KR20130032811A - Assembly type balustrade - Google Patents

Abstract

PURPOSE: A prefabricated balustrade is provided to improve assemblability and to facilitate to assemble crossbars to a pillar without an additional assembler. CONSTITUTION: A prefabricated balustrade comprises a pillar(10), a fastener(20), a crossbar(30), and a fixing unit. The fixing unit comprises a vertical rail, a hanging protrusion, a bent bracket, a fastening bolt, and an anchoring bolt. The vertical rail is shaped into a groove along the longitudinal direction of the pillar and is internally equipped with the hanging protrusion. One end of the bent bracket is inserted into the vertical rail to be hung to the hanging protrusion and is combined to the crossbar. A connector(76) is installed at the end of the crossbar for being detachably connected to the bent bracket through the fastening bolt.

Description

Prefab Railing {ASSEMBLY TYPE BALUSTRADE}

The present invention relates to a prefabricated handrail, and more particularly, to a prefabricated handrail that can be fixed to the support while sliding the crossbar provided on the support.

Railings are typically installed separately from roadways and sidewalks or along trails or bicycle paths to provide pedestrian safety.

The prior art proposed prior to the present invention is a cross-linking connector of the handrail disclosed in the Republic of Korea Patent Publication No. 10-2009-85188.

As shown in FIG. 1, the railing of the prior art has a support 100 having a slide groove 101 formed in all directions, a crosspiece 200 coupled to the slide groove 101 of the support 100, and an end of the crosspiece 200. Consists of a connector 300 for fixing the holding (100).

The railing of the prior art as shown in Figure 1 is a pair of connecting rods 310 and the slide groove 101 of the support 100 is fixed to the spherical coupling rod 201 formed at the end of the crosspiece 200 as shown in FIG. It is a configuration for fixing the crosspiece 200 to the strut 100 by coupling to the fastening bolt 500 is coupled to the fastening bolt 500 is inserted into the slide groove 101 along the slide groove (101).

By the way, the railing of the prior art can not be located in the installation portion of the crosspiece 200 because the fixing table 400 is inserted into the slide groove 101 in a state separated from the connecting table 300, the slide groove 101 in the vertical direction There is a problem falling along.

Accordingly, the worker is holding the screw hole 311 of the connecting rod 300 with the other hand in the state in which the support holder 400 is supported by one hand so that the holder 400 does not fall, the screw hole 401 of the holder 400 is fixed. Since the fastening bolt 500 is to be fastened to communicate with it, there is a problem that the work force must be added because work alone is impossible.

In addition, the railing of the prior art is because the member constituting the slide groove 101 shown in Figure 1 is made of a separate member from the support 100 is coupled to the support 100, the rigidity of the support 100 is weakened In particular, there is a problem in that the durability is reduced as the rigidity of the portion where the connecting table 300 and the fixing table 400 to which the impact applied to the crosspiece 200 is transmitted is weakened.

The present invention was created in order to solve the problems of the prior art described above, as well as the detachable assembly of the tubular cross-section coupled to the support, as well as by the member connecting the cross to the support while moving along the rail. The purpose is to provide a prefabricated handrail provided with a means for reinforcing the assembly, and a means for reinforcing the rigidity of the coupling portion coupled to the crossbar and the support.

Prefabricated handrail of the present invention for achieving the object as described above is installed on the ground at equal intervals to provide a support; A fastener which fixes the lower end of the strut integrally to the ground to fix the strut to the ground in a vertical state; A tubular crosspiece spaced apart in a horizontal state along a longitudinal direction of the post fixed in a vertical state by the fastener and having a length; And fixing means for detachably fixing the crosspiece to the support, wherein the fixing means comprises: a vertical rail formed in a groove shape along a longitudinal direction of the support; A locking projection protruding inwardly of the vertical rail and formed along a longitudinal direction of the post; One end part is inserted into the vertical rail, and a part of one end part is moved while sliding along the vertical rail while being inserted into the vertical rail as the locking jaw is caught, and the other end bent at one end part of the vertical rail. A bending bracket which protrudes outward and is coupled to an end of the crosspiece; A fastening bolt connecting the cross member to the bending bracket while penetrating the other end of the bending bracket and the end of the cross member; And a fixing bolt that fixes the crossbar to the support while being fastened to the support by passing through the bending bracket and the locking jaw where the end of the cross is fastened by the fastening bolt.

According to the prefabricated handrail of the present invention as described above, since the crosspiece which is fixed in the horizontal state to the support is detachably fixed to the support by the fixing means, the assemblability can be improved, in particular the bending bracket constituting the fixing means Since the crossbar can be fixed to the bending bracket after fixing to the crossbar, the crossbar can be easily assembled on both sides of the support without additional manpower.

In particular, the crossbar is connected to the bending bracket by the connector so that the crossbar can be easily assembled, and the deformation projection provided on the insert pipe constituting the connector is elastically deformed and adheres to the inside of the crossbar so that the insert pipe is firmly attached to the crossbar. Can be fixed.

1 is a perspective view showing a railing structure of the prior art.
Figure 2 is a longitudinal sectional view showing a prefabricated handrail according to the first embodiment of the present invention.
Figure 3 is a side cross-sectional view showing a prefabricated handrail according to the first embodiment of the present invention.
Figure 4a is a cross-sectional view showing a reinforcing member of the present invention.
Figure 4b is a sectional view showing another embodiment of the reinforcing member according to the present invention.
Figure 5 is a longitudinal sectional view showing a prefabricated handrail according to the second embodiment of the present invention.
Figure 6 is an exploded perspective view showing a prefabricated handrail according to a second embodiment of the present invention.
Figure 7 is a cross-sectional view showing a prefabricated handrail according to the second embodiment of the present invention.
8 is a plan sectional view according to another embodiment of the support shown in FIG.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted.

The prefabricated handrail according to the first embodiment of the present invention includes, for example, a support 10, a fastener 20, a crossbar 30 and a fixing means 40 as shown in FIG. Can be configured.

The strut 10 is a member which is provided at equal intervals on the ground of a part of a sidewalk, a bicycle road or a promenade as shown in FIG. 2 to provide a supporting force, as shown in a perspective view in FIG. It may be formed in the form.

The fastener 20 is a component for fixing the lower end of the support 10 integrally to the ground to fix the support 10 to the ground in a vertical state. Such fastener 20 may be configured to include a base 21 and a fixing member, for example, as shown in the lower left of FIG.

Foundation base 21 is made of concrete and as shown in Figure 2 as the lower end portion of the support 10 is embedded in the ground in the state is inserted into the ground to fix the support 10 to the ground.

The fixing member is provided at the lower end of the support 10 to be inserted into the foundation 21 together with the support 10 to fix the support 10 to the foundation 21 and at the same time prevent the crack of the foundation 21. to be.

For example, the fixing member may be configured as a coil spring 22 penetrating horizontally to the lower end of the support 10, as shown in the lower left of FIG.

As shown in FIG. 2, the coil spring 22 penetrates the lower end of the support 10, and both ends protrude to both sides of the support 10, and adhere to the concrete constituting the foundation 21 through the protruding portion. It is to strengthen the tensile strength of the concrete while fixing the struts (10) in the state caught in the concrete.

Therefore, the support 10 may be firmly fixed to the base 21 by the coil spring 22, and the base 21 may be prevented from cracking because the tensile strength of the concrete is strengthened by the coil spring 22. Can be.

In this case, the coil spring 22 may be formed in plural and penetrate the lower end of the support 10, and may be formed to be long while being installed while passing through the lower end of the support 10 in a zigzag form.

In addition, the coil spring 22 may be installed in the support 10 in a state in which a core material, such as a bolt or pin, is inserted into the coil spring 22. The core material expands the adhesion area with the concrete inside the coil spring 22, thereby improving the fixing property of the support 10. Therefore, the support 10 may be more firmly fixed to the base 21 by the core provided in the coil spring 22.

On the other hand, the fixing material may be composed of a through pin 23 and a facet 24 as shown in the lower right of FIG.

Through pin 23 is composed of a FRP bar or reinforcing bar as shown in Figure 2 as installed through the support 10, both ends protrude to both sides of the support (10). Here, FRP bar (Fiber Reinforced Polymer) refers to a member formed in the form of a bar made of a fiber mixed polymer, and is formed by containing special fibers such as carbon fiber, glass fiber or aramid fiber in the base material mainly composed of thermosetting resin. Because of its material properties, it has high corrosion resistance, light weight and high modulus of elasticity.

The facet 24 is bent in a semicircle shape at the lower end of the support 10, as shown in the lower right end of Figure 2, both sides are fixed to both ends of the through pin 23, respectively, made of a wire mesh or FRP fabric. Therefore, the concrete constituting the base 21 is strengthened by the tensile strength by the surface 24 formed in the form of a net can be prevented from cracking.

On the other hand, unlike the above-described fastener 20, for example, as shown in Figure 5 may comprise an anchor bolt 25, anchor bracket 26 and yoke 27.

The anchor bolt 25 is integrally fixed to the foundation embedded in the ground not shown as shown in Figure 5 protrudes to the top of the foundation. The anchor bracket 26 is fixed to the anchor bolt 25 is fixed to the base object as shown. The yoke 27 is integrally provided at the lower end of the support 10 as shown.

The fastener 20 secures the support 10 to the ground while the anchor bracket 26 and the yoke 27 are fixed by the fixing member 28 such as a bolt as shown in FIG. 5. Therefore, the support 10 may be angle-adjusted by the anchor bracket 26 and the yoke 27.

Meanwhile, the crossbar 30 is a tubular member spaced apart in a horizontal state along the longitudinal direction of the support 10 as shown in FIG. 2, for example, as shown in FIG. 3. ) Is formed in front, and both sides of the vertical portion 31 has a horizontal portion 32 extending in a right angle state, and both ends of the horizontal portion 32 are vertically bent in a direction parallel to the vertical portion 31, respectively. It can be comprised by the bending end 34 which forms the opening opening 33 in the back of the part 31. That is, the crosspiece 30 may be extruded in a substantially 'c' shape.

The fixing means 40 is a means for detachably fixing the crossbar 30 to the support 10. For example, as shown in FIG. 3, the horizontal rail 41, the fixing bolt 42, and the fixing nut ( 43) and the reinforcing member can be configured.

The horizontal rail 41 is formed along the longitudinal direction of the vertical portion 31 on the inner surface of the vertical portion 31, as shown in Figure 3, protruding in the opposite state to form a hook has a length in the horizontal direction .

The fixing bolt 42 is a member for fixing the crossbar 30 to the support 10 in a state capable of horizontal movement, and as shown in FIG. 3, the head 41a is fitted to the horizontal rail 41. The roller 42 is movably fixed to the horizontal rail 41, and the threaded portion 42b protrudes through the opening 33 of the crossbar 30 to penetrate the post 10.

The fixing bolt 42 may be installed on the support 10 by the fixing nut 43 after being fitted to the horizontal rail 41 at the assembly site, unlike the support 10 by the fixing nut 43 at the factory. It may also be preassembled.

The fixing nut 43 is integrally fixed to the strut 10 while being fastened to the screw portion 42b of the fixing bolt 42 penetrating the strut 10, as shown in FIG.

That is, the crossbar 30 is coupled to the fixing bolt 42 to be movable along the longitudinal direction while the horizontal rail 41 is caught in the head portion 42a of the fixing bolt 42, the fixing nut 43 The head portion 42 is fixed to the support 10 while supporting the inside of the horizontal rail 41 by the fastening force of.

Therefore, the crossbar 30 can be fixed to the support 10 in a state locked to the fixing bolt 42 can be assembled to the support 10 without supporting through a separate attraction, the coupling of the fixing bolt 42 The site can be assembled to the strut 10 without exposing it forward.

The reinforcing member is a member for reinforcing the rigidity of the crossbar 30 by providing a support force to the inside of the crossbar 30 whose rigidity is weakened by the opening 33 protruding from the screw portion 42b of the fixing bolt 42. For example, it may be configured as a reinforcing spring 44 as shown in FIG.

Reinforcement spring 44 is fitted to the threaded portion (42b) of the fixing bolt 42, as shown in Figure 3, while being compressed by the fastening force of the fixing nut 43, the end of the horizontal rail 41, that is, crossbar 30 The inner side of the vertical part 31 which comprises () is elastically supported.

Therefore, the crossbar 30 may be improved in durability as the rigidity of the vertical portion 31 is reinforced by the reinforcing spring 44.

The reinforcing member may be configured as a honeycomb 45 formed between the vertical portion 31 and the bent end 34 in the same manner as the crossbar 30, as shown in FIG. 4A, as described above. .

The honeycomb 45 is formed of at least one through hole 45a on the inner side of the bent end 34 and a part of the horizontal portion 32 and the vertical portion 31 as shown in FIG. 4A, and the through hole 45a. Reinforcing the rigidity of the crossbar 30 through the elastic force of the shock absorber to the crossbar 30.

Here, the reinforcing member is composed of a groove 35 formed in the groove shape on the front of the vertical portion 31 as shown in Figure 4a may reinforce the rigidity of the vertical portion 31.

On the other hand, the reinforcing member is different from the above, for example, as shown in Figure 4b, while being formed in the same body inside the crossbar 30, both ends are respectively connected to the inner surface of the vertical portion 31 and the bent end 34, respectively. It can also be configured as a connecting plate 46.

The connecting plate 46 reinforces the rigidity of the crossbar 30 while elastically supporting the bent end 34 and the vertical portion 31 through the curved surface as shown in FIG. 4B.

Meanwhile, as shown in FIG. 2, the present invention may further include a connection member 50 connecting one end of the crossbar 30 to one end of another crossbar 30 '.

The connecting member 50 may include, for example, a connecting table 51 and a connecting screw 52 as shown in FIG. 2.

The connecting rod 51 is formed in a shape corresponding to the inner surface of the crosspiece 30 as shown in FIG. 3 so that both ends of the crossbar 30 and another crossbar 30 'are shown on both sides as shown in FIG. Are inserted separately.

The connecting screw 52 is fastened to the connecting rod 51 while passing through the crosspiece 30 and another crossbar 30 ', respectively, as shown in FIG. 2 to connect the crossbar 30 and another crossbar 30'. Fix it in the state. The connecting screw 52 is fastened to the connecting rod 51 while passing through the crossbar 30 and another crossbar 30 ', that is, the bent end 34 described above.

Therefore, the crossbar 30 can be connected to another crossbar 30 'without exposing the connecting portion, and the connecting portion is reinforced.

On the other hand, the present invention can be configured to further include a hand rail 60 is installed in a horizontal state on the top of the support 10 as shown in Figure 2 to provide a handle.

Handrail 60 is formed in a tubular shape as shown in Figure 2, as shown in Figure 3 is provided with a gripping portion 61 is formed in a semi-circular upper portion, a lower portion of the holding portion 61 A flat mounting part 62 is formed and is mounted on the upper end of the support 10, and shielding wings 63 are formed to extend on both ends of the holding part 60 in the same manner to shield the seating part 62. .

This handrail 60 is fixed integrally to the top of the support 10 by a rail fastener.

The rail fastener may include, for example, a rail bracket 64, a rail screw 65, and a rail connecting rod 66 and a connecting screw 67 as shown in FIG. 2.

The rail bracket 64 is formed of a 'b' type angle as shown in Figure 3, a pair of a pair, one side is facing the seating portion 62 of the hand rail 60 and the other side is a support ( 10) Each side is fixed by bolting.

The rail screw 65 is fastened to the seating portion 62 of the hand rail 30 while passing through the rail bracket 64 as shown in FIG. 3 to fix the hand rail 30 to the upper end of the support 10. .

The rail connecting rod 66 and the connecting screw 67 are members for connecting the handrail 60 to another handrail 60 'as shown in FIG. 2, and correspond to the inner surface of the handrail 60. One end of the handrail 60 and the other handrail 60 'is inserted into both sides of the rail connecting member 66, and the connecting screw 67 connects the handrail 60 and the other handrail 60'. It is fastened to the rail connecting portion 66 while passing through each.

Prefabricated handrail according to the first embodiment of the present invention including such a component is a tubular body having a horizontal rail 41 on the inside of the vertical portion 31 while the crossbar 30 has an opening 33 on one side. Since it is formed in the form of extrusion molding is possible mass production is possible, in particular, since the horizontal rail 41 is installed in the support (10) in a state caught on the fixing bolt 42 can move in the horizontal direction of the support (10) It is possible to adjust the fixed position as well as can be fixed to the holding (10) alone without additional personnel.

In addition, since the inner side of the vertical portion 31 is elastically supported by the reinforcing spring 44 constituting the reinforcing member, the rigidity of the crossbar 30 weakened by the opening 33 can be reinforced, and the reinforcing member is The honeycomb 45 or the connecting plate 46 is configured to cushion the impact on the inside of the crossbar 30 so that durability of the crossbar 30 may be improved.

In addition, the crossbar 30 may be connected to another crossbar 30 'by the connecting member 50 without exposing the connecting portion, and the fixing bolt 42 is shielded inside the crossbar 30 so that the aesthetics of the railing may be Can be improved.

Since the base 21 constituting the fastener 20 is fixed to the lower end of the support 10 by the fixing member, the support 10 can be firmly fixed to the ground.

In particular, the coil spring 22 constituting the fixing member protrudes on both sides of the support 10 to strengthen the tensile strength of the concrete while fixing the support 10 to the concrete of the foundation 21 so that the foundation 21 Cracking is prevented so that the support 10 can be fixed in a vertical state without shaking.

On the contrary, when the fixing member is composed of a facet 24 fixed to the through pin 23, the tensile strength of the concrete may be further enhanced by the mesh facet 24.

Furthermore, a handle may be provided by the hand rail 60 provided on the upper end of the support 10, and since the hand rail 60 is fixed to the support 10 by a rail fastener, the support rail 60 may be supported by the support rail 60. 10) as well as fixed in the assembled state can be easily connected to another handrail (60 ').

On the other hand, Figure 5 shows a prefabricated handrail according to a second embodiment of the present invention.

The prefabricated handrail according to the second embodiment is different from the first embodiment in the form of the support 10 and the crosspiece 30 and the fixing means 40, and overlapping description of the components will be omitted.

The post 10 according to the second embodiment is formed as a rectangular tube as shown in Figs. 5 and 6 and fixed to the ground by the fastener 20 described above, the crossbar 30 is fixed means 40 It is fixed to both sides by).

The crossbar 30 is formed in a circular or polygonal tubular body as shown in Figure 6 and 7, both ends are fixed to the side of the support 10 by the fixing means (40).

The fixing means 40 according to the second embodiment is, for example, a vertical rail 71, a locking jaw 72, a bending bracket 73, a fastening bolt 74 and a fixing bolt 75 as shown in FIG. It can be configured to include.

As illustrated in FIG. 7, the vertical rails 71 are formed in grooves along the length direction on both sides of the support 10.

As illustrated in FIG. 6, the locking jaw 72 protrudes from one side of the vertical rail 71 and is formed along the longitudinal direction of the support 10.

The bending bracket 73 is a member fixed to the end of the crosspiece 30, and is formed in a 'b' shape as shown in Figure 6, one end is inserted into the vertical rail 71, a part of the locking jaw 72 Sliding along the vertical rail (71) while moving in the state of being locked to the locking jaw 72 by the fixing bolt 75 to be described later, and then the other end protruding to the outside of the vertical rail (71) ) Are combined.

The fastening bolt 74 connects the crossbar 30 to the other end of the bending bracket 73 while passing through the ends of the bending bracket 73 and the crossbar 30 as shown in FIG. 6.

Fixing bolt 75 is passed through the bending bracket 73 inserted into the locking jaw 72 and the vertical rail 71 as shown in Figure 7 is fastened to the support (10) while holding the crossbar 30 (10) ).

On the other hand, the fixing means 40 of the second embodiment further comprises a connector 76 which detachably connects the crossbar 30 to the bending bracket 73 through the fastening bolt 74 while forming the end of the crossbar 30. Can be configured. That is, the crossbar 30 described above may be detachably connected to the bending bracket 73 through the connector 76. Of course, the crossbar 30 is connected to the bending bracket 73 at the end through the fastening bolt 74 when there is no connector 76.

The connector 76 may include, for example, an insertion tube 76a, a stopper 76b, and an adhesive bracket 76c, as shown in FIG.

Insertion tube (76a) is forcibly fitted to the end of the crossbar 30, as shown, the end of the crossbar 30, a plurality of deformation projections (76a) is rubbed with the inner peripheral surface of the crossbar 30 is provided on the outer peripheral surface. . As shown in FIG. 7, the deformation protrusion 76a is elastically deformed when the insertion tube 76a is inserted at the end of the crossbar 30 so that the insertion tube 76a inserted into the crossbar 30 is crossbar 30. To prevent deviations from

The stopper 76b protrudes in the form of a flange at the end of the insertion tube 76a as shown, so that the end of the crossbar 30 when the insertion tube 76a is inserted into the crossbar 30 as shown in FIG. 7. While limiting the insertion depth of the insertion tube (76a) is inserted into the crosspiece 30.

The close contact bracket 76c protrudes to one side of the stopper 76b as shown, is in close contact with the other end of the above-described bending bracket 73, and the fastening bolt 74 is penetrated, and is shown in FIG. 7. As it is fastened to the bending bracket 73, the insertion tube 76a constituting the end of the crossbar 30 is fixed to the bending bracket 73 to connect the crossbar 30 to the bending bracket 73.

In conclusion, the crossbar 30 is detachably fixed to the bending bracket 73 inserted into the vertical rail 71 of the support 10 through the connector 76 as shown in FIG.

Here, the fixing bolt 75 may reinforce the rigidity of the support 10 by the reinforcing spring 75a fitted to the outer circumferential surface and the nut 75b fastened to the end as shown in FIG. At this time, the reinforcing spring (75a) resiliently supports the locking jaw 72 as shown to reinforce the rigidity of the locking jaw 72, the elastic force is adjusted according to the fastening force of the nut (75b). Therefore, the support 10 is reinforced by the elastic force of the reinforcing spring (75a) of the locking jaw 72 against the external impact of the support (10). That is, the locking jaw 72 is not easily cut or bent because the reinforcing spring 75a is elastically supported even when an external shock is applied to the support 10.

On the other hand, the support 10 may be provided with the same honeycomb (15) consisting of at least one through-hole (15a) on both sides of the engaging jaw 72 and the vertical rail 71 as shown in FIG. have.

The honeycomb 15 disperses the impact when an impact is generated on the locking jaw 72, which is a portion where the bending bracket 73 is fixed, and is applied to the locking jaw 72 through the bending bracket 73. Shock).

On the other hand, as the locking jaw 72 is extended in an overlapping state as shown in FIG. 8 may be provided with a folding wing 72a is bent elastic bending portion 72b.

The folding wing 72a is penetrated by the fixing bolt 75 together with the locking jaw 72 as shown in FIG. 8, and provides an elastic force to the locking jaw 72 through the elastic bending part 72b. To mitigate the impact on 10).

Therefore, the locking jaw 72 is reinforced by the fold wing 72a and the elastic bending portion 72b can be improved durability.

According to the prefabricated handrail according to the second embodiment of the present invention, the bending bracket 73 moving along the vertical rail 71 formed in the same body in the support 10, first, the support bolt (75) to the support (10) ) So that the crossbar 30 can be fixed to the bending bracket 73, so that the crossbar 30 can be easily assembled on both sides of the support 10 without additional manpower.

In particular, since the crossbar 30 is connected to the bending bracket 73 by the connector 76 in an assembled state, the crossbar 30 can be easily assembled and provided in the insertion pipe 76a constituting the connector 76. Since the deformation protrusions 76a-1 closely contact the inside of the crossbar 30 while elastically deforming, the insertion pipe 76a may be firmly fixed to the crossbar 30.

In addition, since the rigidity of the locking jaw 72 is reinforced by the honeycomb 15 or the folding wing 72a and the elastic bending portion 72b provided in the locking jaw 72, the impact applied through the bending bracket 73. This buffer can be improved durability of the support (10).

While specific embodiments of the present invention have been described above by way of example, these are for illustrative purposes only and are not intended to limit the protection scope of the present invention. It will be apparent to those skilled in the art that various changes, substitutions, and alterations can be made therein without departing from the spirit of the invention.

10: holding 20: fastener
21: foundation base 22: coil spring
23: through pin 24: polyhedron
30: crosspiece 31: vertical part
32: horizontal portion 33: opening
34: bending end 40: fixing means
41: horizontal rail 42: fixing bolt
43: fixing nut 44: reinforcing spring
45: hicom 50: connection member
60: hand rail 71: vertical rail
72: jam jaw 73: bending bracket
74: fastening bolt 75: fixing bolt
76 connector 76a insertion tube
76b: stopper 76c: close contact bracket

Claims (4)

Shore is provided on the ground at equal intervals to provide support;
A fastener which fixes the lower end of the strut integrally to the ground to fix the strut to the ground in a vertical state;
A tubular crosspiece spaced apart in a horizontal state along a longitudinal direction of the post fixed in a vertical state by the fastener and having a length; And
And fixing means for detachably fixing the crosspiece to the post.
Wherein,
Vertical rail formed in the groove shape along the longitudinal direction of the support;
A locking projection protruding inwardly of the vertical rail and formed along a longitudinal direction of the post;
One end part is inserted into the vertical rail, and a part of one end part is moved while sliding along the vertical rail while being inserted into the vertical rail as the locking jaw is caught, and the other end bent at one end part of the vertical rail. A bending bracket which protrudes outward and is coupled to an end of the crosspiece;
A fastening bolt connecting the cross member to the bending bracket while penetrating the other end of the bending bracket and the end of the cross member; And
And a fixing bolt that fixes the crossbar to the post while being fastened to the post by passing through the bending bracket and the locking jaw where the end of the cross is fastened by the fastening bolt. The method of claim 1,
A connector installed at an end of the cross section to form a cross section of the cross section and detachably connects the cross section to the bending bracket through the fastening bolt;
Wherein the connector comprises:
An insertion tube provided with a plurality of deformed protrusions on the outer circumferential surface of the cross section, the end portions of the cross section forming an end portion of the cross section;
A stopper protruding in the form of a flange at an end of the insertion tube and limiting an insertion depth of the insertion tube inserted in the horizontal direction while being caught by the end of the crosspiece; And
Protruding to one side of the stopper, in close contact with the other end of the bending bracket, the fastening bolt is penetrated through the fastening bracket is fastened to the bending bracket to form the end of the crossbar to the bending bracket to fix the crossbar Prefabricated railings including; close contact brackets connected to the bending bracket. The method of claim 1,
Reinforcing means for providing a support force to the locking jaw to reinforce the rigidity of the locking jaw;
The reinforcement means,
A reinforcing spring fitted to the fixing bolt and resiliently supporting the locking jaw to reinforce the rigidity of the locking jaw; And
And a nut fastened to the fixing bolt penetrating the locking jaw to adjust the elastic force of the reinforcing spring. The method of claim 1, wherein the fastener,
An anchor bolt integrally fixed to a foundation embedded in the ground and protruding to an upper portion of the foundation;
An anchor bracket fixed to the anchor bolt; And
And a yoke provided at the bottom of the support and fixed to the anchor bracket with bolts.

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