KR101689721B1 - Post of soundproof fence and mounting structure of soundproof fence using the same - Google Patents

Abstract

The present invention relates to a post for a false-sounding fence and a structure for installing a false-sound-proofing fence using the same. More particularly, the present invention relates to a post for a false-sounding fence that can be easily fitted and fixed, And to prevent a noise or dust from flowing out to the outside.
The post for a false-sound-absorbing fence according to the present invention is characterized in that a post is fixed to a scaffold pipe mounted with a plurality of pipe connectors spaced apart in the longitudinal direction by clamping of a scaffold clamp, An upper flange including a base plate and guide rails formed on both sides of the base plate so that the scaffold clamp can be fitted therebetween; a lower flange facing the upper flange and having a planar shape; And a web which connects the upper flange and the lower flange, wherein a panel fitting part is formed between the base plate and the lower flange so that the soundproof panel can be fitted to both sides of the web, And a contact groove is formed between the guide rails.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a soundproof fence post,

The present invention relates to a post for a false-sounding fence and a structure for installing a false-sound-proofing fence using the same. More particularly, the present invention relates to a post for a false-sounding fence that can be easily fitted and fixed, And to prevent a noise or dust from flowing out to the outside.

Generally, dust and noise are generated during construction process at construction site or construction site.

This leads to serious pollution on the roads and residential areas around the building. Therefore, a temporary soundproofing fence is installed in the vicinity of the construction site or the construction site to prevent dust or noise from flowing out.

A related art related to this is disclosed in Korean Patent Registration No. 10-0191056, which discloses a dust and noise insulating building structure.

FIG. 1 is an exploded perspective view of a dust and noise shielding building structure according to the prior art, and FIG. 2 is a rear perspective view of a dust and noise shielding construction structure according to the prior art.

Referring to FIGS. 1 and 2, a dust and noise isolation building structure 100 according to the related art includes a dust / noise isolation panel 100 by inserting / processing one end of the dust / noise isolation panel 100 into a guide groove 111, The vertical guide frame 130 supports the vertical end of the vertical guide frame 130 in the vertical direction at the right and left ends of the vertical guide frame 130 and the guide groove 111 of the vertical guide frame 130, Shaped vertical guide frame 110 for allowing the dust and noise shielding panel to be grafted / adjoined in the channel-type end horizontal guide frame 120-1 supporting the hood 100 in the horizontal direction and the graft- And a frame 120.

The scaffold clamp 113 is welded and fixed to the rear surfaces of the vertical guide frames 110 and 130 at appropriate vertical and vertical intervals so that the vertical guide frames 110 and 130 are fixed to the vertical support rods 141 To the horizontal support rods 142 to thereby provide the dust and noise isolation building structure 100 to the scaffold 141. [

The dust and noise isolation building structure 100 according to the related art has a merit that installation and disassembly are comparatively simple compared with the existing system.

However, since the vertical guide frames 110 and 130 of the dust and noise barrier construction structure 100 are formed in an H beam shape and there is no separate scaffold clamp mounting portion 113, the scaffold clamp 113 is welded Is required.

Therefore, it takes a long time for installation and removal due to the welding process, and there is a problem that the vertical guide frames 110 and 130 welded once can not be reused. In addition, there is a problem that the installation position of the scaffold clamp 113 is fixed and the installation process is not flexible.

KR 10-0191056 B1 KR 20-0267622 Y1

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems described above and to provide a temporary soundproofing fence having a guide rail and a panel fitting part to facilitate fixing of a soundproof panel and to simplify installation of a temporary soundproofing fence, For example.

Furthermore, a temporary soundproofing fence using a post for a hypothetical soundproofing fence is provided in which the scaffold clamp inserted in the post is in contact with the pipe connecting opening of the scaffold pipe and the protruding portion of the pipe connecting hole is tightly fixed to the post- Structure.

According to an aspect of the present invention, there is provided a post for a fusible sound insulation fence comprising: a plurality of pipe connection ports fixed to a scaffold pipe mounted along a longitudinal direction by clamping a scaffold clamp, A lower flange opposed to the upper flange and formed in a planar shape; and an upper flange provided on the upper flange, the upper flange including a base plate and guide rails formed on both sides of the base plate so that the scaffold clamp can be fitted, ; And a web which connects the upper flange and the lower flange, wherein a panel fitting part is formed between the base plate and the lower flange so that the soundproof panel can be fitted to both sides of the web, And a contact groove is formed between the guide rails.

In addition, the guide rail is formed by bending the edge of the upper flange outward, and has a cross-sectional shape of '┓' and '┏' in left and right symmetry.

According to another aspect of the present invention, there is provided a construction for installing a fusible sound insulation fence, comprising: a scaffold having a plurality of vertical scaffold pipes and horizontal scaffold pipes in a lattice shape; a post according to claim 1 or 2 clamped to the vertical scaffold pipe; A hypothetical sound-proofing fence comprising a sound-absorbing panel sandwiched and fixed to the panel fitting portion; And a scaffold clamp for clamping the post to the vertical scaffold pipe.

In addition, the scaffold clamp includes a body for holding the vertical scaffold pipe and a moving plate installed at a lower portion of the body, wherein the moving plate is inserted into the guide rail and slidable in the longitudinal direction And a guide groove is formed.

In addition, a plurality of beads are formed on the bottom of the edge of the moving plate so as to control sliding of the moving plate.

Further, as the moving plate is fitted to the guide rail, the projecting portion is brought into close contact with the contact groove.

Meanwhile, the posts are stacked on the vertical scaffold pipes in order, so that the temporary sound-proof fences can be installed upwards from the lower side of the scaffold in a block unit, and the sound- And each is fixed by being fitted in the single post.

Further, the post is clamped to the vertical scaffold pipe while the scaffold clamp is in contact with the pipe connector.

The post for a false-sound-absorbing fence according to the present invention has a guide rail and a panel-fitting part to facilitate fixing of the sound-absorbing panel, to allow the temporary sound-absorbing fence to be easily installed in the scaffold, and to shorten the installation time of the temporary sound- have.

In addition, the construction for installing the false-sound-proofing fence using the post for a false-sound-absorbing fence is provided in such a state that the scaffold clamp inserted in the post is in contact with the pipe connecting port of the scaffold pipe and the protrusion of the pipe connecting port is tightly fixed to the post- Can be further strengthened.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of a dust and noise isolation building structure according to the prior art; FIG.
2 is a rear perspective view of a dust and noise shielding building structure according to the prior art;
3 is a perspective view of a post for a false-sound-insulating fence according to the present invention.
4 is a front view of a post for a false-sounding fence according to the present invention.
FIG. 5 is a perspective view showing a state in which a scaffold clamp is mounted on the post of FIG. 3;
6 is a perspective view of a structure for installing a false-sound-insulating fence according to the present invention.
7 is a cross-sectional view taken along line XX of Fig.
8 is an enlarged perspective view of a portion A of Fig. 6;
9 is a cross-sectional view showing a process in which a pipe connector is closely attached to a contact groove of a post.

Hereinafter, a structure for installing a hypothetical soundproofing fence according to the present invention and a structure for installing a hypothetical soundproofing fence using the same will be described with reference to the accompanying drawings.

Generally, a hypothetical soundproofing fence is manufactured by arranging a plurality of linear H-beam-shaped posts side by side and fixing a plurality of soundproofing panels by sandwiching the side panels. Such a hypothetical soundproofing fence is fixed to a scaffold installed around a construction site or construction site through a scaffolding clamp. Vertical scaffolding pipes and horizontal scaffolding pipes are installed in a lattice form. In the scaffolding pipe, a plurality of pipe connecting openings are welded so as to be spaced along the longitudinal direction.

The post for a false-sounding fence according to the present invention is created in order to easily install a false-sounding fence in a scaffold.

FIG. 3 is a perspective view of a post for a false-sound-absorbing fence according to the present invention, FIG. 4 is a front view of a post for a false-sound-absorbing fence according to the present invention, and FIG. 5 is a perspective view showing a state in which a scaffold- 7 is a cross-sectional view taken along line XX of FIG. 6, FIG. 8 is an enlarged perspective view of a portion A of FIG. 6, and FIG. 9 is a cross- Fig.

(Hereinafter, referred to as " post ") according to the present invention is installed on both sides of the base plate 321b and the base plate 321b, unlike the existing H beam type posts. A lower flange 323 which is opposite to the upper flange 321 in a flat plate shape and a web 322 which connects the upper flange 321 and the lower flange 323, , Web).

The guide rail 321a is a portion where the scaffold clamp 200 is fitted and slidably engaged with the scaffold 400 in the process of clamping the scaffold 400 to the scaffold 400. The edge of the upper flange 321a is bent outward , And its cross-section is symmetrical with respect to the left and right sides, respectively, in the form of '┓' and '┏'. The slider clamp 200 has a guide groove 242 corresponding to the guide rail 321a so that the slider clamp 200 can be slidably inserted into the guide rail 321a at a lower portion of the body 200, Respectively.

The panel fitting part 325 is installed between the base plate 321b and the lower flange 323 so that the soundproof panel 340 can be fitted to both sides of the web 322 in the process of installing the temporary soundproofing fence 300 . The panel fitting portion 325 may be formed in the form of an H beam but is not limited thereto and may be variously formed according to the shape of the end portion of the soundproof panel 340.

An adhesive groove 324 is formed between the guide rails 321a provided on both sides of the upper flange 321 so that the pipe connecting hole 450 can be closely contacted when the clamp is fastened. A detailed description of the functions of the guide rail 321a and the contact groove 324 will be given later.

According to the configuration of the present invention, since the panel fitting portion 325 is provided on the side of the post 320, the soundproof panel 340 can be easily fitted and fixed, and the scaffold clamp 200 is slidingly coupled to the guide rail 321a Unlike the prior art, it is not necessary to weld the scaffold clamp 200 to the post 320 when the hypothetical soundproofing fence 300 is installed. Therefore, the installation process can be simplified, the labor cost can be saved, and the installation time can be shortened.

Hereinafter, the 'structure for installing a false soundproofing fence using a post' (hereinafter referred to as a 'construction for installing a false soundproofing fence') according to the present invention will be described in detail.

The present invention provides a structure for installing a false soundproofing fence including a scaffold 400, a hypothetical soundproofing fence 300 including a post 320 and a soundproofing panel 340, (Not shown).

The scaffold 400 includes a plurality of vertical scaffold pipes 410 vertically installed at regular intervals on the ground and a horizontal scaffold pipe 420 coupled with each vertical pipe 410 as shown in Figures 6 and 7, And a plurality of pipe fittings 450 are mounted on the vertical scaffold pipe 410 so as to be spaced apart from each other in the longitudinal direction in order to join the scaffold pipes 410 and 420.

The workbench 430 may be installed on each of the horizontal scaffold pipe 420 and the vertical scaffold pipe 410 so as to facilitate the installation of the temporary sound fence 300. The pipe connection port 450 may be configured in various forms. However, in order to install the scaffold pipes 410 and 420 in a lattice shape, the pipe connection port 450 may include four protrusions 450a orthogonal to each other. In each protrusion 450a, A fastening groove 450b is formed so that the end of the fastening member 420 is screwed.

5, the scaffold clamp 200 includes a body 220 binding the vertical scaffold pipe 410 and a moving plate 240 installed at the bottom of the body 220, 220 includes a fixed body 222, a rotating body 224 rotatably coupled to one side of the fixed body 222, and a bolt 226 and a nut 228 as tightening means for binding the scaffold pipe. Here, the moving plate 240 may be formed on the lower part of the body 220 or may be mounted separately. Since the scaffold clamp 200 can be moved without being fixed at any position on the post by the moving plate 240, the fixed position of the scaffold clamp 200 on the post 320 at the time of installing the hypothetical soundproof fence 300 It is possible to reduce the need for setting.

A guide groove 242 is formed at both edges of the moving plate 240 so that the moving plate 240 is inserted into the guide rail 321a and can be slid in the longitudinal direction and the sliding surface of the moving plate 240 is controlled A plurality of beads 244 are formed. Here, the guide grooves 242 are bent in the form of '┗' and '┗' at both edges of the moving plate, and the bead 244 is pressed at one point on the upper surface thereof to protrude into the guide groove.

The post 320 includes an upper flange 321 composed of a base plate 321b and a guide rail 321a and a web 322 connecting the lower flange 323 and the upper and lower flanges 321 and 323, And a panel fitting portion 325 and a fitting groove 324 are formed at the center portion of the side portion and the upper flange 321, respectively. The description of each constitution has been described above, however, the description thereof will be omitted.

The post 320 is fixed to the vertical scaffold pipe 410 through clamping of the scaffold clamp 200 slidably coupled to the guide rail 321a and the soundproof panel 340 is fitted and fixed to the side thereof. At this time, the post 320 is fastened to the vertical scaffold pipe 410 in such a manner that the scaffold clamp 200 abuts the pipe connector 450 so as to block the vertical movement of the scaffold clamp 200 coupled to the post 320 .

Also, the posts 320 are formed of a plurality of unit post posts 320-1, ..., and n, and are stacked on the vertical scaffold pipe 410 in order. Generally, since the scale of the scaffold is large in the construction site, it is troublesome to install a single type post 320 and safety accidents may occur. However, if the scaffold 400 is not large in size according to the circumstances, it can be manufactured as a single-type post 320.

On the other hand, in the clamping groove formed in the guide rails 321a of the upper flange 321, the pipe connector 450 is closely attached. 8, as the moving plate 240 of the scaffold clamp 200 is fitted in the guide rail 321a of the post 320, the posts 320 of the four protrusions 450a, The protruding portion 450a can be brought into close contact with the contact groove 324 to be restrained. The tightening force can be enhanced by tightening the tightening means 226 and 228 in a state where the vertical scaffold pipe 410 is coupled to the inside of the body 220 of the scaffold clamp 200. The clamping process described above includes both the process of inserting the moving plate 240 into the guide rail 321a and the clamping of the tightening means 226 and 228 to the vertical scaffold pipe 410 bound to the scaffold clamp 200 .

According to the configuration of the present invention, the scaffold clamp 200 is installed while being in contact with the pipe connector 450 at the time of clamping, and the protruding portion 450a of the pipe connector 450 is closely contacted with the contact groove, ) Can be firmly installed.

The soundproof panel 340 is composed of a plurality of unit panels 340-1 to 340-n and has a predetermined width and height. The posts 320, which are fastened to the vertical pipe 410 of the scaffold 400, And is fixed to the panel fitting portion 325. [ Since the posts 320 are formed by sequentially stacking the unit posts 320-1 to 320-n, the soundproof panel 340 is divided into the unit posts 320-1, As shown in Fig. For example, the unit post 320-1 is fastened to the lowermost end of the vertical scaffold pipe 410, and the unit panel 340-1 is fixed by sandwiching the unit post 340-1. The next unit post 320-1 is placed on the lowermost unit post 320-1. 2, and the unit panel 340-2 can be sandwiched and fixed.

The installation structure of the temporary sound insulation fence 300 according to the present invention can be installed sequentially from the lower side of the scaffold to the upper side in block units by this method. Needless to say, the present invention is not limited to this, but may be fixed to the upper portion of the post 320 by being inserted into the single post 320 in order.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken in conjunction with the present invention. It is to be understood that various equivalents and modifications may be substituted for those at the time of the present application.

200: scaffold clamp 220: body
240: moving plate 242: guide groove
244: Bead 300: Hypodermic fence
320: post 321: upper flange
321a: guide rail 321b: base plate
322: web 323: bottom flange
324: tight groove 325: panel fitting portion
340: soundproof panel 400: scaffold
410: vertical scaffold pipe 420: horizontal scaffold pipe
430: worktable 450: pipe connector

Claims (8)

A post for a false-sounding fence in which a plurality of pipe connectors are fixed by clamping of a scraper clamp to a scaffold pipe mounted so as to be spaced apart in the longitudinal direction,
An upper flange comprising a base plate and guide rails which are arranged on both sides of the base plate so that the scaffold clamp can be fitted;
A lower flange facing the upper flange and having a planar shape; And
And a web connecting the upper flange and the lower flange,
A panel fitting part is formed between the base plate and the lower flange so that the soundproof panel can be fitted to both sides of the web, and when the clamp is clamped, the scaffold clamp is installed in contact with the pipe connecting hole, Is formed between the guide rails so that the protruding portions of the protrusions are inserted and closely contacted with each other. The method according to claim 1,
Wherein the guide rail is formed by bending the edge of the upper flange outward and being formed in a shape of '┓' and '┏' in cross-section symmetrically. A scaffold in which a plurality of vertical scaffold pipes and horizontal scaffold pipes are lattice-shaped;
A post according to claim 1 or 2 clamped to the vertical scaffold pipe; and a sound-proofing fence comprising a sound-absorbing panel sandwiched and fixed to the panel-fitting part; And
And a scaffold clamp for clamping the post to the vertical scaffold pipe. The method of claim 3,
The slider clamp includes a body for binding the vertical scaffold pipe and a moving plate installed at a lower portion of the body. The moving plate is inserted into the guide rail so as to be slid in the longitudinal direction, Is formed on the upper surface of the base member. 5. The method of claim 4,
Wherein a plurality of beads are formed on a bottom surface of the moving plate so as to control sliding of the moving plate. 5. The method of claim 4,
And the projecting portion is in close contact with the contact groove as the moving plate is fitted to the guide rail. The method of claim 3,
Wherein the pseudo-acoustic fence is installed in a block unit upward from below the scaffold,
Wherein the posts are fastened to the vertical scaffold pipe so that a plurality of unit posts are stacked in order from the lowermost end to the uppermost end of the vertical scaffold pipe, wherein the soundproof panel comprises a plurality of unit panels, Wherein the fixing member is fixed to a single post. The method of claim 3,
Wherein the posts are clamped to the vertical scaffold pipe with the scaffold clamp in abutment with the pipe connector.

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