed in a male-like fashion at neighboring ends of the segments to interlock the segments;
And a three-dimensional steel reinforcing assembly joined to the fixed reinforcing bars that are laid over the neighboring ends of the segments and disposed within the segments,
The segment includes an arc-shaped segment main body, a bottom-side connecting portion extending at a side of the connecting portion side of the segment main body so as to have a thickness thinner than the segment main body and forming a pouring space therebetween, And the joint portions of the adjacent segments are joined together through the interlocking means while the joint portions and the joint walls of the adjacent segments are in close contact with each other,
Wherein the interlocking means includes a locking rod protruding from a junction wall of one of the segments and a clamping means formed on a junction wall of another segment for clamping the locking rod,
The other one of the segments has a structure in which an injection path (46) communicating with the inside of the locking rod via the outside and the inside of the case of the clamping means and the overflow passage 47, a molten material injected from the outside is injected into the inside of the locking rod,
Wherein the clamping means comprises a case having a cylindrical structure having an opening portion facing the locking rod and embedded in the joining wall of another segment, a clamp arranged to be arranged in a circular shape inside the case and to clamp the locking rod by uneven coupling, And an elastic member elastically supporting the clamp in a direction of clamping the locking rod.
delete The segmented arch structure according to claim 1, wherein the locking rod is screwed to a nut embedded in any one of the joining walls. The clamping device according to claim 1, wherein the locking rod has a plurality of protrusions formed at an outer periphery thereof with an inclined portion and a right angle portion, and the clamp has an inclined portion at a right angle to the inclined portion of the locking rod, Wherein two or more protrusions are formed on the periphery of the locking rod to clamp the locking rod so as not to come off. [3] The apparatus of claim 1, wherein the segment is formed in a slanting manner in a direction in which the wall facing the pouring space is gathered downward, wherein the steel frame assembly is a hexahedron having reinforcing bars arranged longitudinally and laterally, And is inclined to be inserted into the pouring space. The segmented arch structure according to claim 5, wherein the fixed reinforcing bar includes an end portion protruding from the segment body and bent upwardly to align the reinforcing steel assembly and to engage the reinforcing steel assembly. The segmented arch structure according to claim 1, wherein the entrance of the clamping means comprises a enlarged diameter portion gradually increasing in diameter from the outer end to the inside of the case of the clamping means. A method of constructing a segmented arch structure according to claim 1,
A first step of constructing a pair of base portions at a predetermined distance from each other along the lateral direction;
A second step of lifting any one segment formed in an arc shape and connecting the bottom part to one of the base parts;
The other end of the circular arc is cited to connect the bottom portion to the other base portion while joining the end portion adjacent to one of the segments installed through the second step, A third step of inserting the mortar into the inside of the case of the clamping means and the interior of the locking rod, interlocking the segments, and inserting the segment assembly into the clamping means of the other segment;
After all the segment assemblies have been constructed through the third step, a steel frame assembly is inserted into the installation space provided by the two adjacent segment assemblies along the longitudinal direction, and then the mortar is installed to connect the two neighboring segment assemblies to each other And a fourth step of integrally combining all the segment assemblies to form the arch structure. ≪ RTI ID = 0.0 > 18. < / RTI > A method of constructing a segmented arch structure according to claim 1,
A first step of constructing a pair of base portions at a predetermined distance from each other along the lateral direction;
A second step of lifting any one segment formed in an arc shape and connecting the bottom part to one of the base parts;
The other end of the circular arc is cited to connect the bottom portion to the other base portion while joining the end portion adjacent to one of the segments installed through the second step, A third step of inserting the mortar into the inside of the case of the clamping means and the interior of the locking rod, interlocking the segments, and inserting the segment assembly into the clamping means of the other segment;
A step of inserting a reinforcing assembly into one of the pouring spaces formed between the segments after the third step, binding the reinforcing bars embedded in the segments, molding the periphery of the reinforcing bars, The method of claim 1, delete

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