KR101884924B1 - An earthquake-proof power pole for power-transmission and distribution and transformation - Google Patents

Abstract

The present invention relates to an earthquake-proof power pole for power transmission, power distribution, and power transformation and, more specifically, relates to an earthquake-proof power pole for power transmission, power distribution, and power transformation, which has a divided structure that is vertically coupled against an external shock. According to the present invention, in the earthquake-proof power pole for power transmission, power distribution, and power transformation, when a wobble is generated by an external shock, an upper electric pole member is moved with respect to a lower electric pole member, and the shock is absorbed by an elastic member. Moreover, the upper electric pole member returns to an original position to reduce a wobble width in an upper portion for bending occurrence to be restricted.

Description

An earthquake-proof power pole for transmission, distribution, and transformation with earthquake-proof function.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a transmission, distribution, and transmission telephone pole having an earthquake-proof function, and more particularly, to a transmission pole having an earthquake-proof function, This is about a telephone pole.

Telephone poles, called poles, electric poles, etc., are pillars built to stretch wires and telecommunication lines, mainly made of steel pipes and concrete.

Since the concrete poles are manufactured in one piece, it is difficult to secure facility and space of the production line due to the extension length, and there is a drawback in that it is not easy to carry and install.

On the other hand, a telephone pole made of a steel pipe has an advantage in that a plurality of steel pipes are mutually coupled in the longitudinal direction, and thus it is easy to carry and install.

However, in the case of the electric pole made of steel pipe, if the internal ties of the steel pipes are insufficient, if a twist phenomenon occurs due to the upper load or external impact of the electric pole, defects may be generated in the joints of the steel pipes.

Korean Patent Publication No. 10-1409448 discloses a transmission apparatus for power transmission, distribution, and transmission of a steel material having a reinforced internal connection between an upper and lower electric pole members.

However, in such a telecommunication device, the internal connection between the upper and lower electromagnet members is strengthened, so that the vibrations generated by the external impact are transmitted to the upper portion of the telephone main body as it is and vibration is transmitted to the wires or communication lines, There is a disadvantage that it can be enlarged.

Korean Patent Registration No. 10-1409448: Transmission, distribution, transformer steel pole joints.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide an electric shock absorber in which the upper pole member can be moved relative to the lower pole member in the event of a shaking due to an external impact while strengthening the internal connection between the upper pole member and the lower pole member, To provide a power transmission, distribution, and transmission telephone pole with an earthquake-proof function that can prevent the occurrence of warping by reducing the width of the upper swing.

In order to achieve the above object, the present invention provides a power transmission, distribution and transmission telephone system having an earthquake-proof function, the telephone pole being fixed to the ground and extending in the vertical direction, a first flange portion formed at an upper end thereof, Wow; And a second flange portion for engaging with the first flange portion at a lower end thereof, the upper pole member having a hollow columnar shape extending in the vertical direction; When the lower and upper electromagnet members are shaken by an external impact, the upper electromagnet member is resiliently supported with respect to the lower electromagnet member so that the upper electromagnet member is laterally displaced and restored relative to the lower electromagnet member And shake reducing means for reducing shake caused by the impact.

Wherein the vibration reducing means includes a plurality of coupling bolts for coupling the lower electromagnet member and the upper electromagnet member to the second flange at a position above each of the plurality of first bolt through holes of the first flange, A second bolt through-hole penetrating the first bolt through-hole and penetrating the coupling bolt inwardly and having an inner diameter larger than that of the first bolt through-hole, and a second bolt hole having a diameter corresponding to an inner diameter of the lower electric pole member, The lower end of the lower arm member is inserted into the lower end of the lower arm member, and the upper arm member is inserted into the lower arm member. An outer diameter enlarging portion for fixing the position of the lower electromagnet member inserting portion, and an outer diameter enlarging portion having a diameter smaller than the inner diameter of the upper electromagnet member, An inner reinforcement member extending upward and spaced apart from an inner circumferential surface of the upper electrophoresis member to form a spacing space and provided with an upper electromagnet member inserting portion inserted into the upper electrospin member; Wherein the upper pole member is inserted into the upper pole member and the upper pole member is inserted into the lower pole member, And an elastic member for extending the one side in the circumferential direction according to the distance and providing the elastic force for restoring the position of the upper electrophoresis member while the other side is elongated and contracted.

The elastic members are each in contact with the inner circumferential surface of the electric pole member and spaced apart from one another in the circumferential direction and extend in the direction of the outer circumferential surface of the upper electroconductive member insertion portion, A plurality of stretchable and stretchable portions each having first and second extending portions extending close to each other and spaced from each other in a circumferential direction and extending or contracted in the circumferential direction in accordance with the spacing distance of the spaced spaces, The first and second extension portions are moved toward or away from each other in accordance with the spacing distance of the spacing space, and the width of the first and second extension portions It is preferable that they are formed thickly.

The shake reducing means may be disposed between the guide portion and the outer circumferential surface of the upper electromagnet member insertion portion when the stretchable and contractible portion of the elastic member is stretchable and contractible according to the spacing distance of the upper electromagnet member insertion portion with respect to the inner circumferential surface of the upper electromotive member And a plurality of auxiliary earthquake-resistant units positioned to provide restoring force together with the elastic members so that the upper pole member is restored to its original position.

Wherein the auxiliary vibration-proof unit is mounted on the guide portion facing the outer circumferential surface of the upper pole member insertion portion so as to be spaced apart from each other in the vertical direction, and each extending in parallel with the outer circumferential surface of the upper pole member insertion portion, A plurality of coil springs extending and retracted when the position of the lower and upper electromagnet members is expanded and contracted when the position of the upper and lower electromagnet members is shifted relative to the lower electromagnet member, A spring support member formed of a curved surface having an arc curvature corresponding to the outer circumferential surface of the insertion portion and supporting movement of the coil spring when the guide portion is moved in the circumferential direction due to elongation and contraction of the stretchable and contractible portion; It is possible to rotate while being in contact with the outer peripheral surface of the upper electromagnet member insertion portion And a plurality of guide rollers.

The power transmission, distribution, and electric pole transmission with seismic function according to the present invention further includes a friction reducing means for reducing the friction with the lower electric pole member when the upper electric pole member is moved and positioned laterally Wherein the frictional reducing means includes a plurality of inlet grooves that are drawn downward from an upper surface of the first flange portion and spaced apart from each other along the periphery of the first flange portion, And a plurality of support balls inserted into the plurality of inlet grooves so as to be spaced apart upward and protruding from the upper surface of the first flange portion and rotatably inserted into the inlet grooves to support the first flange portion.

In the transmission, distribution, and telephone pole with seismic function of the present invention, the upper pole member can be moved with respect to the lower pole member when the outer pole member is shaken by an external impact, and the shock buffer and the position of the upper pole member can be restored by the elastic member It is advantageous that the shaking width of the upper portion is reduced and the occurrence of warpage can be suppressed.

FIG. 1 is an exploded perspective view of a power transmission, distribution, and transmission poles having an earthquake-proof function according to a first embodiment of the present invention,
Fig. 2 is a plan sectional view of the electric pole of Fig. 1,
Fig. 3 is a plan sectional view showing a state in which the upper pole member of Fig. 1 is moved in one direction with respect to the lower pole member,
FIG. 4 is a partial cross-sectional view of the electric pole shown in FIG. 1 in which the inner reinforcing member is supported in the upper and lower electromagnets,
Fig. 5 is a partial cross-sectional view of a telephone main body provided on the first flange portion of Fig. 1 and showing a friction reducing means for supporting the second flange portion,
6 is a horizontal cross-sectional view of a power transmission line, a power distribution line, and a change-over telephone line with an earthquake-proof function according to a second embodiment of the present invention,
FIG. 7 is a partial cross-sectional view of a power transmission, power distribution, and transmission pole with an earthquake-proof function according to a third embodiment of the present invention,
FIG. 8 is a perspective view of transmission, distribution, and transmission poles having an earthquake-proof function according to a fourth embodiment of the present invention,
Fig. 9 is a side view of the electric pole shown in Fig. 8; Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following description taken in conjunction with the accompanying drawings, in which: FIG.

Figs. 1 to 5 show transmission, distribution and transmission poles having an earthquake-proof function according to the first embodiment of the present invention.

The power transmission, distribution and switching telephone poles 1, which can prevent the occurrence of warpage according to the first embodiment of the present invention, are formed in a segmented shape for connecting cables used in transmission, distribution, or substation facilities. 1, a telephone pole according to a first embodiment of the present invention includes a lower electric pole member 10 and an upper electric pole member 20 which are vertically coupled to each other and a lower electric pole member A plurality of engaging units 50 and a plurality of engaging units 50 which are provided between the lower and upper electromotive members 10 and 20 to reduce the shaking of the lower electromotive member 10 and the upper electromotive member 20 And a friction reducing means for reducing the friction between the lower and upper electric pole members 10 and 20.

The lower electric pole member 10 has a hollow cylindrical shape and is fixed to the ground so as to extend in the vertical direction. The lower electric pole member 10 has a cylindrical first main pole body 11 having an inner side penetrated in the longitudinal direction, A base flange portion 18 formed on the lower end of the pole main body 11 so as to have an area larger than the outer diameter of the first pole main body 11 and a base flange portion 18 formed on the upper end of the first pole main body 11, A first flange portion 13 protruding laterally with respect to the outer peripheral surface of the first electric pole main body 11 is formed for engagement with the lower end.

In the first main pole body 11, the upper inner diameter of the inner space 12 is formed so as to be larger than that of the lower portion, so that a step-like supporting step 16 is formed.

The first flange portion 13 is formed with a plurality of first bolt through holes 14 penetrating through the edges in the vertical direction at regular intervals and through which the coupling bolts 51 of the coupling units pass. Although the first flange portion 13 is formed to have a rectangular shape, a polygonal shape other than a circular shape and a rectangular shape may be applied.

The upper pole member 20 has an inner hollow shape and is engaged with the upper end of the lower pole member 10 so as to extend in the vertical direction. The upper pole member 20 is provided at its upper side with a wrist ball (not shown) and an insulator (not shown) for supporting a wire or a communication wire.

The upper pole member 20 includes a cylindrical second pole main body 21 penetrating in the longitudinal direction in the longitudinal direction and a second pole piece 21 at the lower end of the second pole main body 21 for engagement with the first flange portion 13. [ A second flange portion 23 protruding laterally from the outer peripheral surface of the main body 21 is formed.

The second pole main body 21 is coupled with the finishing cap 80 so that the opened top is closed, but the top end may be closed as shown in the figure.

The second flange portion 23 is formed in a rectangular shape like the first flange portion 13 and is positioned above the first flange portion 13. [ The second flange portion 23 is formed at a position corresponding to the first bolt through hole 14 so as to penetrate the coupling bolt 51 and to move laterally with respect to the coupling bolt 51, A plurality of second bolt through holes 24 formed through the inner diameter larger than the hole 14 are formed.

The coupling unit 50 passes through the second bolt through hole 24 of the second flange portion 23 and the first bolt through hole 14 of the first flange portion 13 to move the upper pole member And a head portion 52 having an outer diameter larger than that of the bolt body 53 at an upper end of the bolt body 53; And a coupling nut 54 which is engaged with a bolt body 53 projecting downward with respect to a lower surface of the first flange portion 13.

The shake reducing means may induce the upper pole member 20 to be displaced relative to the lower pole member 10 shaken by an impact such as an earthquake or an external impact may be applied to the lower pole member 10, The upper pole member 20 is elastically supported with respect to the lower pole member 10 so that the upper pole member 20 is restored after the upper pole member 20 is moved laterally.

The vibration reducing means includes a second bolt through hole 24, an inner reinforcing member 30, and an elastic member 40.

The inner reinforcing member 30 is inserted into the upper and lower portions of the lower and upper electromotive members 20 and 20 so that the inner and the lower electromagnet members 20 and 10 So that the elastic member 40 can be supported on the upper portion of the upper portion so as to buffer the shake against the external impact or to restore the position of the upper pole member 20, 1 is formed to have a smaller diameter than the inner diameter of the electric pole main body 21.

1 and 4, the inner reinforcing member 30 includes a lower electromagnet member insertion portion 31, an outer diameter enlarging portion 34, and an upper electromagnet member insertion portion 37.

The lower electric pole member insertion portion 31 has a diameter corresponding to the inner diameter of the lower electric pole member 10 and extends up and down to be inserted into the lower electric pole member 10. [

The outer diameter enlarging portion has an outer diameter larger than the inner diameter of the lower electric pole member 10 at the upper end of the lower electric pole member insertion portion 31 so as to be supported by the supporting step 16 of the first electric pole main body 11, ) Is fixed.

The upper electromagnet member insertion portion 37 has a cylindrical shape extending upward from the center of the outer diameter enlarged portion with a diameter smaller than the inner diameter of the upper electromagnet member and inserted into the upper electromagnet member 20, And is spaced inward relative to the inner peripheral surface.

2 and 3, a spacing space 26 is formed between the inner peripheral surface of the upper main shaft member 21 and the inner surface of the second main shaft main body 21 so that the lower electric pole member 10, The upper pole member 20 can be moved laterally or can be held in position with respect to the swinging lower pole member.

The elastic member 40 elastically supports the upper pole member which is circumferentially extended to surround the periphery of the upper pole member insertion portion 37 in the spacing space 26 and is moved with respect to the lower pole member.

The elastic member 40 is formed of a material such as rubber or urethane which absorbs impact and is capable of restoring shape after extension or expansion and contraction of one side by an external force. As shown in FIG.

On the other hand, when the upper pole member is held by the lower pole member moved by the upper pole member 20 in the one direction by the rocking due to the external impact, And the other side of the spacing space is extended.

The elastic member 40 is disposed in the vicinity of the inner circumferential surface of the upper electrophoresis member 20 in accordance with the spacing of the upper electrophoresis member insertion portion 37 with respect to the inner circumferential surface of the upper electrophoresis member 20 which fluctuates when the upper electrophoresis member 20 moves sideways with respect to the lower electrophoretic member 10. [ The one side is elongated in the circumferential direction and the other side is elongated and contracted to provide an elastic force so that the upper pole member 20 can be restored to its original position.

3, the elastic member 40 is configured such that one side of the middle pole member 20 is moved in one direction with respect to the lower pole member 10 so that the spacing distance of the spacing spaces is narrowed, And is compressed and expanded by one side which is elongated to the left and right in the circumferential direction while the other side is elongated.

2, the elastic member 40 is integrally formed with a plurality of stretchable and contractible portions 41 spaced apart from each other in the circumferential direction, and a plurality of elastic members 40 connecting the adjacent stretchable and contractible portions 40, (44).

The stretchable and contractible stretching portion 41 is a portion that is stretched or stretched in the circumferential direction by being pressed by the upper pole member 20. Each of the stretchable and contractible stretchable portions 41 is extended in the circumferential direction of the upper electromagnet member insertion portion 37 so as to be in contact with the inner circumferential surface of the second electric pole main body 21 in the circumferential direction, And first and second extending portions (42, 43) extending toward the outer circumferential surface of the electromagnet member insertion portion (37).

The first and second extension portions 42 and 43 are formed such that their respective sides are moved toward or away from each other in accordance with the movement of the upper pole member 20 and are formed to have a greater width from one side to the other side in order to increase the elastic force .

The guide sections 44 adjacent to each other with the stretchable and contractible stretching section 41 as a center are disposed at the respective ends of the first and second extending sections 43 and 44 in the circumferential direction And are moved away from each other in the circumferential direction or moved adjacent to each other in accordance with the expansion and contraction of the stretchable and contractible portion 41. The guide portion 44 is provided with a first extending portion 42 or a second extending portion 43 of the stretchable and contractible stretching portion 41 adjacent to the second elongating portion 41 in the moving direction while being moved in the circumferential direction along the inner peripheral surface of the second electric pole main body 21 Pressure.

3, one end of the elastic member 40, which is located on the side where the upper pole member 20 is moved in one direction with respect to the lower pole member 10 and the separation distance of the spacing space 26 is narrowed, The stretchable and contractible stretching portions 41a are stretched in the circumferential direction while being stretched in the circumferential direction while being pressed against the member 20 and the stretching and stretching portions 41 located on the side where the distance of the spacing space 26 is widened are pressed to the right and left in the circumferential direction, do

The guide portions 44 connected to both sides of the stretchable stretchable portion 41a press the stretchable stretchable portions 41b and 41c located on the left and right sides in the circumferential direction of the stretched stretchable and contractible stretchable portion 41a to both sides in the circumferential direction

The stretchable and stretchable stretchable portions 41d extend in the circumferential direction and press the stretchable stretchable portions 41e and 41f adjacent to the stretchable stretchable portions 41d on both sides so as to restore the length thereof through the guide portion.

The elastic member 40 is disposed in such a manner that the elastic expansion members 41 adjacent to each other on both sides of the elastic member 40 are pressed or pressed against each other in accordance with the separation distance of the upper pole member insertion portion 37 with respect to the inner peripheral surface of the upper pole member 10 Thereby providing the upper pole member 20 with an elastic force for restoring the position.

The shake reducing means is mounted on the upper portion of the inner reinforcing member 30 so as to prevent the elastic members 40 from moving upward with respect to the upper pole insert 37 during elongation or extension of the length, And a restricting member (60).

The elastic member movement restricting member 60 is formed in a disk shape and has a movable agent limit portion 61 having an outer diameter larger than that of the upper electromagnet member inserting portion 37 and restricting the upward movement of the elastic member 40, (62) formed to correspond to the outer diameter of the upper electromagnet member inserting portion (62), and an engaging groove (62) extending downward from the lower center side of the outer diameter reducing portion (62) And a screw-engaging portion 63 screwed to the engaging portion 38.

On the other hand, the friction reducing means supports the upper pole member 20 when the upper pole member 20 is displaced in the lateral direction relative to the lower pole member 10 and maintains the friction with the lower pole member 10 .

1 and 5, the friction reducing means is provided between the adjacent first bolt through holes 14 or between the first bolt through hole 14 and the inner space 12 of the first electric pole main body 11, A plurality of ball rotation support grooves 72 which are formed downward from the upper surface of the first flange portion 13 between the first flange portion 13 and the second flange portion 13, The upper end of which is protruded from the upper surface of the first flange portion 13 and is rotatably inserted into the ball rotation support groove 72 so as to be inserted into the second flange portion 23 (Not shown).

The plurality of support balls 71 are spherical and facilitate rotation of the upper pole member 20 while being rotated in the ball rotation support groove 72 when the upper pole member 20 is moved relative to the lower pole member 10.

A plurality of ball rotation support grooves 72 are formed between the support jaws 16 and the first bolt through holes 14 in the circumferential direction along the circumference of the support jaws 16, And an outer ball rotation support groove 72b formed between the first bolt through holes 14 adjacent to each other along the edge of the first flange 13, . ≪ / RTI > Although not shown, it is preferable that a lubricant is applied to the inner circumferential surface of the ball rotation support groove 72 to assist the rotation of the support ball 71.

The operation of transmission, distribution, and telephone poles capable of preventing the occurrence of warpage according to the first embodiment of the present invention having the above-described structure will be described.

The electric pole of the present invention is characterized in that a spacing space 26 is formed between the upper pole member 20 and the upper pole member insertion portion 37 of the inner reinforcing member 30 and the second bolt through- Hole 24 of the first flange 13 is formed to have a larger diameter than the first bolt through hole 14 of the first flange 13 so that an impact due to an external force such as an earthquake is applied to the lower pole member 10, The upper pole member 20 is shifted or held in position with respect to the lower pole member 20 when the upper pole member 20 is shaken or an external impact is applied to the upper pole member 20.

The upper electromotive member 20 is received in the ball rotation support groove 72 and supported by the rotatable support ball 71 to maintain the position with respect to the lower electromotive member 10 or to reduce friction when moving.

When the upper pole member 20 is moved relative to the lower pole member 10, a plurality of elastic members 40 provided in the spacing space 26 become narrower and wider on the one side of the spacing space 26, And is stretched.

The upper pole member 20 is guided to move in a direction opposite to the direction of displacement with respect to the lower pole member 10 by a restoring force on a plurality of elastic members 40 that are elongated or stretched in length.

Specifically, the stretchable and contractible stretching portion 41 stretching the stretched length of the spacing space 26, which is narrowed in the spacing distance, presses the stretching and stretching portions 41 adjacent to both sides and stretches and stretches the stretching stretching portion 26 of the spacing space 26, 41 are pressed against the inner circumferential surface of the second electric pole main body 21 so as to secure a uniform distance in the circumferential direction from the inner circumferential surface of the second electric pole main body 21 ).

The transmission pole, the power distribution pole, and the transmission pole according to the first embodiment of the present invention can be applied to the lower pole member 10 even if the lower pole member 10 is shaken by the impact of an earthquake or an external force, Since the position of the upper pole member 20 is reduced or the swinging of the upper pole member 20 is reduced with respect to the lower pole member 10, the occurrence of warpage is suppressed, and vibration transmission to the upper cable, In addition, even when an impact is applied to the upper pole member, the upper pole member 20 is moved in the lateral direction with respect to the lower pole member 20, It is possible to reduce the upper swing width of the telephone pole according to the present invention.

Meanwhile, FIG. 6 shows a power transmission, distribution and transmission pole with an earthquake-proof function according to a second embodiment of the present invention. Components having the same functions as those in the above-described drawings are denoted by the same reference numerals.

The transmission power distribution, transmission and distribution telephone pole 2 having an earthquake-proof function according to the second embodiment of the present invention can be applied to a plurality of transmission, distribution and transmission telephone poles 1 having an earthquake-proof function according to the second embodiment of the present invention. And an auxiliary earthquake-proof unit (300).

The plurality of auxiliary earthquake-resistant units 300 can be extended or retracted from the elastic members 40 in accordance with the distance from the inner peripheral surface of the second pole main body 21 of the upper pole member 20 to the upper pole member insertion portion 37 41 are positioned between the guide portion 44 and the outer circumferential surfaces of the upper and lower electromagnet member insertion portions 37 during expansion and contraction to provide a restoring force for restoring the position of the upper electromotive member 20.

The plurality of auxiliary earthquake-resistant units 300 includes a plurality of coil springs 310, a spring support member 320, and a plurality of movement guide rollers 330, respectively.

The plurality of coil springs 310 are mounted on the guide portion 44 having one side facing the outer circumferential surface of the upper electromagnet member insertion portion 37 and extending and extending in the direction of the outer circumferential surface of the upper electromagnet member insertion portion 37 And are spaced up and down.

The coil spring 310 is a coil spring that provides restoring force when the upper pole member 20 moves with respect to the lower pole member 10 and the upper pole member 20 has an upper pole The inner peripheral surface of the second electromagnet main body 21 or the outer peripheral surface of the upper electromagnet member insertion portion is elastically pressed to induce the restoration of the position of the upper electromagnet member 20 during compression so that the separation distance from the member insertion portion 37 can be widened.

The spring support member 320 is formed in a rectangular shape extending vertically so as to be coupled with the other ends of the plurality of coil springs 310 spaced apart in the vertical direction, Is formed into a curved surface having an arc curvature corresponding to the outer peripheral surface of the electromagnet member insertion portion (37). The spring support member 320 supports the movement of the coil spring 310 when the guide portion 44 is moved in the circumferential direction due to expansion and contraction of the stretchable and contractible portion 41. The spring support member 320 is formed so as to extend in the circumferential direction of the upper electromagnet member insertion portion 37 to a length greater than the diameter of the coil spring 310, do.

The plurality of moving guide rollers 330 are rotatably mounted on one surface of the spring support member 320 while being in contact with the outer circumferential surface of the upper electromagnet member inserting portion 37 so that the coil spring 310 and the spring support member 320 are mounted, Thereby minimizing the friction when moving.

6, the plurality of movement guide rollers 330 are spaced apart from each other in the circumferential direction of the outer circumferential surface of the upper front retainer insertion portion 37 and extend in the vertical direction of the spring supporting member 320 Respectively.

The power transmission, distribution and transmission telephone pole 2 having an earthquake-proof function according to the second embodiment of the present invention is constructed such that the position restoration of the upper pole member 20 with respect to the lower pole member 10 is performed by the auxiliary earthquake- So that the efficiency of reducing the shake of the upper side can be further increased.

Meanwhile, FIG. 7 shows a power transmission, distribution and transmission pole with an earthquake-proof function according to the third embodiment of the present invention. Components having the same functions as those in the above-described drawings are denoted by the same reference numerals.

The power transmission, distribution, and transmission poles having the earthquake-proof function according to the third embodiment of the present invention further include a plurality of bolt friction reduction supporting portions 27 in the structure of the electric pole according to the first embodiment of the present invention.

The bolt friction reducing support portion 27 is formed as a friction reducing means and protrudes from the upper surface of the second flange portion 23 around the second bolt through hole 24 of the second flange portion 23, The lower surface of the head portion 52 of the head portion 52 is supported.

The bolt friction reduction supporting portion 27 facilitates the movement of the upper pole member 20 because the contact area with the bolt 51 is small and less friction is generated when the upper pole member 20 moves relative to the lower pole member.

Since the upper pole member can be easily moved by an external impact, the length of the elongating / contracting parts 41 of the elastic member 40 can be increased by the elongation / contraction of the upper pole member 40, It is possible to increase the position restoring force and the shake reduction efficiency.

Figs. 8 and 9 show transmission, distribution, and transmission poles having an earthquake-proof function according to the third embodiment of the present invention. Components having the same functions as those in the above-described drawings are denoted by the same reference numerals.

The power transmission, distribution, and transmission poles having the earthquake-proof function according to the third embodiment of the present invention further include an auxiliary position restoration unit in the structure of the electric pole according to the first embodiment of the present invention.

The auxiliary position restoring unit is provided with a plurality of position restoration induction members 20 capable of increasing the position restoring force of the upper pole member 20 by pressing the upper pole member 20, which is moved with respect to the lower pole member 10, (85).

The plurality of position restoration induction pieces 85 are equally spaced apart from each other in the circumferential direction on the first pole main body 11 of the lower pole member 10. [

9, the plurality of position restoration induction pieces 85 are provided on the first electric pole main body 11 so as to be in contact with the respective side surfaces of the second flange portion 23. The upper electric pole member 20 is uniformly So as to be pressurized.

9, the position restoration induction piece 85 includes a main body fixing portion 86 bolted and fixed to an outer circumferential surface of the first main pole body 11, a second main fixing portion 86 extending upward from the upper end of the main body fixing portion 86, An outer enhancement perfume section 87 that extends in the direction away from the first main pole body 11 and that extends upward from the upper end of the outer enhancement perfume section 87 and extends adjacent to the second flange section 23 And a flange abutting portion 89 extending upward from the upper end of the internal improvement enhancer 88 and abutting the side surface of the second flange portion 23. The flange abutting portion 89 abuts against the side surface of the second flange portion 23,

According to the third embodiment of the present invention, it is possible to increase the length of the elastic member, the restoring force of the elastic member, and the restoring force of the upper pole member by means of the facing position restoration induction piece, There is an advantage.

The upper pole member 20 can be moved with respect to the lower pole member 10 and the elastic member 40 can be moved to the lower pole member 10 when a vibration due to an external impact is generated in the transmission, Since the impact buffering and the restoration of the position of the upper electric pole member 20 are induced, the swing width of the upper portion is reduced and the occurrence of warpage can be suppressed.

Although the power transmission, distribution, and transmission poles with the earthquake-proof function according to the present invention have been described with reference to the embodiments shown in the drawings, it is to be understood that those skilled in the art will appreciate that various modifications, It will be appreciated that other equivalent embodiments are possible. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: lower electric pole member 11: first electric pole main body
13: first flange portion 14: first bolt through-hole
16: support jaw 20: upper pole member
21: second electric pole main body 23: second flange portion
24: second bolt through hole 30: inner reinforcement member
31: lower pole member insertion portion 34: outer diameter enlarging portion
37: upper pole member insertion portion 40: elastic member
41: stretching and stretching part 42: first extension part
43: second extension part 44: guide part
50: coupling unit 51: coupling bolt
54: engaging nut 60: elastic member movement restricting member
71: support ball 72: ball rotation support groove
300: auxiliary earthquake-proof unit 310: coil spring
320: spring support member 330: movement guide roller

Claims (3)

A lower columnar member fixedly installed on the ground and extending in the vertical direction and having a first flange portion at an upper end and an inner hollow portion;
And a second flange portion for engaging with the first flange portion at a lower end thereof, the upper pole member having a hollow columnar shape extending in the vertical direction;
When the lower and upper electromagnet members are shaken by an external impact, the upper electromagnet member is resiliently supported with respect to the lower electromagnet member so that the upper electromagnet member is laterally displaced and restored relative to the lower electromagnet member Shake reducing means for reducing shake caused by impact,
The shake reducing means
And a plurality of coupling bolts for mutual coupling of the lower electromotive member and the upper electromagnet member are respectively passed through the first flange portions at upper positions of the plurality of first bolt through holes of the first flange, A second bolt through-hole penetrating the coupling bolt inwardly and having an inner diameter wider than the first bolt through-hole,
A lower electromagnet member insertion portion having a diameter corresponding to an inner diameter of the lower electromotive element and extending up and down to be inserted into the lower electromotive element; An outer diameter enlarging portion having an outer diameter larger than that of the lower insertion portion of the lower electric pole member to fix the position of the lower electric pole insertion portion to the upper end of the lower electric pole insertion portion, An inner reinforcement member extending upward and spaced apart from an inner circumferential surface of the upper electrophoresis member to form a spacing space and provided with an upper electromagnet member inserting portion inserted into the upper electrospin member;
Wherein the upper pole member is inserted into the upper pole member and the upper pole member is inserted into the lower pole member, And an elastic member provided on one side of the upper pole member so as to be elastically displaced in the circumferential direction,
The elastic member
Each of which is adjacent to the inner circumferential surface of the upper electromagnet member and spaced apart from each other in the circumferential direction and extends in the direction of the outer circumferential surface of the upper electromagnet member insertion portion and extends so as to be closer to the outer circumferential surface of the upper electromagnet member insertion portion, A plurality of stretchable and stretchable portions each having first and second extending portions and spaced apart from each other in the circumferential direction and extending or stretched in the circumferential direction according to the spacing distance of the spaced spaces;
And a plurality of guide portions connected to the adjacent stretching and extending portions and extending in a curved shape along the inner circumferential surface of the upper pole member,
The first and second extensions
Each one side is moved adjacent to or spaced apart from each other according to the spacing distance of the spacing space, and each width is formed thicker from one side to the other side,
The shake reducing means
The extension and contraction portion of the elastic member is positioned between the guide portion and the outer circumferential surface of the upper electromagnet member insertion portion at the time of elongating and contracting according to the spacing distance of the upper electromagnet member insertion portion with respect to the inner circumferential surface of the upper electromotive element, Further comprising a plurality of auxiliary earthquake-resistant units for providing a restoring force together with the elastic members so as to restore the position thereof. The apparatus according to claim 1, wherein the auxiliary earthquake-resistant unit
One end of each of the upper and lower electromagnet members is mounted on the guide portion facing the outer circumferential surface of the upper electromagnet member insertion portion so as to be spaced apart from each other in the vertical direction and each extending in parallel with the outer circumferential surface direction of the upper electromagnet member insertion portion, A plurality of coil springs for providing a restoring force while being expanded and contracted when the position is moved,
Wherein one end face of the plurality of coil springs is formed to extend in the vertical direction so as to be mounted thereon and a face facing the upper pole member insertion portion is formed into a curved surface having an arc curvature corresponding to the outer peripheral face of the upper pole member insertion portion, A spring support member for supporting the movement of the coil spring when the guide portion is moved in the circumferential direction according to the elongation,
And a plurality of movement guide rollers mounted on one side of the spring support member so as to be rotatable while contacting the outer circumferential surface of the upper electromagnet member insertion portion. The method according to claim 1,
Further comprising a friction reducing means for reducing friction with the lower electric pole member when the upper electric pole member is laterally displaced and restored to the lower electric pole member,
The friction reducing means
A plurality of inlet grooves extending downward from an upper surface of the first flange portion and spaced from each other along the circumference of the first flange portion,
Wherein the second flange portion is inserted into each of the plurality of the inlet grooves so as to be spaced upward from the first flange portion and the upper portion is protruded from the upper surface of the first flange portion and is rotatably inserted into the inlet groove, And a plurality of support balls for supporting the branch portion.

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