KR101085031B1 - Street facility setting stand - Google Patents

Abstract

The present invention relates to a street facility installation stand. Horizontal facility installation stand according to the present invention is a tubular body fixedly installed from the ground vertically, and the posts are formed with through holes in each of the front and rear sides; An arm that is horizontally coupled to the front side of the strut, the arm having engaging ribs protruding around the inner circumferential surface of the end opening; A tubular body inserted into and fixed to the front through hole of the support, the outer diameter of which is formed to correspond to the diameter of the through hole of the support, and the inner diameter of the first coupling pipe configured to be tapered so as to narrow from the front to the rear; A tubular body inserted into and fixed to the rear through hole of the support, wherein the outer diameter is formed to correspond to the diameter of the through hole of the support, and the inner side has a second coupling provided with a coupling rib which is bolted against the coupling rib formed at the end of the arm. Tube; The rear end of the arm is inserted into the front side, and the rear side is a tube body inserted into and coupled to the first coupling tube. The taper is tapered so that the outer diameter becomes smaller toward the rear side and inserted into the tapered first coupling tube so that the inner diameter becomes smaller toward the rear side. It is coupled, the inner circumferential surface is formed horizontally in the longitudinal direction, the arm is fitted, and comprises a wedge pipe welded and fixed in the state inserted into the outer circumferential surface of the arm.

Description

Horizontal facility installation stand {INSTALL MOUNT FOR STREET FACILITY}

The present invention relates to a horizontal installation stand, and more particularly, a street light, a traffic light or a light including a support and an arm that is not exposed to the outside of the flange such as a flange, the beauty of the beauty of the splendid yet stable coupling and capable of preventing bending under load It relates to the installation of street facilities such as road signs.

Generally, street lights such as roadsides and parks to provide lighting at night, traffic lights to provide starting, stopping, and direction signals for preventing accidents during traffic, road signs for guiding the direction of traffic, etc. The facilities are installed in the same variety of streets.

The mounting table for installing such a horizontal facility at a predetermined height from the ground is composed of a pillar which is generally made of metal, and an arm extending in a horizontal direction so as to be substantially perpendicular to the pillar, and a lamp or a sign on the pillar or the arm. Going facility is installed.

1 shows a strut and arm connection structure of a conventional conventional horizontal installation fixture. As shown, the strut and arm connection structure of the conventional horizontal installation fixture, to form the T-shaped connecting portion by welding the flange (F) to the ends of the strut 10 and the arm 20 to be connected, respectively, the flange Has a structure in which a plurality of reinforcing blade pieces S are welded and fixed in a radial shape, and a bolt is inserted into each hole in a state in which holes H are aligned to face both flanges F. It is.

However, such a post and arm connection structure of the conventional horizontal facility installation unit is required to weld and fix the flange and the reinforcing blade piece one by one to each pipe, which increases manufacturing time, increases the cost, and concentrates on the pipe end. The weakness of the weld heat and deformation of the tubular body caused the shortening of the service life of the connection part, and a number of flanges, reinforcement blade pieces, and bolts protruded, resulting in poor aesthetics.

In addition, when the arm is formed to extend horizontally long, there has been a problem that it is easily bent, deformed or broken by the load of the installed facility or the load of the arm itself.

The present invention is to solve the above problems, it is possible to reduce the manufacturing time and cost savings by simplifying the structure of the strut and the arm mounting of the horizontal facility installation, and the connector such as flanges and reinforcement wings, bolts, etc. is not exposed to the outside It is not only to provide a beautiful appearance, but also to provide a cross-section installation stand that can improve the coupling stability, ease of construction and maintenance, and prevent the bending of the arm by load due to the firm coupling between the support and the arm. .

Horizontal facility installation stand according to the present invention for achieving the above object is a tubular body is fixed to the vertically installed from the ground, the posts are formed in each of the front and rear through holes; An arm that is horizontally coupled to the front side of the strut, the arm having engaging ribs protruding around the inner circumferential surface of the end opening; A tubular body inserted into and fixed to the front through hole of the support, the outer diameter of which is formed to correspond to the diameter of the through hole of the support, and the inner diameter of the first coupling pipe configured to be tapered so as to narrow from the front to the rear; A tubular body inserted into and fixed to the rear through hole of the support, wherein the outer diameter is formed to correspond to the diameter of the through hole of the support, and the inner side has a second coupling provided with a coupling rib which is bolted against the coupling rib formed at the end of the arm. Tube; The rear end of the arm is inserted into the front side, and the rear side is a tube body inserted into and coupled to the first coupling tube. The taper is tapered so that the outer diameter becomes smaller toward the rear side and inserted into the tapered first coupling tube so that the inner diameter becomes smaller toward the rear side. It is coupled, the inner circumferential surface is formed horizontally in the longitudinal direction, the arm is fitted, and comprises a wedge pipe welded and fixed in the state inserted into the outer circumferential surface of the arm.

Here, the first coupling pipe and the second coupling pipe are welded and fixed in the state of being inserted into the front side through hole and the rear side through hole, respectively.

Then, the rear end of the first coupling pipe is formed with a step so that the diameter is smaller, the stepped and the coupling protrusion is formed, the second coupling pipe is inserted into the rear through-hole of the post and the front opening It is preferable that the coupling protrusion of the first coupling tube is fitted to be supported on the stepped portion in the horizontal direction and supported on the outer circumferential surface of the coupling protrusion in the vertical direction.

And, it is preferable that a cover is further provided to cover the opening of the rear end of the second coupling pipe.

On the other hand, it is preferable that the reinforcing bar extending in the longitudinal direction of the arm is vertically disposed on both the left and right inner sides of the arm, respectively, and the support piece is formed on the upper and lower ends of the reinforcing bar contacting the inner circumferential surface of the arm, in particular, The reinforcing bar is more preferably formed bent in a wave shape.

According to the present invention as described above, the complex connection part configuration such as flange, bolt, reinforcing blade piece, etc. is not exposed to the outside to form a beautiful aesthetic, the connection stability of the connection is excellent, the wedge pipe is the connection part of the arm It acts as a reinforcing material on the outer circumference to prevent deformation or shearing of the arm in the direction of gravity, and it is easy to work and construct because there is no need to weld separate flanges or reinforcing blade pieces, and after opening the rear cover It has the advantage of easy maintenance such as replacement of bolts. In addition, by installing a reinforcing rod inside the arm has the advantage that it can prevent the bending deformation and breakage of the arm due to the load.

1 is a view showing a connection structure of the strut and the arm of the conventional horizontal installation facility,
Figure 2 is a view showing the strut and arm connection structure of the horizontal installation unit according to the present invention,
Figure 3 is an exploded view of the strut and the arm connecting portion of the horizontal installation unit according to the present invention,
4 is a cross-sectional view of the strut and the arm connecting portion of the horizontal installation according to the invention,
5 is a view of the internal structure and the arm of the horizontal installation unit according to an embodiment of the present invention,
6 is another arm internal structure and a plan view of a horizontal installation according to another embodiment of the present invention,
7 is another arm internal structure and a plan view of a horizontal installation according to another embodiment of the present invention,
8 is another arm internal structure and a plan view of a horizontal installation according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings and preferred embodiments of the concrete configuration of the horizontal installation according to the present invention will be described in detail.

As shown in Figure 2 and 4, the horizontal installation installation according to the present invention is support post 10, arm 20, the first coupling pipe 30, the second coupling pipe 40, the wedge pipe 50 And a cover 60.

The strut 10 is a metal strut for a typical horizontal facility installation stand, and may be generally composed of a cylindrical or tapered conical or square tubular body, and is vertically fixed from the ground. Hereinafter, in this specification, a cylindrical post will be described as an example.

On the other hand, in the present invention, through holes 10a and 10b are respectively formed on both sides of the upper and front sides of the support 10 for insertion installation of the first coupling pipe 30 and the second coupling pipe 40 which will be described later. The through holes (10a, 10b) is formed in a circular shape, larger than the diameter of the arm (20) connected to the support (10) is preferably configured to a size that can be combined to fit the first coupling pipe 30 to be described later. Do.

The arm 20 is also a metal arm for a conventional horizontal facility, and may be generally composed of a cylindrical or tapered conical or square tubular body, and is installed in a horizontal direction on an upper side of the support 10. Hereinafter, in this specification, a cylindrical post will be described as an example.

On the other hand, in the present invention, in order to be combined with the second coupling pipe 40, which will be described later, it is preferable that the coupling rib 22 is provided at the inner circumferential surface at the end of the arm 20. The coupling rib 22 is formed to protrude along the inner circumferential surface of the end opening of the arm 20. Since the arm 20 is exemplified as being circular in this specification, the coupling rib 22 will protrude in an annular shape. The coupling rib 22 is formed integrally with the arm 20, and then bent or formed into a separate member, and then fixedly coupled to the end opening of the arm 20 by welding or the like. In addition, the coupling rib 22 is formed through the bolt hole 22a for bolting to the second coupling pipe 40 to be described later.

The first coupling pipe 30 is a front side of the support 10 (in this specification, the arm 20 is defined on the side of the support 10, the front side, the opposite side is defined as a rear) through hole ( As the tubular body inserted into and fixed to 10a), the outer diameter is formed to correspond to the diameter of the front side through hole 10a of the post 10, and is inserted into the front side through hole 10a of the post 10 and then the post 10. The front side through hole 10a of the inner peripheral surface is fixed by welding. In addition, the inner diameter of the first coupling pipe 30 is formed in a tapered shape to narrow from the front to the rear, the rear end is formed with a step so that the diameter is smaller, the second coupling pipe 40 to be described later Inserted and seated step (30b) and the engaging projection (30a) is formed.

The second coupling pipe 40 is a tube body inserted into and fixed to the rear through hole 10b of the support 10, the outer diameter is formed to correspond to the diameter of the rear through hole 10b of the support 10, After being inserted into the rear side through hole 10b of the front side 10, the front side opening is fitted to the engaging protrusion 30a of the first coupling pipe 30 so as to be supported by the stepped portion 30b in the horizontal direction and vertically. It is supported by the outer circumferential surface of the engaging protrusion 30a, the rear outer peripheral surface is fixedly coupled to the inner peripheral surface of the rear through-hole 10b of the support 10 by welding.

In addition, a coupling rib 42 is provided inside the second coupling tube 40 to be coupled to the coupling rib 22 formed at an end of the arm 20. The coupling ribs 42 of the second coupling pipe 40 are protruded along the inner circumference of the second coupling pipe 40, but in the present specification, the second coupling pipe 40 is circular, and thus the above-mentioned. The coupling rib 42 is also configured in an annular shape. The coupling ribs 42 of the second coupling pipe 40 may be fixedly coupled to the inner circumferential surface of the second coupling pipe 40 by welding or the like. In addition, it is preferable that a plurality of bolt holes 42a are formed on the surface of the coupling rib 42 to be bolted to the end coupling rib 22 of the arm 20. In addition, a coupling rib 44 is also formed on the inner circumferential surface of the rear end portion of the second coupling tube 40 so that the cover 60 covering the rear opening of the second coupling tube 40 is bolted. Do.

On the other hand, the wedge pipe (50) is the front end is inserted into the rear end of the arm 20 and the rear side is inserted into the first coupling pipe 30 is coupled to the tubular body, the outer diameter is tapered so that the smaller toward the rear side, the inner diameter It is inserted into the inner side of the tapered first coupling pipe 30 in a wedge manner so as to become smaller toward the rear side and is firmly coupled. The inner circumferential surface of the wedge pipe 50 is formed horizontally without a change in the inner diameter in the longitudinal direction and is configured to correspond to the shape and size of the outer circumferential surface of the arm 20, so that the outer circumferential surface of the arm 20 can be fitted. . The wedge tube 50 is fixedly coupled by welding in a state of being inserted into the outer circumferential surface of the arm 20.

As described above, the first coupling pipe 30 is inserted and welded to the front side of the support 10, the second coupling pipe 40 is inserted and welded to the rear side of the support 10, After welding the wedge tube 50 to the outer circumferential surface of the arm 20, when the arm 20 is inserted into the first coupling tube 30 from the front side, the wedge tube 50 and the first coupling tube 30 are formed. While inscribed with each other to form a strong wedge coupling, the end coupling ribs 22 of the arm 20 and the coupling ribs 42 of the second coupling pipe 40 are brought into contact with each other. In this state in which the coupling ribs 22 and 42 of the arm 20 and the second coupling tube 40 are in contact with each other, both coupling ribs 22 and 42 are connected by using the bolt B and the nut N. FIG. When fastening and fixing the cover 60 of the rear side of the second coupling pipe 40 and fastening with bolts, the connection construction of the strut 10 and the arm 20 of the horizontal facility installation stand according to the present invention is completed.

Through the structure of the strut 10 and the arm 20 of the horizontal installation unit according to the present invention, a complex connection configuration such as flanges, bolts, reinforcing blade pieces, etc. can not be exposed to the outside to form a beautiful aesthetic, The horizontal coupling of the first coupling pipe 30 and the second coupling pipe 40 and the welding coupling of the support 10, the wedge coupling of the first coupling pipe 30 and the wedge pipe 50, and the arm 20 ) The coupling stability of the connecting portion is excellent by the bolt coupling of the coupling rib of the end and the second coupling pipe 40, and the wedge pipe 50 acts as a reinforcing material on the outer peripheral surface of the connecting portion of the arm 20 so that the gravity of the arm 20 is increased. It is possible to prevent the deformation or shear in the direction. In addition, there is no need to weld separate flanges or reinforcement blades one by one, easy operation and construction, and after maintenance of the rear cover 60, such as replacement of bolts and very easy to maintain.

On the other hand, as already mentioned, the arm 20 of the horizontal installation station is extended horizontally for installation of facilities such as traffic lights or other lamps, in this case, the arm is bent and deformed by the load of the installation or the load of the installation itself. Or breakage may occur frequently. In order to solve this problem, it is preferable that a reinforcing bar for bending prevention is installed in the arm of the horizontal installation unit according to the present invention.

Figure 5 is an exploded perspective view (a) and a plan view (b) of the internal structure of the arm of the horizontal installation according to the present invention is installed such a reinforcement. As shown, the reinforcing rods 70 extending along the longitudinal direction of the arm 20 are arranged vertically on both left and right sides of the arm 20. The reinforcing bar 70 may be generally composed of a metal plate or a band-like member having high strength, such as steel or stainless steel, and the first half portion 20a and the second half portion 20b of the arm 20 divided into semicircular shapes. After each of the first reinforcing bar 70a and the second reinforcing bar 70b are fixedly installed vertically by welding, one cylindrical arm is welded again to the first half part 20a and the second half part 20b. Completed with (20).

According to such a structure, when the arm 20 receives a load in a vertical direction, the load is supported by the said reinforcement stand 70, and the bending deformation of the arm 20 can be prevented.

On the other hand, Figure 6 is an exploded perspective view (a) and a plan view (b) of the internal structure of the arm of the horizontal installation according to another embodiment of the present invention. As shown in the left and right sides of the arm 20, as shown in Figure 5, the reinforcing bar 70 extending in the longitudinal direction of the arm 20, more specifically the first reinforcing bar (70a) And second reinforcing bars 70b are disposed vertically, and support pieces 72a and 72b are respectively provided at upper and lower ends where the first reinforcing bars 70a and the second reinforcing bars 70b are in contact with the inner circumferential surface of the arm 20, respectively. It is preferably formed. The support pieces 72a and 72b are not only means for distributing the load and increasing the bearing capacity by increasing the contact area between the reinforcing bar 70 and the inner circumferential surface of the arm 20, but also in the absence of the support pieces 72a and 72b. 70) Since the upper and lower welded areas are very weak, and may be separated and broken, the reinforcing table 70 is increased by increasing the contact area between the support pieces 72a and 72b and the arms and welding the arms 20 to both sides of the support pieces 72a and 72b. Is to be firmly coupled without being easily separated from the inner circumferential surface of the arm 20. As shown in the drawing, the support pieces 72a and 72b extend in the horizontal direction at the upper and lower ends of the reinforcing table 70, and are preferably curved to correspond to the curvature of the inner circumferential surface of the arm 20.

7 and 8 are shown in an exploded perspective view (a) and a plan view (b) of the arm structure of the horizontal installation unit according to another preferred embodiment. In the embodiment shown in FIG. 7, the reinforcing bar 70 'is composed of the first reinforcing bar 70a' and the second reinforcing bar 70b 'as in the previous embodiments, and the vertical reinforcing bars 70' are arranged vertically on both sides of the arm. . However, the reinforcing bar 70 'is characterized in that it is bent in a zigzag form or semi-circular wave form (wave form). As such, when the reinforcing bar 70 'is bent in a wave form, the load is distributed and supported to further increase the vertical bending strength of the arm. And, as shown in Figure 8, the support piece like the embodiment of Figure 6 also in the upper and lower ends of the reinforcing bar 70 'formed in a wave shape, more specifically, the first reinforcing bar (70a') and the second reinforcing bar (70b ') It is preferable that 72a 'and 72b' are formed.

So far, the present invention has been described in detail with reference to embodiments of the present invention. However, the scope of the present invention is not limited thereto, and the present invention is intended to include practically equivalent ranges.

10: prop 10a, 10b: through hole
20: arm 22: coupling rib
22a: bolt hole 30: the first coupling pipe
30b: step 30a: coupling protrusion
40: second coupling pipe 42: coupling rib
42a: bolt hole 44: coupling rib
50: spokes 60: cover
B: Bolt N: Nut

Claims (7)

A tubular body fixed vertically from the ground, the posts each having through holes formed in both front and rear sides;
A tube inserted into and coupled to the front through hole of the support in a horizontal direction, the arm having a joining rib protruding around the inner circumferential surface of the end opening;
A tubular body inserted into and fixed to the front through hole of the support, the outer diameter of which is formed to correspond to the diameter of the through hole of the support, and the inner diameter of the first coupling pipe configured to be tapered so as to narrow from the front to the rear;
A tubular body inserted into and fixed to the rear through hole of the support, wherein the outer diameter is formed to correspond to the diameter of the through hole of the support, and the inner side has a second coupling provided with a coupling rib which is bolted against the coupling rib formed at the end of the arm. Tube;
The rear end of the arm is inserted into the front side, and the rear side is a tube body inserted into and coupled to the first coupling tube. The taper is tapered so that the outer diameter becomes smaller toward the rear side and inserted into the tapered first coupling tube so that the inner diameter becomes smaller toward the rear side. Is coupled, the inner circumferential surface is formed horizontally in the longitudinal direction is the arm is fitted, the wedge pipe is welded fixed in the state inserted into the outer circumferential surface of the arm; And
Includes; Cover for covering the opening of the rear end of the second coupling pipe,
Steps are formed at the rear end of the first coupling tube so that the diameter becomes smaller so that the stepped portion and the coupling protrusion are formed, and the second coupling tube is inserted into the rear side through hole of the strut and the first opening is inserted into the front opening. The coupling protrusion of the coupling pipe is fitted, supported on the stepped in the horizontal direction and supported on the outer peripheral surface of the coupling protrusion in the vertical direction,
The coupling ribs provided at the end of the arm are coupled to each other in a state in which the coupling ribs provided to the inside of the second coupling tube are coupled to each other, so that the connecting portion of the arm is positioned inside the second coupling tube. Facility installation stand. The method of claim 1,
And the first coupling pipe and the second coupling pipe are welded and fixed in the state of being inserted into the front through hole and the rear through hole of the support, respectively. delete delete The method of claim 1,
Horizontal reinforcement units, characterized in that the reinforcing rods extending in the longitudinal direction of the arm are disposed vertically on both sides of the inner left and right. The method of claim 5, wherein
Horizontal reinforcement unit, characterized in that the support piece is formed on the upper and lower ends of the reinforcing rod is in contact with the inner peripheral surface of the arm. The method according to claim 5 or 6,
The reinforcing rod is horizontal installation installation characterized in that the curved bent.

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