KR102197343B1 - Tendon tensile type high-performance fence structure - Google Patents

Abstract

The present invention relates to a tendon-tensioned high-performance fence structure. According to the present invention, the tendon-tensioned high-performance fence structure comprises: a plurality of handrail posts (10); and a protective member (400) connecting the plurality of handrail posts (10) to each other, wherein each of the plurality of handrail posts (10) includes a post member (100), a tendon tensioning unit (200), and a tendon (300). According to the present invention, maintenance workability can be increased.

Description

Tendon tensile type high-performance fence structure {TENDON TENSILE TYPE HIGH-PERFORMANCE FENCE STRUCTURE}

The present invention relates to a tendon tension-type high-performance fence structure, and more particularly, by installing a tendon to which a tensile force is applied through a tension member tensioning unit inside a post member that is installed upright on the installation surface, the deformation amount of the railing post is minimized. It relates to a tendon tensile type high performance fence structure capable of providing a sturdy protective fence structure by increasing the resistance against heavy loads.

In general, in the fence structure, pillars that are installed perpendicular to the surface are installed at regular intervals, and railings are installed by welding to the pillars or by penetration of bolts and VIS.

When the handrail is installed by welding, it causes a risk of fire due to welding sparks, and when the installation place of the handrail is in the mountains, islands, or remote areas, it is necessary to move with various equipment such as generators and transformers required for welding. It causes discomfort.

In addition, in the case of installing the handrail by the penetration of the bolt, the through hole formed in the column must have an inner diameter larger than the diameter of the bolt to be fastened. In this case, the connecting member due to the difference between the inner diameter of the through hole and the bolt diameter There is a problem of shaking, and it is difficult to easily respond to various inclinations of the site where the handrail is installed due to the fact that the through hole for the penetration of the bolt must be drilled in advance at the factory.

Moreover, in recent years, regulations that allow fence structures to cope with a certain load according to the installation section are subdivided and strengthened. That is, as shown in Fig. 20, a fence structure of a certain size, in which a post 1 of a certain height and a beam member 2 of a certain width are connected, is applied to the load by varying the load according to the section installed as shown in Table 1 below. A response test is conducted, and regulations are being reinforced so that the fence structure can be installed only when the maximum residual deformation of the fence is within a certain value as shown in Table 2 below.

Application section Pedestrian Protection Fence Classification Load(P) For urban areas Pedestrian Protection Fence Class A 3700N/m × L For general section Pedestrian Protection Fence Class B 2500N/m × L For other Pedestrian Protection Fence Class C 400N/m × L

* L: The distance between the posts of the fence and the posts

Pedestrian protection fence height Maximum residual strain Less than 900 30 or less 900 or more and less than 1100 36 or less 1100 or more 45 or less

*Unit: mm

Briefly looking at the deformation test of the fence as described above, the test target fence is pulled with a constant load and the load corresponding to the applied section is reached, and the load is maintained for 1 minute at the same time, the load is removed, and the displacement gauge is zero-adjusted. Based on the condition, the test target fence is pulled again with a constant load, and the load corresponding to the applied section is reached, and the load is removed after holding for 1 minute to measure the maximum residual deformation of the fence.

In this way, if the durability of the fence structure, especially the upright performance of the post, is not secured, the installation of the fence structure is limited, and the function as a fence structure cannot be easily performed in terms of pedestrian protection. The development of a solid fence structure is urgent.

In addition, if the post installation interval of the fence structure is wide, economic efficiency is improved, but the load value to withstand is increased by multiplying by the installation distance of the post, so that the post is upright to support the horizontal high load transmitted from the beam member. There is a situation in which performance should be greatly improved.

In addition, as shown in FIG. 21, the load of the fence starts from the top (vertical) or the side (horizontal), and the load is transmitted to the foundation through the beam member through the post. Here, an important element for transmitting the load of the beam member to the strut is a bind unit that couples the beam member to the strut, and a member that connects the strut and the foundation to transmit the load transmitted to the strut based on the Since the role of the method becomes important, it is urgent to develop a technology to increase the performance of the fence structure in consideration of this situation.

As the background technology of the present invention, a handrail or fence-type safety facility of Korean Utility Model Registration No. 20-0487249 is disclosed.

The present invention was invented in view of the above-described circumstances, and an object of the present invention is to install a tendon to which a tensile force is applied through a tension member tensioning unit on the inside of a post member, and when horizontal and vertical loads are generated on the railing post, the amount of deformation of the railing post The tensioner according to the long-term use of the fence structure by minimizing and increasing the resistance against high loads to provide a solid fence structure, and inserting a tensioner of the tension member tensioning unit that tensions the tendon into the inside of the post member. It is to provide a tendon tensile type high-performance fence structure that can prevent damage or breakage.

In addition, by adopting a tendon of a twisted structure with a low elongation and installing it inside the post member, the amount of deformation of the post member against a high load acting on the fence structure can be reduced to provide a solid fence structure while tensioning the tendon of the twisted structure. In order to solve the problem of rotation that occurs, the tensioner of the tension member tensioning unit is rotatable on the mounting plate so that a stable tensioning operation of the tendon can be performed.

In addition, the tension of the tendon installed inside the post member can be adjusted from the upper side in the longitudinal direction of the post member, so that the resistance of the railing post against horizontal and vertical loads according to the distance between the section where the fence structure is installed or the railing posts. By allowing the performance to be easily controlled, the adaptability of the fence structure is increased, and the re-tension work can be easily performed when the tension of the tendon is lowered by the long-term use of the fence structure, thereby improving the maintenance and repair workability of the protective fence structure. To be.

The present invention for achieving the above object is a fence structure consisting of a plurality of railing posts 10 installed upright on the installation surface and a protective member 400 interconnecting the railing posts 10, the railing The post 10 includes a post member 100 installed to be upright on the installation surface in a state in which the insertion hole 111 is formed to be hollow along the longitudinal direction inside; Consisting of a flat plate type mounting plate 210 installed to be seated at the end of the post member 100 and a tensioner 220 inserted from one side of the mounting plate 210 in the direction of the insertion hole 111, the tensioner Tension member tensioning unit 200 which is installed rotatably by engaging one side of the longitudinal direction of 220 on one side of the mounting plate 210; Including a tendon 300 which is connected to the tensioner 220 of the tension member tensioning unit 200 in a state located inside the insertion hole 111 of the post member 100 and fixedly installed in a state in which a tensile force is applied; including Consisting of, the mounting plate 210 is mounted on both ends of the post member 100 in the longitudinal direction and through a bolt through hole to allow the binding bolt holes 212 connected to the post member 100 to pass therethrough ( 211), and a mounting engaging hole 213 that allows one side in the longitudinal direction to be engaged in a state through which the tensioner 220 is passed, and the mounting engaging hole 213 has one side in the length direction of the tensioner 220 A slope engaging end 214 is formed so as to be rotatable in the locked state, and the slope engaging end 214 is formed to have a structure that is inclined downward inward from the edge of the mounting engaging hole 213, The tensioner 220 includes a hollow insert header 230 having a rotation guide protrusion 231 that is engaged with the mounting plate 210, and the inner diameter gradually decreases from one side to the other side, and the insert header ( 230) is installed to be inserted into the inner circumference of the tendon 300 is composed of a tension connector 240 that is fixed while pressing the outer circumference, the tension connector 240 is a plurality of arc-shaped outer circumference and inner circumference Consisting of a split wedge piece 241 and an elastic member 243 installed to surround the upper side of the split wedge piece 241, the rotation guide jaw 231 is the insert so as to correspond to the slope engaging end 214 It is formed so as to extend upward from the end of the header 230, the outer periphery is formed to be inclined outward, and when the rotation guide jaw 231 is seated on the slope engaging end 214, the top of the rotation guide jaw 231 It is characterized in that the side and the upper side of the mounting plate 210 are positioned on the same line so that the upper side of the rotation guide protrusion 231 does not protrude to the outside of the mounting plate 210.
In addition, the tendon 300 is made to have a twisted structure in which a plurality of strands are spirally rolled around an axis line, and a railing bar connecting hardware that allows a protective member to be connected to the upper side in the longitudinal direction of the railing post 10 500 is installed to be connected to the mounting plate 210 of the tension member tensioning unit 200.
In addition, in the post member 100, a fixing connector 121 for fastening and fastening of the fixing screw 123 connected to the lower side in the longitudinal direction is formed along the longitudinal direction, and the protective member 400 includes the post member ( It is fixedly installed by a bind unit 410 extending in the direction of the insertion hole 111 through the fixing connector 121 on the outer surface of 100).

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According to the present invention, the upright performance is improved by the tendon installed so as to impart a tensile force to the inside of the post member, so that the amount of deformation of the railing post is minimized when horizontal and vertical loads are generated on the protective fence structure, thereby providing a solid fence structure. By adopting a twist structure with a low elongation of the tendon, it can effectively cope with the high load acting on the fence structure, and the tensioner of the tension member tensioning unit that tensions the tendon is installed rotatably on the mounting plate. It becomes possible to easily cope with the rotation.

In addition, since the tensioning portion of the tendon is inserted and hidden inside the post member, damage or breakage of the tensioner due to long-term use of the fence structure can be prevented, and when the tension of the tendon decreases, it can be easily reloaded from the upper side of the post member. Because it can be tense, it is possible to secure ease of maintenance and repair.

1 is a state diagram showing an embodiment of a protective fence structure according to the present invention,
Figure 2 is a state diagram showing a schematic state of the railing post according to the present invention,
3 is a cross-sectional view showing a cross-sectional state of a post member according to an embodiment of the present invention,
4 is an enlarged view of a state of a fixing connector according to an embodiment of the present invention;
5 is a cross-sectional view showing a cross-sectional state of a post member according to another embodiment of the present invention;
6 is a cross-sectional view showing a cross-sectional state of a post member according to another embodiment of the present invention,
7 is a state diagram showing the separated state of the tension member tensioning unit according to the present invention,
8 is a cross-sectional view showing the cross-sectional state of the tension member tensioning unit according to the present invention,
9 is a state diagram showing an embodiment of a tension connector according to the present invention,
10 is a state diagram showing an embodiment in which the post member according to the present invention is installed upright;
11 is a state diagram showing another embodiment in which the post member according to the present invention is installed upright,
12 is a state diagram showing a state in which the protective member is connected to the railing post according to an embodiment of the present invention,
13 is a cross-sectional view showing the connection state of the protective member by the bind unit of the present invention;
14 is a state diagram showing a state in which a protective member according to another embodiment of the present invention is connected to a railing post;
15 is a state diagram showing a state in which a protective member is connected to a railing post according to another embodiment of the present invention;
16 is a state diagram showing a state in which a protective member is connected to a railing post according to another embodiment of the present invention;
17 is a state diagram showing a state in which the protective member is connected to the railing post in a state in which the locking stopper is not formed in the branch extension tool according to the present invention;
18 is a side view showing a side state in which the railing rod connecting hardware is installed on the upper side of the post member according to the present invention;
19 is a state diagram showing the front state of the railing bracket connection hardware according to the present invention,
20 is a state diagram showing a test state for a high load of the protective fence structure,
21 is a state diagram showing a load state acting on the protective fence structure.

Hereinafter, a tendon tensile type high performance fence structure according to the present invention will be described in detail with reference to the accompanying drawings. Prior to this, in describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

In addition, terms to be described later are terms set in consideration of functions in the present invention, and these terms may vary according to the intention or custom of the producer or manufacturer producing the product, and the thickness of the lines or the size of the components shown in the drawings And the like may be exaggerated for clarity and convenience of description, and the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention and do not represent all the technical ideas of the present invention. As such, it should be understood that there may be various equivalents and modified examples that can replace these at the time of application.

In addition, when a part of the specification is said to be'connected' with another part, this includes not only the case that it is'directly connected', but also the case that it is'indirectly connected' with another element in the middle. do. In addition, "including" a certain component means that other components may be further included, rather than excluding other components unless specifically stated to the contrary.

Further, the directional terminology used in the present invention is used in connection with the orientation of the disclosed drawing(s). Since components of the embodiments of the present invention can be positioned in various orientations, the directional terminology is used for illustrative purposes, but is not limited thereto.

1 is a state diagram showing an embodiment of a protective fence structure according to the present invention, Figure 2 is a state diagram showing a schematic state of a railing post according to the present invention, Figure 3 is a post member according to an embodiment of the present invention Is a cross-sectional view showing a cross-sectional state of, Figure 4 is a state diagram showing an enlarged state of the fixing connector according to an embodiment of the present invention, Figure 5 is a cross-sectional view showing a cross-sectional state of a post member according to another embodiment of the present invention 6 is a cross-sectional view showing a cross-sectional state of a post member according to another embodiment of the present invention, Figure 7 is a state diagram showing a state of separation of the tension member tensioning unit according to the present invention, Figure 8 is a tension member tension according to the present invention It is a cross-sectional separation diagram showing the cross-sectional state of the unit, Figure 9 is a state diagram showing an embodiment of the tension connector according to the present invention, Figure 10 is a state diagram showing an embodiment in which the post member according to the present invention is installed upright, 11 is a state diagram showing another embodiment in which the post member according to the present invention is installed upright, and FIG. 12 is a state diagram showing a state in which the protective member according to an embodiment of the present invention is connected to the railing post, and FIG. 13 is A cross-sectional state diagram showing a connection state of a protective member by the bind unit of the present invention, FIG. 14 is a state diagram illustrating a state in which a protective member according to another embodiment of the present invention is connected to a railing post, and FIG. 15 is another embodiment of the present invention. A state diagram showing a state in which a protective member according to another embodiment is connected to a railing post, FIG. 16 is a state diagram illustrating a state in which a protective member according to another embodiment of the present invention is connected to the railing post, and FIG. 17 is the present invention Is a state diagram showing a state in which the protective member is connected to the railing post in a state in which the locking stopper is not formed in the branch extension according to the present invention, and FIG. It is a side view, and Figure 19 is a state diagram showing the front state of the railing bracket connection hardware according to the present invention.

As shown in Figs. 1 and 19, the tendon tension type high performance fence structure according to the present invention is a protective member 400 for interconnecting the handrail post 10 and the handrail post 10 installed upright on the installation surface. In the fence structure consisting of, the railing post 10 has an insertion hole 111 formed inside the post member 100 formed to be hollow along the longitudinal direction, and a tension member installed on both sides of the post member 100 in the longitudinal direction It consists of a tensioning unit 200 and a tendon 300 installed to be located in the insertion hole 111 of the post member 100 in a state where both sides in the longitudinal direction are connected to the tension member tensioning unit 200 to provide a tensile force. .

That is, the tendon tension type high performance fence structure according to the present invention is the tendon 300 to which a tensile force is applied by the tension member tension unit 200 in the longitudinal direction inside the post member 100 installed upright on the installation surface. By installing a tension force to the post member 100, to reduce the deformation amount of the fence structure by improving the resilience against the load so as to provide a sturdy fence structure, tension member tensioning the tendon 300 By inserting the tensioner 220 of the unit 200 into the inside of the post member 100, it is possible to prevent damage or damage to the tensioner due to long-term use of the fence structure.

The post member 100 is installed to be upright on the installation surface with an insertion hole 111 formed to be hollow in the longitudinal direction, and a fixing screw 123 extending from the installation surface at a lower side in the longitudinal direction Are combined. In this case, a fixing connector 121 for fastening and fastening of the fixing screw 123 is formed in the post member 100 to couple the fixing screw 123 along the longitudinal direction.

Here, looking at an embodiment of the post member 100, the post member 100 has a basic pole 110 in which the insertion hole 111 is formed in cross section, and extends outwardly from the basic pole 110 A branch extension unit 120 in which the fixing connector 121 is formed in a state that is formed, and a joint exterior 130 connecting the branch extension unit 120 to each other, the basic pole 110 and the branch extension unit 120, the joint exterior 130 is formed to have the same length with each other.

At this time, the tensioner 220 of the tension member tensioning unit 200 is installed to be inserted into the insertion hole 111 of the basic pole 110, and the fixing screw 123 is disposed below the fixing connector 121 in the longitudinal direction. By being inserted and screwed, the post member 100 can be installed upright.

The insertion hole 111 of the basic pole 110 is formed to have a shape corresponding to the shape of the tensioner 220 inserted therein, and the branch extension unit 120 has one side of the basic pole 110 in cross section. It is preferable that the other side is formed to extend outward while connected to the outer surface of the branch, and the inside of the branch extension unit 120 is preferably formed to have a hollow structure along the length direction.

Here, the fixing connector 121 formed in the branch extension unit 120 is formed along the length direction of the branch extension unit 120 in a state having a predetermined diameter inside the branch extension unit 120 , A side opening 122 is formed at one side in the width direction in the cross section of the branch extension unit 120.

At this time, the fixing connector formed in any one of the fixing connectors formed in the plurality of branch extensions 120 is formed adjacent to the outer surface of the post member 100, and the remaining branch extensions The fixing connector formed in may be formed adjacent to the insertion hole 111 of the post member 100.

When the post member 100 is installed upright, a fixing connector formed adjacent to the outer surface of the post member 100 among a plurality of fixing connectors is positioned in a direction in which a high load acts on the fence structure. It is to increase the upright performance of the post member 100 by the fixing screw 123 fastened to the connector 121 and the tendon 300 to be described later so that the fence structure can easily respond to high loads.

At this time, the side opening of the fixing connector 121 formed adjacent to the outer surface of the post member 100 is formed to face the direction of the insertion hole 111, and is formed adjacent to the insertion hole 111 It is preferable that the side opening of the connector is formed to face outward. In addition, a locking stopper 124 may be formed at an end of the branch extension unit 120 having the fixing connector 121 formed so that the side opening 122 faces the outer direction.

In addition, the joint exterior 130 is provided to interconnect the branch extension unit 120 to form an outer wall surface of the post member 100, and a wooden member of a predetermined length installed between the branch extension unit 120 The post member 100 may be formed in an arc shape in cross section by interconnecting the branch extension units 120 so that the post member 100 may have a circular column shape as a whole, and the post member 100 consists of a bent structure of a "a" shape in cross section. May be made to have a square column shape as a whole.

On the other hand, the tension member tensioning unit 200 is inserted in the direction of the insertion hole 111 from one side of the mounting plate 210 and the mounting plate 210 is installed to be seated on both sides of the length direction of the post member 100 It is made of a tensioner 220 that is, but one side of the tensioner 220 in the longitudinal direction is engaged with one side of the mounting plate 210 and is rotatably installed.

At this time, the mounting plate 210 is mounted on both ends of the post member 100 in the longitudinal direction, and a bolt through hole 211 for allowing the binding bolt holes 212 connected to the post member 100 to pass therethrough. ), and a mounting engaging hole 213 for engaging one side in the longitudinal direction while the tensioner 220 penetrates therethrough.

Here, a slope engaging end 214 is formed in the mounting engaging hole 213 so that one side in the longitudinal direction of the tensioner 220, which will be described later, is rotatable, and the slope engaging end 214 is the mounting It would be desirable to be formed to have a structure that is inclined downward in the inward direction from the edge of the locking hole 213.

Looking at an embodiment of the tensioner 220, the tensioner 220 is a hollow type in which a rotation guide protrusion 231 is formed that is engaged with the mounting plate 210, but the inner diameter gradually decreases from one side to the other side. It is composed of an insert header 230 and a tension connector 240 installed to be inserted into the insert header 230 and fixed while pressing the outer periphery of the tendon 300.

That is, the rotation guide protrusion 231 is formed to extend upward from the end of the insert header 230 so as to correspond to the slope engaging end 214, and the outer periphery is formed to be inclined outward. At this time, when the rotation guide jaw 231 is seated on the slope engaging end 214, the rotation guide jaw 231 and the upper side of the mounting plate 210 are positioned on the same line so that the rotation It would be desirable to prevent the upper side of the guide protrusion 231 from protruding to the outside of the mounting plate 210.

In addition, the tension connector 240 is inserted into the inner side of the insert header 230 in a funnel shape and fixed while pressing the outer surface of the tendon 300 penetrating the inner side of the insert header 230, but the outer periphery is It is formed to be inclined from one side in the length direction to the other side so as to correspond to the inner periphery of the insert header 230.

Looking at an embodiment of the tension connector 240, the tension connector 240 includes three split wedge pieces 241 having arc-shaped outer circumference and inner circumference, and the three split wedge pieces 241 It may be composed of an elastic member 243 installed to surround the upper side, and the three split wedge pieces 241 are connected through the elastic member 243 as a medium through which the tendon 300 passes through the through hole 244 is formed.

Here, in the inner periphery of each of the split wedge pieces 241, a plurality of grooves 242 for firmly fixing the outer periphery of the tendon 300 are continuously formed from one side in the length direction to the other side. That is, the groove hole 242 is formed from one side in the length direction to the other in a shape like a thread, and when the tension connector 240 is inserted into the inner side of the insert header 230 by the groove hole 242, the It is to be firmly biting the outside of the tendon 300.

Meanwhile, the tendon 300 is located inside the insertion hole 111 of the post member 100, and both sides in the longitudinal direction are connected to the tensioner 220 of the tension member tensioning unit 200 to provide a tensile force. It is fixedly installed.

That is, the post member 100 is installed in a state in which a tensile force is applied from the inside of the post member 100 through the tension member tensioning unit 200 in a state in which the post member 100 is installed upright by the binding of the fixing screw 123. As the uprightness of the post member 100 is improved due to the tendon 300, it is possible to easily respond to a high load such as a vertical load as well as a horizontal load acting on the post member 100 to maintain an upright state. It becomes.

In addition, tension is applied to the post member 100 by tensioning and installing the tendon 300 inside the post member 100, and the resilience against the load is improved, thereby reducing the amount of deformation of the fence structure.

At this time, the tendon 300 is preferably made to have a twist structure in which a plurality of strands are spirally rolled around an axis, which is by adopting a tendon having a twist structure having a lower elongation rate than a tendon made of a single steel wire. It is to provide a more robust fence structure by reducing the amount of deformation of the post member 100 against the load acting on the fence structure.

Here, in the process of attaching the tension member tensioning unit 200 to both sides of the tendon longitudinal direction of the twisted structure to apply a tensile force by pulling the tendon, the tendon rotates itself in the opposite direction to be twisted in cross section. In this case, the tension member As the tensioner 220 of the tensioning unit 200 is rotated, it is possible to easily perform a tensioning operation of the tendon having a twisted structure.

As described above, in the present invention, a tendon of a twisted structure having a low elongation is adopted to reduce the amount of deformation of the post member against the load acting on the fence structure, thereby providing a robust fence structure, while preventing the rotation occurring when the tendon of the twisted structure is tensioned. In order to solve the problem, the tensioner 220 of the tension member tensioning unit 200 is rotatable in the mounting plate 210 so that a stable tensioning operation of the tendon can be performed.

In addition, in the present invention, the tensioner 220 of the tension member tensioning unit 200 for tensioning the tendon of the twisted structure is inserted into the insertion hole 111 of the post member 100 so that it is not exposed to the outside. This is to prevent damage or damage to the tensioner due to long-term use.

Moreover, in the case of the tension member tensioning unit 200 installed on the lower side in the longitudinal direction of the post member 100, the tensioner 220 is inserted into the insertion hole 111 of the post member 100 to be the railing post It is possible to easily perform the installation work of (10).

That is, when the tensioner 220 of the tension member tensioning unit 200 is not inserted into the insertion hole 111 and has a structure protruding toward the installation surface, the tensioner 220 is inserted into the installation surface. Since it is necessary to perform a separate hole processing work for the fence, the workability of the fence structure decreases due to an increase in the number of work hours.

Accordingly, in the present invention, when the tension member tensioning unit 200 is installed on the lower side in the longitudinal direction of the post member 100, the tensioner 220 is inserted into the insertion hole 111 of the post member 100 It is to facilitate the smooth tension fixing of the tendon 300 and the installation work of the railing support.

Here, when the tension member tensioning unit 200 is installed below the post member 100 in the longitudinal direction, the area of the mounting plate 210 is made wider than the cross-sectional area of the post member 100 so that the post member ( 100) can be fixedly installed on the installation surface by means of anchor bolts 215 or welding while seated on the lower side in the longitudinal direction of the post member 100, and the fixing screw 123 is mounted on the lower side in the longitudinal direction of the post member 100 Passing through the mounting plate 210 to be screwed to the lower side in the longitudinal direction of the fixing connector 121.

That is, it is preferable that a thread for screwing of the fixing screw 123 is formed at the lower inner periphery of the fixing connector 121 in the longitudinal direction so that the fixing connector 121 can be engaged.

As described above, in the present invention, by forming the insertion hole 111 having a shape corresponding to the outer circumferential shape of the tensioner 220 in the post member 100, the tensioner which is a portion to which the tendon 300 is tensioned ( 220) is inserted into the insertion hole 111 so that it is not exposed to the outside, thereby preventing damage or damage to the tensioner 220 due to long-term use of the protective fence structure according to the present invention. It is to prevent an increase in manufacturing cost due to the installation of the upper cap due to external exposure, and to improve the workability according to the installation work of the handrail post (10).

In addition, an upper cap 125 may be installed in a state in which the tendon 300 is installed through the tension member tensioning unit 200 on the inner side of the post member 100, and the upper cap 125 is installed. In the case, the tendon 300 due to long-term use of a protective fence structure by exposing one side in the longitudinal direction of the tendon 300 fixed to the tension member tension unit 200 to the outside of the tension member tension unit 200 for a certain length When the tension is canceled, the tendon 300 is re-tensioned so that the high load resistance performance of the railing post 10 can be maintained for a long time.

As described above, in the present invention, maintenance and repair work of the handrail post 10, that is, a tension force of tendon can be easily achieved by the tension member tensioning unit mounted on the upper side in the longitudinal direction of the post member 100, and the The tensioner 220 of the tension member tensioning unit 200 is inserted into the insertion hole 111 of the post member 100 to prevent a problem that the shape of the upper cap 125 increases or becomes complicated.

Moreover, it is possible to easily adjust the tension of the tendon from the upper side of the handrail post 10 according to the section in which the fence structure is installed or the width of the handrail post, so that the resistance performance of the post member can be easily responded according to the field situation.

On the other hand, the protective member 400 is fixedly installed by a bind unit 410 extending in the direction of the insertion hole 111 through the fixing connector 121 on the outer surface of the post member 100. At this time, the protective member 400 may be a member having a shape of a predetermined length for interconnecting the railing posts 10 as an embodiment.

Here, looking at the bind unit 410 as an embodiment, a reinforcing tool 420 disposed between the fixing connector 121 and the locking stopper 124 and both sides in the longitudinal direction of the protective member 400 It may be composed of a through-bolt hole 430 that penetrates through the fastening fastener 440 connected to the reinforcement hole 420 and the fixing connector 121 to extend in the direction of the insertion hole 111. .

At this time, the binding fastener 440 is formed to extend in a downward direction vertically from one side of the mounting piece 441 and the mounting piece 441 mounted on the lower side of the protective member 400 to the railing post 10 It may be made of a close contact piece 442 that is installed in close contact, the through bolt hole 430 is installed through the contact piece 442.

In addition, when the protective member 400 is made of a plate-shaped member having a certain area in which a certain pattern is formed, the binding fastener 440 may be formed in a structure to surround both sides of the protective member 400 in the longitudinal direction. It is not limited thereto, and it is to be noted that there may be various structures in which the through bolt hole 430 can penetrate while fixing the protective member 400.

In addition, when the protective member 400 is made of a member of a transparent body, the binding fastener 440 is in close contact with both sides of the protective member of the transparent body, and has a "c" shape in cross section so that the through bolt hole 430 can pass through. It is to be noted that there may be various structures in which the through bolt hole 430 can be penetrated while fixing the protective member 400 of the transparent body, but is not limited thereto.

In addition, when the protective member 400 is formed of a wire having a predetermined length, the support mounting plate 445 and the support mounting plate through which the through bolt hole 430 penetrates in a state in close contact with the railing post 10 It may be made of a rope fixing device 446 for connecting and fixing the protective member 400 made of the wire on one side of the 445.

Here, the binding fastener 440 is described as consisting of the post mounting plate 445 and the rope fastener 446, but is not limited thereto, and the through bolt hole 430 is attached to the through bolt hole 430 while fixing the wire rope. As a result, it is revealed that there may be various various structures fixedly installed on the side of the railing post 10.

In addition, the reinforcing member 420 is described as being installed to be positioned between the fixing connector 121 and the locking stopper 124, but is not limited thereto, and the locking stopper ( It is to be noted that the reinforcing tool 420 can be slidably inserted into the fixing connector 121 in a state where 124 is not formed.

That is, in a state in which the reinforcing hole 420 of the bind unit 410 is slidingly inserted into the fixing connector 121, the through bolt hole 430 penetrating the binding fastener 440 is the reinforcing tool ( By sequentially passing through the 420 and the fixing connector 121 and extending in the direction of the insertion hole 111, the protective member 400 can be fixedly installed on the handrail post 10.

As described above, in the protective fence structure according to the present invention, a tension force is applied to the post member due to the tendon installed in a state in which a tensile force is applied to the inside of the post member 100, and the amount of deformation of the protective fence structure through improvement of the resilience against the load As the tension member 220 of the tension member tensioning unit 200 for tensioning and fixing the tendon is inserted into the insertion hole 111 of the post member 100, it is possible to provide a sturdy protective fence structure. It is possible to install a railing rod connecting hardware 500 that allows the protective member to be connected to the upper side of the railing column 10 in the longitudinal direction to be connected to the mounting plate 210 of the tension member tensioning unit 200 when manufacturing a protective fence structure Various types of protective fence structures can be constructed through a design that does not couple the railing to the side of the railing.

As described above, specific embodiments of the present invention have been described in detail, but those of ordinary skill in the field to which the present invention belongs will be able to implement various modifications without departing from the scope of the present invention. Therefore, the scope of the present invention is not limited to the above-described embodiments, and should be defined by the claims and equivalents as well as the claims to be described later.

10: railing post 100: post member
110: basic pole 120: quarterly extension
121: fixing connector 122: side opening
123: fixing screw 124: jam stopper
125: upper cap 130: joint exterior
200: tension member tensioning unit 210: mounting plate
211: bolt through hole 212: binding bolt hole
213: mounting engagement hole 214: slope engagement end
220: tensioner 230: insert header
231: rotation guide jaw 240: tension connector
300: tendon 400: protective member
410: bind unit 420: reinforcement
430: through bolt hole

Claims (5)

In the fence structure consisting of a plurality of railing posts 10 installed upright on the installation surface and a protective member 400 interconnecting the railing posts 10,
The railing post 10 includes a post member 100 installed to be upright on the installation surface in a state in which the insertion hole 111 is formed to be hollow along the longitudinal direction inside; Consisting of a flat plate type mounting plate 210 installed to be seated at the end of the post member 100 and a tensioner 220 inserted from one side of the mounting plate 210 in the direction of the insertion hole 111, the tensioner Tension member tensioning unit 200 which is installed rotatably by engaging one side of the longitudinal direction of 220 on one side of the mounting plate 210; Including a tendon 300 which is connected to the tensioner 220 of the tension member tensioning unit 200 in a state located inside the insertion hole 111 of the post member 100 and fixedly installed in a state in which a tensile force is applied; including Composed,
The mounting plate 210 has a bolt through hole 211 through which the binding bolt holes 212 connected to the post member 100 can be penetrated while seated on both ends of the post member 100 in the longitudinal direction. , A mounting engaging hole 213 is formed so that one side in the length direction can be locked in a state through which the tensioner 220 is passed, and one side in the length direction of the tensioner 220 is engaged in the mounting engaging hole 213. A slope engaging end 214 is formed to be rotatable in a state, and the slope engaging end 214 is formed to have a structure that is inclined downward in an inward direction from the edge of the mounting engaging hole 213,
The tensioner 220 includes a hollow insert header 230 having a rotation guide protrusion 231 that is engaged with the mounting plate 210, and the inner diameter gradually decreases from one side to the other side, and the insert header ( 230) is installed to be inserted into the inner circumference of the tendon 300 is composed of a tension connector 240 that is fixed while pressing the outer circumference, the tension connector 240 is a plurality of arc-shaped outer circumference and inner circumference It consists of a split wedge piece 241 and an elastic member 243 installed to surround the upper side of the split wedge piece 241,
The rotation guide chin 231 is formed to extend upward from the end of the insert header 230 so as to correspond to the slope engaging end 214, and the outer periphery is formed to be inclined outward, and the rotation guide chin 231 is When seated on the slope engaging end 214, the upper side of the rotation guide ledge 231 and the upper side of the mounting plate 210 are positioned on the same line, so that the upper side of the rotation guide ledge 231 is mounted. Tendon tensile type high performance fence structure, characterized in that it does not protrude to the outside of the plate 210.
The method of claim 1,
The tendon 300 is a tendon tensile type high performance fence structure, characterized in that it has a twisted structure in which a plurality of strands are spirally rolled around an axis.
The method of claim 1,
Tendon tension type, characterized in that the handrail connecting hardware 500 for connecting the protective member to the upper side in the longitudinal direction of the handrail post 10 is installed to be connected to the mounting plate 210 of the tension member tensioning unit 200 High-performance fence structures.
The method according to any one of claims 1 to 3,
The post member 100 is a tendon tensile type high performance fence structure, characterized in that a fixing connector 121 for fastening and fastening of the fixing screw 123 connected to the lower side in the longitudinal direction is formed along the longitudinal direction.
The method of claim 4,
The protective member 400 is fixedly installed by a bind unit 410 extending in the direction of the insertion hole 111 through the fixing connector 121 on the outer surface of the post member 100 Tendon tension type high performance fence structure made of

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