KR100754908B1 - Streetlight - Google Patents

Abstract

A streetlight is provided to prevent the crack formation on the welded part of ribs by cutting off the transfer of a moving moment of a steel pipe and to couple a pole to the upper part of a steel pipe strongly by supporting the bottom of a pole with a pole socket. A streetlight contains a base(100) manufactured with concrete to have weight and buried under the ground to support load, a steel pipe(110) provided with a flange(112) bolted on the base to erect on the base, trapezoidal ribs(120) welded to the flange to support the bottom of the steel pipe on the flange and provided with an inclined cutting hole(122) to prevent the transfer of a moving moment of the steel pipe toward the upper part of the inner circumferential surface of the flange, a pole(130) inserted to the top of the steel pipe to be extended on the upper part of the steel pipe, a pole socket(140) inserted to the bottom of the pole to connect the pole with the steel pipe integrally, a waterproof cap(150) formed in the cylindrical shape and fitted to the pole to cover up the top of the steel pipe to seal up the pole socket, an arm support(160) provided with an arm(162) having a lamp(LD) to light up from the upper part of the pole, and a built-in sleeve(170) inserted to the arm support and the pole to connect the bottom of the arm support and the top of the pole integrally.

Description

Street light {STREETLIGHT}

1 is a perspective view of a typical street lamp;

2 is a perspective view of a street lamp according to an embodiment of the present invention; And

Figure 3 is a longitudinal sectional view of a street lamp according to another embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

100: foundation base 110: steel pipe 110a, 130a: stop step

112: flange 120: rib 120a: bottom

120b: inner part 130: pole pole 140: pole pole socket

142: insertion portion 142a: inward flange portion 144: flange portion

146: right angle bending portion 148: disc ring 150: waterproof cap

152: upper extension 160: arm band 162: arm

170: built-in sleeve LD: luminaire

The present invention relates to a street lamp is installed along the street for the safety and security of transverse traffic, in particular can prevent the welding of the ribs supporting the lower end of the steel pipe cracks, the poles erected on the steel pipe of the steel pipe It relates to a street lamp that can be firmly coupled to the top.

Generally, street lamps are installed at equal intervals along the edge of a roadway or sidewalk, and a plurality of steel pipes having different diameters are integrally connected to form a high height, and the luminaire is mounted at the upper end so that the road is generally illuminated. Is installed.

Such a general street lamp is a pole 20 having a smaller diameter than the steel pipe 10 is vertically connected to the upper portion of the steel pipe 10 to have a high height as shown in Figure 1, the pole 20 An arm band 30 having the same diameter as the pole pole 20 is vertically connected to the upper portion.

That is, as shown in the general street lamp, the steel pipe 10, the pole 20 and the arm 30 is sequentially connected from the bottom toward the top.

Such a general street lamp is built on the concrete foundation 1, the steel pipe 10 is embedded in the ground as shown to be supported in the ground.

On the other hand, the steel pipe 10 is an anchor bolt (B) of the base 1 is a flange 12 welded to the lower end as shown in an enlarged perspective view at the bottom right of the drawing to be fixed on the base 1 Bolting).

As described above, the steel pipe 10 fixed on the base 1 has a triangular rib formed on the flange 12 as shown in an enlarged view on the lower right side of the drawing so that the lower end thereof is supported by the flange 12. (12a) is fixed by welding to the outer peripheral surface of the lower end.

On the other hand, the pole 20 has a lower end is inserted into the upper portion of the steel pipe 10 as shown in the longitudinal cross-sectional view on the left side of the figure so that the lower end is fixed to the steel pipe 10.

As described above, the pole pole 20 has a cylindrical support member 22 which is drawing-processed at a lower end thereof as shown in an enlarged longitudinal cross-sectional view so that a lower end thereof is supported on the inner circumferential surface of the steel pipe 10.

That is, the pole 20 is supported at the lower end by the support member 22 fitted to the lower end.

The support member 22 is a flange portion 22a which is welded to the inner circumferential surface of the steel pipe 10 and is supported by the steel pipe 10 as shown in an enlarged longitudinal cross-sectional view, and the flange portion 22a. It consists of a cylindrical fitting portion 22b protruding downward from the center of the support portion, and a supporting portion 22c that is bent inwardly at the end of the fitting portion 22b to support the lower end of the pole 20.

The support member 22 configured as described above has the flange portion 22a supported on the inner circumferential surface of the steel pipe 10, and the fitting portion 22b and the support portion 22c support the lower end of the pole 20. It supports and supports the lower end of the pole 20 in the interior of the steel pipe (10).

On the other hand, the upper inner peripheral surface of the steel pipe 10 and the outer peripheral surface of the lower end of the pole 20 is attached to the weld as enlarged on the left side of the figure so that the steel pipe 10 and the pole 20 is more firmly connected The upper and lower flanges 10a and 20a are bolted to each other.

The upper and lower flanges 10a and 20a which are bolted as described above not only connect the lower portions of the pole 20 to the top of the steel pipe 10 but also firmly support the lower portion of the pole 20.

In addition, the upper and lower flanges (10a, 20a) is shielded and waterproof by a hemispherical cylindrical cap 24 as shown enlarged on the left side of the figure.

The cylindrical cap 24 is welded in an all-round type (top and bottom), respectively, so that the upper end and the lower end is watertightly fixed to the steel pipe 10 and the pole 20.

On the other hand, the arm 30 is installed on one side of the arm 32 is equipped with a light fixture (LD) is mounted at a right angle to the pole 20 as shown to emit light from the side.

The arm 30 is fixed to the upper end of the pole 20 by a built-in sleeve 40 built therein as shown in the longitudinal cross-sectional view on the upper right of the figure.

On the other hand, the interior sleeve 40 is enlarged as shown in the middle half is embedded in the upper end of the pole 20, the other half is embedded in the lower end of the arm 30, the pole 20 The outer circumferential surface, that is, the outer circumferential surface of the middle portion, located at the upper edge of) is welded all-round.

The interior sleeve 40 as described above is fixed to the upper end by a bolt (B) penetrating through the arm 30 as shown. Thus, the arm 30 is firmly fixed to the upper end of the pole 20 by the internal sleeve (40).

However, such a general street light has the ribs facing the flange 12 because a flow moment (rotation moment) generated as the steel pipe 10 flows by the wind is transmitted to the rib 12a of the flange 12. There exists a problem that the lower end side of the welding site WP of 12a is cut | disconnected.

In addition, the space between the inner peripheral surface of the steel pipe 10 and the outer peripheral surface of the support member 22, as shown in the enlarged space shown on the left side of the drawing (SP) is the support member 22 of the pole 20 There is also a problem of not firmly supporting the bottom.

In addition, since the lower end of the pole 20 is supported by the support 22c of the support member 22 having a very narrow width, the support 22c does not actually support the pole 20. There is a problem.

In addition, the support member 22 does not firmly support the pole 20 due to the separation space SP, and the support part 22c does not substantially support the pole 20 so as to compensate for this. There is also a problem that the upper and lower flanges (10a, 20a) must be installed in the steel pipe (10) and the pole 20 to be coupled by bolting.

In addition, the upper and lower flanges (10a, 20a) to be welded to the steel pipe (10) and the pole 20, as well as to combine the upper and lower flanges (10a, 20a) by bolting the production is very Not only is it difficult, but there is also a problem that the manufacturing time is excessively increased due to the increase of the manufacturing time.

In addition, the operator should check the insertion depth of the support member 22 embedded in the steel pipe 10 with a tape measure so that the support member 22 is positioned at the set position, and then weld and fix the support member 22. Therefore, there is a problem that manufacturing is very inconvenient.

In addition, the operator checks the insertion depth of the internal sleeve 40 inserted into the pole 20 with a tape measure so that the lower end of the internal sleeve 40 is set at a predetermined position, and then welds the internal sleeve 40 to each other. There is also a problem that manufacturing is more inconvenient because it must be fixed.

In addition, since both the top and bottom of the cylindrical cap 24 should be welded, there is a problem that the work process and manufacturing time is excessively required. In particular, since the upper end and the lower end of the cylindrical cap 24 after welding (grinding and polishing, etc.) have to be post-processed, there is a problem that the manufacturing time and manufacturing process are excessively required.

On the other hand, the reference numeral CV in the drawings is a concealed cap to conceal the lower end of the steel pipe 10 beautifully.

The present invention was created in order to solve the conventional problems as described above, the mechanism is provided to block the flow moment transmitted from the steel pipe inside the lower end of the rib, the lower end of the pole is built in the upper end of the steel pipe to the upper end of the steel pipe The purpose is to provide a street lamp with a mechanism that can be securely fixed.

Another object of the present invention is to provide a street lamp provided with a mechanism capable of setting members inserted into steel pipes or poles at a predetermined position.

In addition, it is possible to waterproof the upper portion of the steel pipe even by welding only the upper end of the cylindrical cap, and further to provide a street lamp that can support the lower end of the pole while waterproofing the upper portion of the steel pipe.

Street lamp according to the present invention for achieving the above object is a concrete foundation embedded in the ground to support the load of the upper portion in the ground; A steel pipe fixed to the upper surface of the foundation by bolts fixed to the upper surface of the foundation by welding and fixed vertically to the foundation object; The flow moment of the steel pipe is formed in a substantially trapezoidal shape so that the steel pipe is supported on the flange while preventing the flow moment from being transferred to the upper surface of the inner circumferential surface of the flange, and the lower end of the flange forming one side in a horizontal state is the inner circumferential surface of the flange. By welding on the flange spaced apart from the side rim, and the inner portion forming one side vertically from the inner upper portion of the lower end is fixed by welding to the outer peripheral surface of the lower side of the steel pipe, thereby inclining the steel pipe A rib forming an inclined incision hole between the lower end and the outer peripheral surface of the lower end of the steel pipe due to the inclination with the steel pipe; A pole pole having a lower end inserted into an upper end of the steel pipe so that the ribs are formed in a straight line so as to form a straight line, and having an outer circumferential surface spaced apart from an inner circumferential surface of the steel pipe perpendicular to the upper portion of the steel pipe; It is formed in the upper portion of the steel pipe so that the lower end of the pole is integrally connected to the upper inside of the steel pipe is inserted into the inner circumferential surface of the lower end of the pole and inserted inwardly, the inward flange is formed inwardly inward bending to reinforce rigidity An insertion portion, a flange portion that is bent outward at a right angle at the lower end of the insertion portion and the outer circumferential surface is supported on the inner circumferential surface of the steel pipe, and is bent at a right angle at the rim of the flange portion is fixed to the inner circumferential surface of the steel pipe by welding or bolting Pole-to-socket consisting of a right angle bent portion; A cylindrical waterproof cap inserted into the pole so that the pole pole socket is waterproof, and having a lower end surrounding the top outer circumferential surface of the steel pipe, and having an upper edge welded to the outer circumferential surface of the pole pole in an all-round manner; An arm having a luminaire mounted on an end thereof is installed at one end so as to be orthogonal to the pole pole so that the light is emitted from an upper portion of the pole pole to which the waterproof cap is fixed. An arm band standing perpendicular to an upper portion of the pole pole while facing; The lower end of the arm is formed with a diameter corresponding to the inner circumferential surface of the arm so that the lower end is integrally connected to the upper end of the pole, so that the upper and lower portions are respectively inserted into the inner circumferential surface of the lower end of the arm and the upper inner circumferential surface of the upper end of the pole. And a built-in sleeve fixed to the arm and the pole by welding or bolting, respectively.

The street lamp according to the present invention, since the ribs support the lower end of the steel pipe and blocks the flow moment of the steel pipe transmitted from the steel pipe to the upper surface of the inner peripheral surface side of the flange through the inclined incision hole, the lower end of the rib by the flow moment of the steel pipe It can prevent the separation from the flange.

In addition, since the flange portion of the pole pole socket supports the lower end of the pole pole in the inside of the steel pipe and the pole pole socket insert portion is inserted into the pole pole bottom portion, the pole pole bottom portion is supported. .

In addition, since the inward flange portion formed on the upper end of the pole-to-socket portion strengthens the rigidity of the insertion portion, the pole-to-socket can independently support the lower end of the pole pole more firmly.

In addition, since the waterproof cap is fixed to the upper end only by the all-round welding, not only can easily fix the waterproof cap to the steel pipe, but also to reduce the process for fixing the waterproof cap (lower welding and post-processing, etc.).

Hereinafter, a street lamp according to the present invention will be described with reference to the accompanying drawings. FIG. 2 is a perspective view of a street lamp according to an embodiment of the present invention.

As shown, the street lamp according to an embodiment of the present invention is the base 100; Steel pipe 110; Rib 120; Pole pole 130; Pole-to-socket 140; Waterproof cap 150; Arm band 160 and; It includes; a built-in sleeve (170). The following describes these components in more detail.

First, the base 100 is made of concrete to have a weight, and is embedded in the ground as shown to support the load in the ground.

The foundation 100 as described above has a width larger than the diameter (outer diameter) of the steel pipe 110 as shown to support the steel pipe 110.

Next, the steel pipe 110 is extended to the lower right side of the drawing to be supported in a standing state on the base 100, the flange 112 bolted to the upper surface of the base 100 as shown in the bottom It is fixed by welding.

That is, the steel pipe 110 is vertically fixed on the foundation 100 as the flange 112 is bolted on the foundation 100 is fixed.

The steel pipe 110 as described above has a larger diameter than the pole 130 as shown so that the pole 130 to be described later is inserted into the upper portion.

On the other hand, the rib 120 is formed in a substantially trapezoidal shape as shown in the enlarged lower right of the drawing so that the lower end of the steel pipe 110 is supported by the flange 112, one side in a horizontal state An inner portion of which the lower end 120a is fixed by welding on the flange 112 in a state spaced apart from the inner circumferential surface side edge of the flange 112, and forms one side in a vertical state from the inner upper side of the lower end 120a. 120b is fixed to the outer peripheral surface of the lower end side of the steel pipe 110 by welding, thereby forming an inclination with respect to the steel pipe 110.
That is, the rib 120 is fixed to the lower end (120a) and the inner portion (120b) to the flange 112 and the steel pipe 110, respectively, the lower end (120a) and the outer peripheral surface of the steel pipe 110 As it is fixed on the flange 112 in the spaced apart state to form a slope with respect to the steel pipe (110).

Such rib 120 has a height (h) of 0.06 ~ 0.12 times the height (H) of the steel pipe 110 as shown enlarged to support the steel pipe 110 is formed long.

That is, the rib 120 has a height h of about 18 cm to 36 cm when the height H of the steel pipe 110 is 3 m.

Meanwhile, the rib 120 having an inclination with respect to the steel pipe 110 is enlarged at the lower right side of the drawing so that the flow moment of the steel pipe 110 is prevented from being transferred to the inner peripheral surface side upper surface of the flange 112. As shown, the inclined incision hole 122 is formed between the lower end 120a and the outer peripheral surface of the lower end of the steel pipe 110.
That is, the rib 120 has the inclined cut hole 122 is formed inside the lower end due to the inclination, the flow moment of the steel pipe 110 is the inner peripheral surface side of the flange 112 by the inclined cut hole 122 It is not delivered to the top surface.

The oblique incision 122 as described above has a flow moment while preventing the lower end 120a of the rib 120 welded on the flange 112 from being excessively spaced apart from an inner circumferential surface side edge of the flange 112. 0.2 to 0.4 times with respect to the height h of the rib 120 as shown in the lower right of the drawing to be formed in a size that can be prevented from being transferred to the inner peripheral surface side upper surface of the flange 112. It is formed to a height (h ') of, the width (W') of 0.3 to 0.6 times the width (W) of the lower end (120a) corresponding to the width of the flange (112).

That is, the inclined incision 122 is formed with a height (h ') of 3.6cm to 7.2cm when the rib 120 is 18cm, 2.1cm when the width (W) of the bottom (120a) is 7cm. To 4.2 cm in width W '.
Since the inclined cut hole 122 is formed in the height h 'and the width W' as described above, the lower end 120a of the rib 120 has an inner peripheral surface side edge of the flange 112. And spaced at a reasonable distance.
That is, since the rib 120 is properly spaced apart from the inner circumferential side edge of the flange 112, the rib 120 forms an inclination in a diagonal direction with respect to the steel pipe 110 as shown in the enlarged view. Strongly support 110.

Since the rib 120 forms an inclination in a diagonal direction with respect to the steel pipe 110, as shown in the enlarged view, the rib 120 has a stable structure capable of firmly supporting the lower end of the steel pipe 110.

On the other hand, the pole 130 is inserted in the upper end of the steel pipe 110 as shown in the enlarged upper left of the drawing so as to extend from the upper portion of the steel pipe 110.

The pole pole 130 as described above has an outer diameter (d) of 0.4 to 0.8 times the inner diameter (D) of the steel pipe 110 as shown enlarged so that the lower end is inserted into the upper end of the steel pipe (110).

That is, the pole 130 is formed smaller than the diameter of the steel pipe 110, and has an outer diameter (d) of 10cm to 20cm when the inner diameter (D) of the steel pipe 110 is 25cm.

The pole pole 130 as described above is enlarged so that the pole pole socket 140 to be described later is inserted into the inside of the steel pipe 110, the outer peripheral surface of the lower end inserted into the steel pipe 110 is the inner peripheral surface of the steel pipe 110. Spaced apart.

On the other hand, the pole pole socket 140 is a cylindrical insertion portion protruding perpendicular to the center portion as shown in an enlarged perspective view in the lower left of the drawing so that the pole pole 130 is integrally connected to the steel pipe 110 ( 142, a flange portion 144 that is bent outward at a right angle at the lower end of the insertion portion 142, and a right angle bending portion 146 that is bent at a right angle at the edge of the flange portion 144.

The pole pole socket 140 is inserted into the lower portion of the pole portion 130 by the insertion portion 142 is inserted into the inner circumferential surface of the pole portion 130 is enlarged as shown in the upper left side of the figure so that the lower inner circumferential surface of the pole pole 130 is supported. do.

In addition, the pole pole socket 140 of the pole pole 130, the flange portion 144 is fitted to the insertion portion 142 as shown in the enlarged upper left of the figure so that the load of the pole pole 130 is supported. Hold up the bottom.

In addition, the pole-to-socket 140 is enlarged on the upper left side of the figure so that the flange portion 144 is fixed to the inner circumferential surface of the steel pipe 110, the right angle bent portion 146 is welded or bolted by the The inner peripheral surface of the steel pipe 110 is fixed in close contact with the state.

On the other hand, the pole-to-socket 140 has an inward flange portion 142a inwardly bent at the upper end of the insertion portion 142, as shown enlarged on the lower left of the figure to reinforce the rigidity of the insertion portion 142. do.

The inward flange portion 142a is formed along the circumferential direction on the inner circumferential surface of the insertion portion 142 as shown in an enlarged manner so that the pressing force of the pole 130 is applied radially to the insertion portion 142. do.

That is, the inward flange portion 142a distributes the pressing force of the pole base 130 transmitted to the insertion portion 142.

On the other hand, the waterproof cap 150 is formed in a cylindrical shape as shown enlarged on the upper left side of the figure so that the pole-to-socket 140 is shielded to the upper outer peripheral surface of the steel pipe 110 in the state fitted to the pole 130 Wrap

The waterproof cap 150 is welded (WD) to the outer circumferential surface of the pole pole 130 as the upper end is enlarged on the upper left of the drawing so that the pole pole socket 140 is waterproof (All Round Type) The lower part surrounds the upper outer circumferential surface of the steel pipe 110.

That is, the waterproof cap 150 is the upper end is fixed to the outer peripheral surface of the pole 130 by welding (WD).

On the other hand, the arm pole 160 is formed to a diameter corresponding to the pole pole 130 as shown in the enlarged upper right of the drawing so as to be connected in a straight line to the upper portion of the pole pole 130 without protruding, the lower end of the pole pole Facing the upper end of 130.

In addition, the arm band 160 is formed to have a length AL of 0.3 to 0.5 times the length PL of the pole base 130 as shown to be formed shorter than the pole base 130.

In other words, the arm 160 has a length AL of 60 cm to 1 m when the length PL of the pole 130 is 2 m.

The arm pole 160 is a lamp (LD) at the end while making orthogonal to the pole pole 130 as shown so as to emit light from the upper portion of the pole pole 130 is fixed to the waterproof cap 150 The mounted arm 162 is installed on one side.

On the other hand, the built-in sleeve 170 is on the inner circumferential surface of the arm bar 160 as shown in the enlarged upper right of the drawing so that the lower end of the arm 160 is integrally connected to the upper end of the pole 130 (130) It is formed with a corresponding diameter and is inserted into the arm pole 160 and the pole pole 130.

The interior sleeve 170 is inserted into the lower inner peripheral surface of the lower end of the arm 160 as shown in the enlarged center so that both ends are connected while supporting the arm 160 and the pole 130. The lower part is inserted into the inner circumferential surface of the upper end of the pole pole 130.

In addition, the internal sleeve 170 is fixed to the outer peripheral surface of the pole pole 130 by welding, as shown in the enlarged to be integrally fixed to the pole pole 130 and the arm pole 160, the upper portion is Bolting to arm band 160 is fixed.

The interior sleeve 170 as described above is fastened to the upper arm easily bolted to the arm 160, as shown in the expansion is fastened to the nut (N) welded to the arm arm 160, the arm arm 160 The upper part is bolted and fixed by the bolt B passing through).

In addition, the inner sleeve 170 is fixed to the upper end of the pole 130 by an all-round welding so that the upper end of the pole 130 is waterproof.

The built-in sleeve 170 as described above is 0.2 to 0.6 times the length (L) of the arm (160) to sufficiently support the pole 130 and the arm (160) even if formed short ( SL).

That is, the internal sleeve 170 has a length SL of 12 cm to 36 cm when the length AL of the arm 160 is 60 cm.

On the other hand, the steel pipe 110 is a stop step 110a on the inner circumferential surface where the lower end of the pole-to-socket 140 is located, as shown enlarged in the upper left of the figure so that the pole-to-socket 140 is easily embedded in the set position. This protrudes.

The stop step 110a as described above is enlarged so that the pole-to-socket 140 is not inserted into the inside of the steel pipe 110 so deeply that the length of the pole 130 at the top of the steel pipe 110 ( It is formed at a portion corresponding to a depth DP of 0.13 to 0.3 times the PL).

That is, the stop step 110a is formed at a portion located below 26cm to 60cm from the top of the steel pipe 110 when the length PL of the pole 130 is 2m.

The stop step 110a is formed by a beading process to be easily formed in a beautiful state.

That is, the stop step 110a is formed as the upper end of the steel pipe 110 is beaded.

On the other hand, the pole 130 is a stop step 130a on the inner circumferential surface of the lower end of the built-in sleeve 170 as shown in the enlarged upper right side of the figure so that the built-in sleeve 170 is easily embedded in the set position This protrudes.

The stop step 130a as described above is enlarged at the upper right side of the drawing so that the internal sleeve 170 is not inserted into the inside of the pole pole 130 at the upper end of the pole pole 130 as shown. It is formed in a portion corresponding to the depth DP of 0.2 to 0.4 times the length AL of the 160, it is formed as the upper end of the pole 130 is beaded.

That is, the stop step 130a is formed at a portion located below 12 cm to 24 cm from the top of the pole 130 when the length AL of the arm 160 is 60cm.

On the other hand, reference numeral CV in the drawings is a concealed cap to conceal the lower end of the steel pipe 110 erected on the base 100 beautifully.

Referring to Figure 2 attached to the operation of the street lamp according to the embodiment of the present invention configured as described above are as follows.

As shown, the steel pipe 110 and the pole base 130 is beaded in the upper end concave inward so that the stop step (110a, 130a) is formed on the inner peripheral surface.

That is, the stop pipes 110a and 130a protrude from the inner circumferential surface of the upper end of the steel pipe 110 and the pole base 130 as the recess is formed in the upper end by the beading process.

As such, the concave grooves forming the stop step 110a and 130a are formed in a circular band shape along the circumferential direction of the steel pipe 110 and the pole 130 as shown to have a decorative function.

On the other hand, the steel pipe 110 has the pole pole socket 140 is built in the upper end as shown in the enlarged left side of the figure so that the lower end of the pole 130 is firmly connected to the upper end.

In addition, the pole 130 is inserted into the upper end of the lower portion of the interior sleeve 170 as shown in the enlarged upper right so that the arm 160 160 is firmly connected to the upper end.

The pole-to-socket 140 and the built-in sleeve 170, the lower end is caught by the stop step (110a, 130a) as shown enlarged to be set in the set position.

That is, the pole-to-socket 140 and the built-in sleeve 170 are easily set in the position set by the stop step 110a, 130a.

On the other hand, the pole-to-socket 140 is enlarged on the upper left of the drawing so as to be firmly fixed to the set position inside the steel pipe 110, as shown in the upper end of the stop step (110a) the outer end of the steel pipe 110 It is fixed by welding to the inner circumferential surface of).

That is, the pole-to-socket 140 is enlarged as shown in the lower surface of the flange portion 144 is caught on the stop step (110a), the upper end of the right angle bent portion 146 of the steel pipe 110 It is fixed to the inner circumferential surface by all-round welding.

On the other hand, the built-in sleeve 170, the lower half is inserted into the pole 130, as shown in the enlarged upper right side of the drawing so that the lower portion is firmly fixed to the set position inside the pole 130, the bottom is the It is caught by the stop step 130a formed in the pole 130.

As described above, the inner sleeve 170 has an outer circumferential surface of the middle portion exposed to the upper end of the pole 130 so that the upper end of the pole 130 is waterproof. It is fixed by all-round welding at the top.

That is, half of the interior sleeve 170 is inserted into the pole pole 130, it is fixed to the pole pole 130 by welding.

On the other hand, the pole 130 is the upper end of the steel pipe 110, as shown in the enlarged upper left portion of the drawing as shown in the upper half of the cylindrical cap having a semi-circular cross-section of the waterproof cap 150 is inserted into the steel pipe ( 110 is inserted into the top.

The pole pole 130 is inserted into the pole pole socket 140 fixed to the inner circumferential surface of the steel pipe 110, as shown in the enlarged upper left of the figure so that the lower end is firmly supported in the interior of the steel pipe 110. It is inserted into the part 142 by interference fit.

In addition, the pole 130 is the bottom portion is the flange portion 144 of the pole pole socket 140 in the lower end is inserted into the insertion portion 142 as shown in the enlarged so as to be supported by the pole pole socket 140 ) Is supported.

That is, the pole pole 130 has a lower end fitted to the insertion portion 142, and the lower end is supported by the flange portion 144 is integrally connected to the steel pipe 110 through the pole pole socket 140. .

On the other hand, the waterproof cap 150 is the outer circumferential surface of the pole 130 by the all-round welding (WD) of the upper end as shown enlarged on the upper left of the drawing so that the upper end of the steel pipe 110 is shielded in a waterproof state Is fixed to.

The waterproof cap 150 as described above is enlarged so that the lower end is supported on the steel pipe 110, the lower end is fitted to the outer peripheral surface of the upper end of the steel pipe (110).

On the other hand, the arm 162 is provided with the arm 160 is formed in a straight line with the steel pipe 110 and the pole 130 to form a column of high height as shown in the upper right portion of the lower portion as shown in the enlarged Is fitted to the upper portion of the built-in sleeve 170 fixed to the pole 130.

That is, the upper sleeve exposed to the upper end of the pole 130 is inserted into the lower end of the arm 160 (160).

The arm bar 160 is fixed by the bolt (B) fastened to the interior sleeve 170 as shown enlarged in the upper right of the figure to be fixed to the upper portion of the pole (130).

That is, the arm 160 is integrally fixed to the upper end of the interior sleeve 170 by the bolt (B).

Meanwhile, the steel pipe 110 to which the pole pole 130 and the arm pole 160 are sequentially connected is vertically on the base pole 100 by a crane not shown so as to be supported by the base pole 100. Built.

In addition, the steel pipe 110 is fixed on the foundation 100 by the flange 112 fixed by welding at the lower end as shown in the enlarged right bottom of the drawing so as to be fixed on the foundation 100 do.

That is, the steel pipe 110 is vertically fixed on the foundation 100 as the flange 112 is bolted on the foundation 100 is fixed.

In addition, the steel pipe 110 is supported by the lower end outer peripheral surface to the rib 120 fixed to the lower end by welding as shown in the lower right of the drawing so that the lower end is supported on the flange 112.

That is, the rib 120 supports the outer peripheral surface of the lower end of the steel pipe 110.

The ribs 120 are fixed such that the lower end 120a is welded to the upper surface of the flange 112 so as not to be separated from the flange 112 and the steel pipe 110. 120b is fixed to the outer circumferential surface of the steel pipe 110 by welding.

In addition, the rib 120 is enlarged at the lower right of the figure to firmly support the lower end of the steel pipe 110, the steel pipe 110 while forming an inclination in a diagonal direction with respect to the steel pipe 110. Firmly support the outer peripheral surface of the bottom.

That is, the rib 120 supports the steel pipe 110 while forming a stable structure by forming a diagonal inclination.

On the other hand, the inclined incision hole 122 formed in the inclination of the rib 120 is transferred to the upper surface of the inner peripheral surface side of the flange 112 through the flow moment of the steel pipe 110 swaying in the wind through the rib (120). The flow moment transmitted from the lower portion of the rib 120 to the upper surface of the inner circumferential surface side of the flange 112 is prevented from being prevented.
That is, the flow moment of the steel pipe 110 is not transmitted to the upper surface of the inner peripheral surface side of the flange 112 through the rib 120 due to the inclined cut hole (122).

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As such, since the inclined cut hole 122 blocks the flow moment, the rib 120 attached to the flange 112 is cut at the welding portion of the lower end 120a by the flow moment of the steel pipe 110. It is not (cracked).

That is, the lower end 120a of the rib 120 is not separated from the flange 112.

Meanwhile, the insertion portion 142 of the pole pole socket 140 supports the inner circumferential surface of the lower end of the pole pole 130 so that the pole pole 130 which is shaken together with the steel pipe 110 is not separated from the steel pipe 110. .

In addition, the flange portion 144 of the pole pole socket 140 firmly supports the bottom end of the pole pole 130 so that the pole pole 130 does not flow around the bottom thereof.

In addition, the right angle bent portion 146 of the pole-to-socket 140 maintains a surface contact with the inner circumferential surface of the steel pipe 110 so that the lower end of the pole pole 130 is supported on the inner circumferential surface of the steel pipe 110. .

In addition, the inward flange portion 142a formed in the insertion portion 142 of the pole-to-socket 140 has the insertion portion 142 so that the insertion portion 142 firmly supports the lower end portion of the pole pole 130. The pressing force of the pole 130 to be transferred is dispersed in all directions.

That is, the pole-to-socket 140 is in contact with the inner circumferential surface of the right angle bending portion 146 of the steel pipe 110, the inward flange portion 142a formed on the upper end of the insertion portion 142 is the insertion portion Reinforcing the upper end of the 142, the flange portion 144 supports the lower end of the pole 130 so as to firmly support the pole 130.

On the other hand, the internal sleeve 170 supports the inner peripheral surface of the lower end of the arm 160 to prevent the arm 160 to flow with the pole 130 is separated from the pole 130.

That is, the arm 160 may continuously maintain the state connected to the pole 130 by the internal sleeve 170.

Meanwhile, FIG. 3 is a longitudinal cross-sectional view of the street lamp according to another embodiment of the present invention, and illustrates a longitudinal cross-sectional view of the connection portion between the steel pipe 110 and the pole pole 130. The street lamp according to another embodiment of the present invention is a member that reinforces rigidity to the pole-to-socket 140, and the structure of the waterproof cap 150 is a difference from the above-described street lamp. Therefore, referring to the accompanying drawings, a street lamp according to another embodiment of the present invention will be described.

As shown, the street lamp according to another embodiment of the present invention is the pole 130 so that the lower end of the pole 130 inserted into the upper end of the steel pipe 110 is more firmly supported on the inner circumferential surface of the steel pipe 110. The disc ring 148 is inserted into the steel pipe 110 so that the outer circumferential surface of the steel pipe 110 is supported by the inner circumferential surface of the steel pipe 110.

The disc ring 148 is inserted into the lower end of the pole 130 as shown enlarged in the lower right of the figure to be stably disposed in the interior of the steel pipe 110 with the lower end of the pole 130. After being inserted into the steel pipe 110 is seated on the pole-to-socket 140.

In addition, the disc ring 148 is fixed to the outer circumferential surface of the pole 130 by the TIG or all-round welding so that the inner circumferential surface is permanently fixed to the steel pipe (110).

The disc ring 148 as described above supports the outer circumferential surface of the pole 130 in a state in which the outer circumferential surface is supported on the inner circumferential surface of the steel pipe 110.

In addition, the disc ring 148 compensates for the empty space between the right angle bent portion 146 of the pole-to-socket 140 and the outer circumferential surface of the pole 130 as shown.

As described above, the disc ring 148 supports the pole 130 while compensating for the empty space between the right angle bent portion 146 and the outer circumferential surface of the pole 130. Supported.

On the other hand, the waterproof cap 150 corresponds to the outer diameter (d) of the pole pole 130 as shown, so that the lower end of the pole pole 130 exposed to the upper portion of the steel pipe 110, the upper edge is On the outer circumferential surface of the pole 130 is formed a cylindrical upper end portion 152 which is fixed in an all-round weld (WD).

The upper extension portion 152 as described above is extended to the upper portion of the waterproof cap 150 as shown in the upper right of the drawing to support the outer circumferential surface of the pole 130 in close contact with the steel pipe 110 Supporting while wrapping the outer peripheral surface of the lower end of the pole 130 exposed to the upper end of.

As described above, since the upper end portion 152 of the waterproof cap 150 supports the lower end of the pole base 130, the pole base 130 is more firmly supported by the upper end portion 152.

Street lamp according to the present invention as described above, because the ribs support the lower end of the steel pipe block the flow moment of the steel pipe transmitted from the steel pipe to the upper surface side of the inner circumferential surface of the flange through the inclined incision hole, the lower end of the rib is the flow moment of the steel pipe There is an effect that can be prevented from being separated from the flange by.

In addition, since the flange portion of the pole pole socket supports the lower end of the pole pole inside the steel pipe, and the pole pole socket insert portion is inserted into the pole pole bottom portion and supports the bottom pole pole, the pole pole socket alone can firmly support the bottom pole pole pole. It also works.

In addition, since the inward flange portion formed on the upper end of the pole-to-socket portion strengthens the rigidity of the insertion portion, the pole-to-socket can independently support the lower end of the pole pole more firmly.

In addition, since the disc ring seated on the upper portion of the pole pole socket supports the outer circumferential surface of the lower end of the pole pole while being supported on the inner circumferential surface of the steel pipe, the pole pole socket can also stably support the pole pole more stably.

In addition, the stop step is formed in the upper end of the steel pipe and pole, there is also an effect that can easily set the pole-to-socket and built-in sleeve.

In addition, since the stop step is formed by the beading process, the stop step formed in the form of a circular decorative strip has an effect of improving the aesthetics of steel pipes and poles.

In addition, since the waterproof cap is fixed to the upper end only by the all-round welding unlike the prior art, it is not only able to easily fix the waterproof cap, but also to reduce the process for fixing the waterproof cap (lower welding and post-processing, etc.).

In addition, since the upper end portion formed on the waterproof cap supports the outer circumferential surface of the lower end of the pole, there is also an effect capable of supporting the lower end of the pole more firmly.

Claims (6)

A concrete foundation 100 embedded in the ground to support the load of the upper portion in the ground; The flange 112 which is bolted to the upper surface of the base 100 so as to be supported by the base 100 is fixed to the bottom by welding, the steel pipe is fixed to the vertical stand on the base 100 ( 110); It is formed in a substantially trapezoidal shape so that the steel pipe 110 is supported by the flange 112 while preventing the flow moment of the steel pipe 110 from being transferred to the inner circumferential surface side upper surface of the flange 112. The lower end 120a constituting one side is welded and fixed on the flange 112 in a state spaced apart from the inner circumferential surface side edge of the flange 112, and one in the vertical state from the inner upper side of the lower end 120a. The inner part 120b constituting the side of the steel pipe 110 is fixed to the outer circumferential surface of the lower side by welding, thereby forming an inclination with respect to the steel pipe 110, and the lower end 120a due to the inclination with the steel pipe 110. And ribs 120 to form an inclined incision hole 122 between the outer peripheral surface of the lower end of the steel pipe 110; The steel pipe 110 is a lower end is inserted into the upper end of the steel pipe 110 to form a straight line in the upper portion of the steel pipe 110, the rib 120 is fixed so that the outer peripheral surface is spaced apart from the inner peripheral surface of the steel pipe 110 A pole 130 vertically formed at an upper portion of the pole; The lower end of the pole 130 is embedded in the upper portion of the steel pipe 110 so as to be integrally connected to the upper inner side of the steel pipe 110 is inserted into the inner peripheral surface of the lower end of the pole 130 is inserted by force, inward to the top A cylindrical insert portion 142 having an inward flange portion 142a that is bent to reinforce rigidity and a plan that is bent outward at right angles from a lower end of the insert portion 142 so that an outer circumferential surface is supported on an inner circumferential surface of the steel pipe 110. Branch 144 and the pole-to-socket 140 made of a right angle bent portion 146 is bent at a right angle at the edge of the flange portion 144 fixed to the inner peripheral surface of the steel pipe 110 by welding or bolting; The pole-to-socket 140 is inserted into the pole 130 so that the bottom end is wrapped around the upper outer peripheral surface of the steel pipe 110, the upper edge of the cylindrical waterproof waterproof all-round welded to the outer peripheral surface of the pole pole 130 Cap 150; An arm 162 equipped with a luminaire LD is installed at one end thereof so as to be perpendicular to the pole pole 130 so that the light is emitted from the upper portion of the pole pole 130 on which the waterproof cap 150 is fixed. An arm band 160 formed to a diameter corresponding to the pole pole 130 and having a lower end facing the upper end of the pole pole 130 and standing vertically on an upper portion of the pole pole 130; And The lower end of the arm 160 is formed to have a diameter corresponding to the inner circumferential surface of the arm 160 to be integrally connected to the upper end of the pole 130, the inner peripheral surface of the lower end of the arm 160 and the pole ( Upper and lower portions are respectively inserted into the inner circumferential surface of the upper end of the upper end portion 130, and the upper and lower inner sleeves 170 are respectively fixed to the arm pole 160 and the pole pole 130 by welding or bolting. The method of claim 1, The rib 120 is formed so that the height (h) of 0.06 ~ 0.12 times the height (H) of the steel pipe 110 to enable the support of the steel pipe (110); The inclined cut hole 122 formed by the rib 120 has a flow moment while preventing the lower end 120a of the rib 120 from being excessively spaced apart from an inner circumferential surface side edge of the flange 112. The width of the flange 112 while having a height (h ') of 0.2 to 0.4 times the height (h) to form a size that can be prevented from being transferred to the inner peripheral surface side upper surface of the flange (112) A width W 'of 0.3 to 0.6 times the width W of the lower end 120a corresponding to the width W'; The pole pole 130, the lower end portion is formed with an outer diameter (d) of 0.4 ~ 0.8 times the inner diameter (D) of the steel pipe 110 to be inserted into the steel pipe (110); The arm stage 160 is formed in the length (AL) of 0.3 to 0.5 times the length (PL) of the pole base 130 so that the lower end is supported on the interior sleeve (170); The interior sleeve 170 is a street light, characterized in that formed in the length (SL) of 0.2 to 0.6 times the length (AL) of the arm band 160 to firmly support the lower end of the arm band (160) . The method of claim 1, wherein the pole-to-socket 140, The outer circumferential surface of the steel pipe 110 is inserted into the lower end of the pole 130 so that the lower end of the pole 130 inserted into the upper end of the steel pipe 110 is more firmly supported on the inner circumferential surface of the steel pipe 110. The disk ring 148 supported by; Street light further comprising. The method of claim 1, wherein the waterproof cap 150, Corresponding to the outer diameter (d) of the pole pole 130 so that the lower end of the pole pole 130 exposed to the upper portion of the steel pipe 110, the upper edge is welded to the outer peripheral surface of the pole pole 130 in an all-round manner The fixed upper end portion 152 of the cylindrical; street light further comprising. The steel pipe 110 according to any one of claims 1 to 4, A stop step 110a protrudes from an inner circumferential surface of which the lower end of the pole-to-socket 140 is located so that the pole-to-socket 140 is easily embedded in the set position. The stop step 110a is formed by beading a portion corresponding to a depth DP of 0.13 to 0.3 times the length PL of the pole 130 at the upper end of the steel pipe 110. Featuring street light. The pole pole 130 according to any one of claims 1 to 4, The stop step 130a protrudes from the inner circumferential surface at which the lower end of the built-in sleeve 170 is located so that the built-in sleeve 170 is easily embedded in the set position. The stop step 130a is formed by beading a portion corresponding to a depth DP of 0.2 to 0.4 times the length PL of the arm pole 160 at an upper end of the pole base 130. Street light characterized in that.

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