CN216406353U - High-stability power tower - Google Patents

Abstract

The utility model relates to the technical field of power towers, and particularly discloses a high-stability power tower which comprises a power tower body, a correcting device, a correcting rod, a rope and a pull rod.

Description

High-stability power tower

Technical Field

The utility model relates to the technical field of power towers, in particular to a power tower with high stability.

Background

In order to meet the electricity consumption requirements of people in life and work, the perfect coverage of the power network is very important, in the laying work of the power network, the power iron tower is an important device for supporting a power cable line, the power iron tower is an important component for long-distance power transmission, the safety and the stability of the power iron tower concern the daily life of residents, and the power iron tower also has great influence on the daily production of enterprises.

To above-mentioned correlation technique, the utility model discloses the people is realizing utility model technical scheme's in-process in this application embodiment, discovers to have following technical problem at least: stability is relatively poor in the use of current electric power iron tower to make wind-resistant strength relatively poor, and the electric power iron tower can take place slight rocking under the influence of wind-force, in long-time use, has aggravated the vibration amplitude of extra-high voltage electric power iron tower, can appear electric power iron tower when serious and damage or even overturn, bring very big inconvenience for the transmission work of electric power.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application solves the problem that the electric power tower is easily affected by wind force to shake and cause unstable structure in the prior art, realizes that the electric power tower is not easily affected by the wind force, can be convenient for adjust the structure of the electric power tower, and improves the stability.

The embodiment of the application provides a high-stability power tower which comprises a power tower body and a straightening device arranged on the power tower body; the straightening device comprises a bracket arranged in the power tower body, a rope arranged on the outer side of the power tower body and a straightening rod arranged in the power tower body; a plurality of ropes are uniformly arranged along the periphery of the power tower body, the upper ends of the ropes are connected with the positions, close to the upper ends, of the centering rods, and the lower ends of the ropes are fixed on the ground; the correcting rod is arranged along the height direction of the power tower body, and the position, close to the upper part, of the correcting rod is connected with the support ball; the bottom of the straightening rod is provided with an adjusting mechanism; the rope is connected with the adjusting mechanism through a pull rod.

Furthermore, the adjusting mechanism comprises a first spherical seat positioned at the bottom of the power tower body, a first adjusting ball connected with the first spherical seat through a ball, a first fixing rod arranged above the first adjusting ball, a connecting frame arranged on the first fixing rod, a second spherical seat arranged on the connecting frame, and a second adjusting ball connected with the ball in the second spherical seat; a second fixing rod is arranged on the second adjusting ball; the bottom of the straightening rod is provided with a movable groove; the second fixed rod is inserted in the movable groove and is connected with the movable groove in a sliding mode.

Further, the connecting frame comprises a fixing ring arranged on the first fixing rod and a plurality of connecting rods arranged on the circumferential direction of the fixing ring; the connecting rods and the pull rods are arranged in a one-to-one correspondence manner; one end of each pull rod is fixedly connected with the corresponding connecting rod, and the other end of each pull rod is provided with a sliding sleeve; the sliding sleeve is sleeved on the rope; the rope is provided with a positioning part; the sliding sleeve is located in the positioning portion.

Furthermore, the top of the swing rod is fixedly connected with the inner top of the power tower body.

Further, a third spherical seat is arranged in the center of the support; a third adjusting ball is arranged on the correcting rod; the third adjusting ball is connected in the third spherical seat.

Further, the support comprises four support legs arranged in the power tower body and mounting rings arranged at the tops of the four support legs; the third spherical seat is located at the center of the mounting ring, and the third spherical seat is fixedly connected with the mounting ring through a mounting rod.

Furthermore, adjusting rods are arranged on the periphery of the power tower body; the adjusting rods and the ropes are arranged in a one-to-one correspondence mode; one end of the adjusting rod is fixedly connected with the upper end of the rope; the adjusting rod is located at the position, close to the top of the support, of the power tower body.

Further, the rope comprises a first connecting rope connected with the ground, a first connecting disc arranged at the upper end of the first connecting rope, a stud in threaded connection with the first connecting disc, a second connecting disc arranged at the upper end of the stud and a second connecting rope arranged at the upper end of the second connecting disc; the second connecting rope is connected with the centering rod.

Furthermore, the other end of the adjusting rod penetrates through the power tower body and is arranged at an interval with the centering rod; the four adjusting rods are connected with limiting rings between the end parts of the adjusting rods in the power tower body, and the limiting rings and the centering rods are arranged at intervals.

Further, the rope is obliquely arranged from bottom to top in the direction close to the power tower body; the pull rod is obliquely arranged from bottom to top in the direction far away from the power tower body.

The technical scheme provided in the embodiment of the application at least has the following technical effects or advantages:

1. owing to adopted this internal setting of electric power tower to put the device, the tip position of the tower body at the electric power tower body receives wind-force interference easily and takes place the swing, can the automatic adjustment electric power tower body through putting the tip position of the tower through putting the device, has effectively solved among the prior art electric power tower and has taken place to rock and lead to the unstable problem of structure easily by the wind-force influence, has realized making the electric power tower be difficult for receiving the wind-force influence, can be convenient for adjust self structure, the effect of improvement stability.

2. Due to the adoption of the structure of the centering rod, the upper end of the centering rod is connected with the tower tip of the power tower body, and due to the fact that the centering rod is connected with the support top ball, after the power tower body is disturbed by wind power, the adjusting mechanism can be driven by the centering rod to tighten the rope, so that the structure of the power tower body is automatically adjusted, and the power tower body is more stable.

3. Due to the adoption of the structure of the rope, the rope can be properly adjusted and locked after being used for a long time, so that the rope is tensioned on the power tower body, and the structural stability of the power tower body is further enhanced.

Drawings

Fig. 1 is a schematic structural view of the whole in the embodiment of the present application;

FIG. 2 is a schematic bottom structure diagram of a power tower body according to an embodiment of the present disclosure;

FIG. 3 is a schematic view of the mounting of the bracket and adjustment structure in an embodiment of the present application;

FIG. 4 is an enlarged schematic view at A in FIG. 3;

FIG. 5 is an enlarged schematic view at B in FIG. 3;

FIG. 6 is an enlarged schematic view at C of FIG. 3;

in the figure: 1. a power tower body; 11. a gravity block; 12. adjusting a rod; 13. a limiting ring; 2. a straightening device; 3. a support; 31. a fixed block; 32. a support leg; 33. a mounting ring; 34. a reinforcing rod; 35. a third spherical seat; 36. erecting a rod; 4. a rope; 41. a first connecting rope; 42. a first splice tray; 43. a stud; 44. a second connecting disc; 45. a second connecting rope; 46. a fixed seat; 461. positioning blocks; 462. a positioning column; 463. positioning the barbs; 47. a connecting spring; 48. a positioning part; 5. a straightening rod; 51. a third adjusting ball; 52. a movable groove; 6. a pull rod; 61. a sliding sleeve; 7. an adjustment mechanism; 71. a first spherical seat; 72. a first adjusting ball; 73. a first fixing lever; 74. a connecting frame; 741. a fixing ring; 742. a connecting rod; 75. a second spherical seat; 76. a second adjusting ball; 77. a second fixing bar; 78. a base.

Detailed Description

The embodiment of the application discloses an electric power tower that stability is high, through setting up the device 2 of ajusting, utilize the pole 5 of ajusting to be connected fixedly with the tower point department of electric power tower body 1, because the tower point department receives wind-force disturbance the biggest, it takes place to deflect with the junction with support 3 as the center to drive the pole 5 of ajusting, make the lower extreme drive adjustment mechanism 7 of the pole 5 of ajusting, take-up rope 4, adjust electric power tower body 1, the problem that the electric power tower is influenced by wind-force easily and is rocked and lead to the unstable structure among the prior art has been solved, realized making the electric power tower be difficult for receiving the wind-force influence, can be convenient for adjust self structure, improve the effect of stability.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Referring to fig. 1 and 2, a high-stability power tower comprises a power tower body 1 and a straightening device 2, wherein the outer diameter of the power tower body 1 is gradually decreased from bottom to top, four support legs at the bottom of the power tower body 1 are fixedly provided with gravity blocks 11, and the gravity blocks 11 are buried in the deep part of the ground and used for improving the support and fixation of the power tower body 1. The aligning device 2 is installed on the inner side and the outer side of the power tower body 1 and used for adjusting and aligning the power tower body 1 in time and improving the structural stability of the power tower body 1.

Referring to fig. 2, 3 and 4, the centering device 2 includes a support 3, a rope 4, a centering rod 5, a pull rod 6 and an adjusting mechanism 7, the support 3 includes a fixing block 31, four supporting legs 32 and a mounting ring 33, the fixing block 31 is embedded in the ground, the number of the supporting legs 32 is four, the bottom of each supporting leg 32 is fixedly connected with one fixing block 31, the mounting ring 33 is fixedly mounted at the upper ends of the four supporting legs 32, and the mounting ring 33 is located between the tower tip and the tower middle of the power tower body 1. Being connected between landing leg 32 and the inboard of electric power tower body 1 and being fixed with gusset bar 34, gusset bar 34 has evenly arranged four around landing leg 32, and gusset bar 34 slope sets up, the tip that gusset bar 34 and electric power tower body 1 are connected is higher than the tip that gusset bar 34 and landing leg 32 are connected for improve the reinforcement to electric power tower body 1, and form irregular shape between gusset bar 34 that the slope set up and the electric power tower body 1, consolidate the support to electric power tower body 1, and then improve electric power tower body 1's stability. The adjusting mechanism 7 is positioned at the bottom of the power tower body 1, and the lower end of the swing rod 5 is connected with the adjusting mechanism 7. Install third spherical seat 35 in the inboard of collar 33, third spherical seat 35 is located the center of collar 33, and the upper and lower terminal surface of third spherical seat 35 is for running through the structure, third spherical seat 35 passes through collar 33 and installation pole fixed connection, fixed mounting has third regulation ball 51 on the pole 5 of ajusting, third regulation ball 51 ball is connected in third spherical seat 35, can use third spherical seat 35 junction as the swing center, convert the tilting force that electric power tower body 1 received into the atress of pole 5 of ajusting, rethread pole 5 of ajusting drives adjustment mechanism 7 and acts on electric power tower body 1, make the tip of tower body 1 can be ajusted. The upper end of pole 5 is ajusted with the interior top fixed connection of electric power tower body 1, fix with the apex of the tower of electric power tower body 1 promptly, can effectively transmit the apex of the tower atress of electric power tower body 1 for the pole 5 of ajusting, rope 4 is provided with four around electric power tower body 1, equal fixed mounting has one all around at electric power tower body 1 to adjust pole 12, four are adjusted pole 12 and four 4 one-to-one settings of rope, adjust 12 level settings of pole, it is located on the position of 5 and the 3 ball connections of support of ajusting to adjust pole 12, and be close to the collar 33 top, the upper end of rope 4 and the tip fixed connection who adjusts pole 12 and pass electric power tower body 1, the lower extreme of rope 4 is fixed in ground. The position that rope 4 is close to ground is connected through pull rod 6 with adjustment mechanism 7, can transmit the power of disturbing that electric power tower body 1 received in the top of the tower department to centering pole 5, drives adjustment mechanism 7 through centering pole 5 for adjustment mechanism 7 drives pull rod 6 and strains rope 4, adjusts centering to electric power tower body 1. In order to further reinforce the support of the centering rod 5 to the power tower body 1, the other end of the adjusting rod 12 passes through the power tower body 1 and stretches into the power tower body 1, and the end of the adjusting rod 12 and the side wall of the centering rod 5 are arranged at intervals, in order to improve the overall connection stability, a limiting ring 13 is fixedly installed between the ends of the four adjusting rods 12 in the power tower body 1, the inner side wall of the limiting ring 13 and the side wall of the centering rod 5 are arranged at intervals, so that the centering rod 5 has a certain range of activity space, when the centering rod 5 is driven by the tower tip of the power tower body 1 to deflect, the limiting ring 13 can limit the centering rod 5, and the strength of the power tower body 1 is enhanced. More preferably, pole setting 36 fixed connection is passed through with the upper end of support 3 to regulation pole 12, and the upper end of centering pole 5 and the tower point department fixed connection of electric power tower body 1, and when the limit deflection took place at the top of electric power tower body 1, regulation pole 12, centering pole 5 and electric power tower body 1 formed the triangle-shaped structure, had the function of high stability, can further strengthen the support to electric power tower body 1 top, improved overall structure's intensity. When the disturbance or the striking that receive wind-force, the swing of the tip of the tower department of power tower body 1 is the biggest, the pole 5 of just centering has certain deformability, and the pole 5 of just centering is connected with support 3 balls, make the pole 5 of just centering drive the emergence of deflecting by the tip of the tower of power tower body 1, when the upper end of the pole 5 of just centering takes place to one side, the rope 4 that is located this side can take place to become flexible, the lower extreme of the pole 5 of just centering takes place to one side in the opposite direction and deflects, drive adjustment mechanism 7 and operate, make adjustment mechanism 7 strain rope 4 in the opposite direction, and then adjust power tower body 1, make power tower body 1 resume normal state.

Referring to fig. 2 and 5, four ropes 4 are installed along the periphery of the power tower body 1, and the whole ropes 4 are obliquely arranged in a direction from bottom to top to be inclined toward the power tower body 1. The rope 4 comprises a first connecting rope 41, a first connecting disc 42, a stud 43, a second connecting disc 44 and a second connecting rope 45, wherein a fixed seat 46 is fixedly installed at the lower end of the first connecting rope 41, the fixed seat 46 comprises a positioning block 461, a positioning column 462 and a positioning barb 463, the diameter of the positioning block 461 is larger than that of the positioning column 462, the positioning column 462 is inserted and fixed in the ground, the positioning block 461 is fixed at the upper end of the positioning column 462 and is attached to the ground, the positioning barb 463 is fixedly installed on the side wall of the positioning column 462 close to the bottom, a plurality of threaded holes are uniformly arranged along the circumferential direction of the positioning column 462 to enhance the connection with the ground, the lower end of the first connecting rope 41 is fixed at the upper end face of the positioning block 461, the first connecting disc 42 is fixedly installed at the upper end of the first connecting rope 41, threaded holes are formed in the end face of the first connecting disc 42 and close to the edge, and the lower end of the second connecting rope 45 is fixedly connected with the second connecting disc 44, the upper end of second connection rope 45 and the tip fixed connection who adjusts pole 12, connecting spring 47 fixed connection is passed through to first connection pad 42 and second connection pad 44 one side in opposite directions, and be close to one side fixed mounting of first connection pad 42 at second connection pad 44 and have a plurality of double-screw bolts 43, a plurality of double-screw bolts 43 are along connecting spring 47's circumference evenly distributed, the other end of double-screw bolt 43 pass the screw hole and with screw hole threaded connection, the lower extreme threaded connection of double-screw bolt 43 has the nut, make first connection rope 41 and second connection rope 45 be connected fixedly, double-screw bolt 43 is hard material and supports, the preferred selection is steel and iron material, through setting up double-screw bolt 43, can adjust the length of rope 4, in time adjust the elasticity of rope 4, strain power tower body 1.

Referring to fig. 2 and 6, the adjusting mechanism 7 includes a first ball seat 71, a first adjusting ball 72, a first fixing rod 73, a connecting frame 74, a second ball seat 75, a second adjusting ball 76, a base 78 is fixedly arranged at the bottom of the bracket 3 and at the position which is jointed with the ground, a first spherical seat 71 is fixedly arranged at the center of the base 78, the opening of the first spherical seat 71 faces to the right upper side, a first adjusting ball 72 is connected in the first spherical seat 71, a first fixed rod 73 is vertically fixed above the first adjusting ball 72, a second spherical seat 75 is fixedly arranged at the upper end of the first fixed rod 73, a second adjusting ball 76 is connected in the second spherical seat 75, a second fixed rod 77 is fixedly connected on the second adjusting ball 76, a movable groove 52 is arranged at the bottom of the centering rod 5, the movable groove 52 is vertically arranged, and the depth of the movable groove 52 is larger than the height of the second fixing rod 77, and the second fixing rod 77 is inserted in the movable groove 52 and is connected with the movable groove 52 in a sliding manner. Under the action of no external force, the extension line of the center line of the centering rod 5 passes through the centers of the first spherical seat 71, the first adjusting ball 72, the first fixing rod 73, the second spherical seat 75, the second adjusting ball 76, the first fixing rod 73 and the second fixing rod 77, and is in a vertical state and consistent with the height direction of the power tower body 1. A connecting frame 74 is fixedly installed on the first fixing rod 73 and located between the first adjusting ball 72 and the second spherical seat 75, the connecting frame 74 includes a fixing ring 741 and a connecting rod 742, the fixing ring 741 is fixedly installed on the first fixing rod 73, the connecting rod 742 is provided with four parts uniformly distributed in the circumferential direction of the fixing ring 741, the connecting rod 742 is horizontally arranged, one end of the connecting rod 742 is fixed to the circumferential direction of the fixing ring 741, the other end of the connecting rod 742 penetrates through the power tower body 1 to extend outwards, the connecting rod 742 is movably matched with the power tower body 1, the connecting rod 742 and the pull rod 6 are arranged in a one-to-one correspondence manner, one end of the pull rod 6 is fixedly connected with the end part of the corresponding connecting rod 742 extending out of the power tower body 1, the other end of the pull rod 6 is fixedly installed with a sliding sleeve 61, the length direction of the sliding sleeve 61 is consistent with the length direction of the pull rod 6, a limiting groove is formed in the sliding sleeve 61, and is formed in the length direction of the sliding sleeve 61, the sliding sleeve 61 is sleeved on the rope 4, the rope 4 is in sliding fit with the limiting groove, and the positioning portion 48 is fixedly installed on the rope 4, so that the sliding sleeve 61 is located in the positioning portion 48. Specifically, location portion 48 is the position ring piece, and location portion 48 fixed mounting is in the second and is connected the position department that rope 45 is close to first connecting rope 41, and location portion 48 and second connection pad 44 are close to mutually, and sliding sleeve 61 is located between location portion 48 and the second connection pad 44, can restrict sliding direction of sliding sleeve 61 better for pull rod 6 plays the better effect of straining to rope 4, and then improves the installation stability to power tower body 1.

The working principle of the embodiment of the application is as follows: when the power tower body 1 is disturbed by wind power or impacted by foreign matters, the power borne by the tower tip is the largest. In order to analyze the force applied to the power tower body 1, it is assumed that the tower tip of the power tower body 1 is applied with wind from right to left.

The direction of the tower tip of the power tower body 1 is deflected from the right to the left, the top of the aligning rod 5 is fixedly connected with the tower tip of the power tower body 1, the aligning rod 5 is driven to deflect by taking the third spherical seat 35 as the center, the deflection direction of the upper end of the aligning rod 5 is the same as that of the tower tip of the power tower body 1, the deflection direction of the lower end of the aligning rod 5 is opposite to that of the upper end of the aligning rod 5, the lower end of the aligning rod 5 is in splicing fit with the second fixing rod 77, when the aligning rod 5 deflects from the right to the left, the second fixing rod 77 is driven to deflect, the second fixing rod 77 has certain deformation capacity, when the second fixing rod 77 deflects, an acting force is generated on the second spherical seat 75, the second spherical seat 75 is fixedly connected with the first adjusting ball 72 through the first fixing rod 73, the first adjusting ball 72 is limited by the first spherical seat 71 fixed on the ground, so that the second spherical seat 75, the first adjusting ball 72 is limited by the first spherical seat 71 fixed on the ground, and the second spherical seat 75, The first fixing lever 73 and the first adjusting ball 72 are deflected from left to right downward with the first ball seat 71 as a rotation center.

When the first fixing rod 73 deflects from the left lower side to the right lower side, the connecting frame 74 is driven to deflect from the left lower side to the right lower side, the two ends of the connecting frame 74 are connected with the pull rods 6, the left side of the connecting frame 74 rotates upwards, the right side of the connecting frame 74 rotates downwards, under the action of the left pull rod 6 of the connecting frame 74, the left sliding sleeve 61 moves upwards along the rope 4 in a slanting direction, the pull rod 6 on the right side of the connecting frame 74 drives the right sliding sleeve 61 to pull towards the direction close to the bottom of the power tower body 1, the rope 4 on the side opposite to the tower tip deflection direction of the power tower body 1 is tensioned, therefore, the power tower body 1 can be straightened in time, the overall stability of the power tower body 1 is improved, and the strength of the power tower body 1 is enhanced.

To sum up, when the power tower body 1 receives wind power of one side to deflect the tower tip of the power tower body 1, the adjusting mechanism 7 is driven to act through the aligning rod 5, so that the rope 4 on one side opposite to the received wind power is tensioned, and the power tower body 1 is aligned in time.

The above description is only for the preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can substitute or change the technical solution and its concept of the present application within the technical scope disclosed in the present application, and shall be covered by the scope of the present application.

Claims (10)

1. The power tower with high stability is characterized by comprising a power tower body (1) and a centering device (2) arranged on the power tower body (1);

the straightening device (2) comprises a bracket (3) arranged in the power tower body (1), a rope (4) arranged on the outer side of the power tower body (1) and a straightening rod (5) arranged in the power tower body (1);

a plurality of ropes (4) are uniformly arranged around the power tower body (1), the upper ends of the ropes (4) are connected with the positions, close to the upper ends, of the straightening rods (5), and the lower ends of the ropes (4) are fixed on the ground; the straightening rod (5) is arranged along the height direction of the power tower body (1), and the position, close to the upper part, of the straightening rod (5) is connected with the support (3) in a ball connection mode;

the bottom of the straightening rod (5) is provided with an adjusting mechanism (7); the rope (4) is connected with the adjusting mechanism (7) through a pull rod (6).

2. The power tower with high stability as claimed in claim 1, wherein the adjusting mechanism (7) comprises a first spherical seat (71) located at the bottom of the power tower body (1), a first adjusting ball (72) connected to the first spherical seat (71), a first fixing rod (73) arranged above the first adjusting ball (72), a connecting frame (74) arranged on the first fixing rod (73), a second spherical seat (75) arranged on the connecting frame (74), and a second adjusting ball (76) connected to the second spherical seat (75);

a second fixing rod (77) is arranged on the second adjusting ball (76); the bottom of the straightening rod (5) is provided with a movable groove (52); the second fixing rod (77) is inserted in the movable groove (52) and is connected with the movable groove (52) in a sliding mode.

3. A tower as claimed in claim 2, wherein the connecting frame (74) comprises a fixed ring (741) disposed on the first fixed rod (73), a plurality of connecting rods (742) disposed circumferentially of the fixed ring (741);

the connecting rods (742) and the pull rods (6) are arranged in a one-to-one correspondence manner; one end of each pull rod (6) is fixedly connected with the corresponding connecting rod (742), and the other end of each pull rod (6) is provided with a sliding sleeve (61); the sliding sleeve (61) is sleeved on the rope (4); a positioning part (48) is arranged on the rope (4); the sliding sleeve (61) is positioned in the positioning part (48).

4. A tower as claimed in claim 1, wherein the top of the rectifying rod (5) is fixed to the top of the tower body (1).

5. A high stability power tower according to claim 1, characterized in that said support (3) is provided with a third spherical seat (35) in the center; a third adjusting ball (51) is arranged on the correcting rod (5); the third adjusting ball (51) is connected in the third spherical seat (35) by a ball.

6. A high stability power tower according to claim 5, wherein said support frame (3) comprises four legs (32) arranged in said power tower body (1), a mounting ring (33) arranged on top of said four legs (32);

the third spherical seat (35) is located in the center of the mounting ring (33), and the third spherical seat (35) is fixedly connected with the mounting ring (33) through a mounting rod.

7. The power tower with high stability as claimed in claim 1, wherein the power tower body (1) is provided with adjusting rods (12) all around; the adjusting rods (12) are arranged in one-to-one correspondence with the ropes (4); one end of the adjusting rod (12) is fixedly connected with the upper end of the rope (4); the adjusting rod (12) is located at the position, close to the top of the support (3), of the power tower body (1).

8. A tower as claimed in claim 1, wherein the rope (4) comprises a first connecting rope (41) connected to the ground, a first connecting plate (42) disposed at the upper end of the first connecting rope (41), a stud (43) screwed to the first connecting plate (42), a second connecting plate (44) disposed at the upper end of the stud (43), and a second connecting rope (45) disposed at the upper end of the second connecting plate (44);

the second connecting rope (45) is connected with the correcting rod (5).

9. A high stability power tower as claimed in claim 7, wherein the other end of said adjusting rod (12) passes through said power tower body (1) and is spaced from said rectifying rod (5);

the four adjusting rods (12) are located between the end portions of the power tower body (1) and are connected with limiting rings (13), and the limiting rings (13) and the straightening rods (5) are arranged at intervals.

10. A high stability electric power tower as claimed in claim 1, wherein said rope (4) is inclined from bottom to top in a direction close to said electric power tower body (1); the pull rod (6) is obliquely arranged from bottom to top in the direction away from the power tower body (1).

Images