CN210738207U - Prevent down wire pole - Google Patents

Abstract

The utility model relates to a power supply unit field prevent down wire pole aims at solving the problem that the wire pole prevented toppling, and it is including burying underground the section underground and exposing the body of rod on ground underground, buries underground the section periphery and is equipped with the branch that deviates from the axle center diffusion of burying underground the section, and the branch is burying underground the axial direction of section and the direction alternate distribution of section axial direction in the perpendicular to underground. The branch includes the last branch that inclines and the decline branch that deviates from the body of rod direction of orientation towards body of rod direction slope, goes up the slope branch and sets up in the one side of burying the center of section axial direction towards the body of rod underground, and the decline branch sets up in the one side that deviates from the body of rod underground in the center of section axial direction. The utility model discloses have the effect that stabilizes the wire pole and prevent it from empting.

Description

Prevent down wire pole

Technical Field

The utility model belongs to the technical field of power supply unit's technique and specifically relates to a prevent down wire pole is related to.

Background

The telegraph pole is used as a support for supporting and erecting various electric wires for power transmission, the existing telegraph pole is mainly made of three materials, namely wood, a steel frame and reinforced concrete, and the reinforced concrete telegraph pole is particularly applied to urban and rural 10KV power distribution networks.

Prior publication CN206220627U discloses a utility pole, which comprises a pole body, a lightning arrester and a grounding device. The rod body is provided with a conductor, and the lightning arrester is arranged at the top of the rod body and used for guiding lightning to discharge. The grounding device is arranged at the bottom of the rod body and is connected with the lightning arrester through a conductor, and the grounding device is used for introducing thunder into the ground. The lightning arrester comprises a lightning rod and a fixing piece, wherein the fixing piece is arranged at the top of the rod body and is connected with the electric conductor, and the lightning rod is arranged on the fixing piece.

When thunder and lightning exist, the lightning arrester at the top of the pole body guides the thunder and lightning to discharge, the generated thunder and lightning overvoltage is transmitted to the grounding device at the bottom of the pole body from top to bottom through the electric conductor, and then the grounding device introduces the ground, so that the thunder and lightning guiding process is completed, and the electric power equipment on the telegraph pole and things near the telegraph pole are protected.

The above prior art solutions have the following drawbacks: the one end of the body of rod is buried underground with subaerial, and the one end that the ground was kept away from to the body of rod can be connected with the electric wire that needs erect, and the electric wire has certain pulling force to the body of rod, and the effect grow and the soil that the body of rod received can become rare soft by the rainwater soaking simultaneously when windscreen wiper wind down, and the body of rod pulls out the ground from subaerial easily, and the wire pole takes place to empty.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a prevent down wire pole, have the effect that stabilizes the wire pole and prevent it from empting to the not enough of prior art existence.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a prevent down wire pole, includes buries underground in the subaerial section of burying underground and exposes the body of rod on ground, bury the section periphery underground and be equipped with the branch that the axle center that deviates from the section of burying underground spreads, the branch is in the axial direction of burying underground the section and the direction of burying underground the section axial direction's direction distribution in turn of perpendicular to.

By adopting the technical scheme, the contact area between the branches of the embedding section and the soil on the ground is increased, the ground gripping performance of the embedding section is improved, and the telegraph pole can stand on the ground more stably; meanwhile, the branches are alternately distributed in the axial direction of the embedded section and the direction perpendicular to the axial direction of the embedded section, so that the branches are in contact with the soil on different horizontal layers and vertical layers, and the connection stability of the embedded section and the ground soil is further improved.

The utility model discloses further set up to: the branch includes the last branch of inclining towards body of rod direction slope and the decline branch that deviates from the body of rod direction of orientation, the last branch that inclines sets up in the center of burying section axial direction towards one side of the body of rod underground, decline branch set up in the center of burying section axial direction and deviate from one side of the body of rod underground.

Through adopting above-mentioned technical scheme, the section is buried underground in the increase of slope branch resistance of upwards moving the in-process, and the section is buried underground in the increase of slope branch down gets into the degree of depth of soil, and slope branch down improve and bury underground the section stability in subaerial soil.

The utility model discloses further set up to: a connecting column is arranged between the upper inclined branch and the lower inclined branch which are close to the axial direction center of the embedding section.

By adopting the technical scheme, the connecting column fills the space between the upper inclined branch and the lower inclined branch, so that the branches are contacted with the ground soil as much as possible, the friction force between the embedded section and the ground soil is increased, and the stability of the embedded section in the ground is improved.

The utility model discloses further set up to: one end of each branch close to the embedding section is provided with a ring sleeve which is sleeved on the periphery of the embedding section, a gap is formed between the inner wall of the ring sleeve and the outer wall of the embedding section, and concrete is arranged in the gap.

By adopting the technical scheme, the branches are arranged on the ring sleeves, when the telegraph pole is buried underground, the ring sleeves are firstly placed in the excavated foundation pit, then the burying sections are arranged in the ring sleeves, the ring sleeves are connected with the burying sections through in-situ concrete pouring, the ring sleeves and the concrete enable the branches to be stable and connected with the burying sections, the telegraph pole and the ring sleeves can be separately transported in the transportation process, the occupied space during transportation is reduced, and the transportation is convenient.

The utility model discloses further set up to: the branch is arranged in a hollow mode and communicated with the ring sleeve, and a plurality of through holes communicated with the inside of the branch are formed in the branch.

By adopting the technical scheme, the concrete poured on site enters the branch from the ring sleeve and then flows out from the through hole, so that the integrity of the branch and the ring sleeve is improved, and the strength of the branch and the ring sleeve is enhanced. Meanwhile, concrete flowing out of the through holes permeates into soil, gaps in the soil are filled, the concrete entering the soil is in a net-shaped irregular shape and is integrated with the concrete in the branches and the ring sleeves, the foundation area of the concrete and the soil is greatly enhanced, the resistance of the branches and the soil is increased, the branches and the soil are enhanced to be connected, the ring sleeves and the embedded sections are connected through the concrete, and therefore the stability of the embedded sections in the soil is improved.

The utility model discloses further set up to: bury the inside cavity setting of section underground, the inner wall that the ring cover deviates from body of rod one end is equipped with the horizontal pole, the horizontal pole with bury the section underground and keep away from the one end butt of the body of rod.

Through adopting above-mentioned technical scheme, bury the section and consequently bury the section and keep away from the one end of the body of rod with the soil butt concrete of foundation ditch underground and can follow the section of burying underground towards the one end of horizontal pole and get into to bury underground the section inner chamber underground, the reinforcing ring cover with bury the section of burying underground be connected, improve the stability of burying section and soil connection underground.

The utility model discloses further set up to: the inner wall of the end, far away from the rod body, of the ring sleeve is evenly provided with stop rods with the same shape, and one side, far away from the ring sleeve, of each stop rod is abutted to the outer wall of the embedded section.

By adopting the technical scheme, the stop rods with the same shapes are all abutted with the embedding sections, so that the embedding sections are vertically arranged at the centers of the ring sleeves, the deviation of the axes of the embedding sections and the axes of the ring sleeves is reduced, the deviation of the peripheral concrete thickness of the embedding sections is reduced, the uniformity of concrete distribution is improved, the integral structural strength of a concrete layer is enhanced, meanwhile, the inclination of a telegraph pole is reduced, and the stability of the telegraph pole is improved.

The utility model discloses further set up to: and an arc inclined surface which is expanded from the embedded section to the ring sleeve is arranged at one end of the stop lever facing the lever body.

Through adopting above-mentioned technical scheme, the arc inclined plane makes the pin towards body of rod one side interval each other expansion, makes to bury the section of burying underground and get into between the pin more easily.

To sum up, the utility model discloses a beneficial technological effect does:

1. the alternately distributed branches are contacted with the soil of different horizontal layers and vertical layers, so that the connection stability of the embedded section and the ground soil is further improved;

2. the upper inclined branch increases the resistance of the burying section in the upward moving process, and the lower inclined branch increases the depth of the burying section entering the soil;

3. the branch is arranged on the ring sleeve, and the ring sleeve is connected with the embedded section through cast-in-place concrete, so that the occupied space during transportation is reduced, and the transportation is convenient;

4. the hollow branches and the through holes greatly enhance the foundation area of the concrete and the soil and increase the resistance of the branches and the soil;

5. the stop rods with the same shape are all connected with the embedded section in an abutting mode, so that the embedded section is vertically arranged in the center of the ring sleeve.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the inner structure of the ring sleeve of the present invention.

Reference numerals: 1. a rod body; 11. burying the section; 2. branching; 21. an inclined branch; 22. a lower inclined branch; 23. connecting columns; 3. a through hole; 4. sleeving a ring; 41. a gap; 42. concrete; 43. a cross bar; 44. a stop lever; 45. an arc-shaped inclined plane.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, for the utility model discloses a falling prevention telegraph pole, including the buried section 11 buried underground and the rod body 1 exposed out of the ground.

As shown in fig. 1 and 2, in order to improve the stability of the connection of the buried segment 11 to the ground soil, the outer periphery of the buried segment 11 is provided with branches 2 that extend away from the axial center of the buried segment 11, and the branches 2 are alternately arranged in the axial direction of the buried segment 11 and in the direction perpendicular to the axial direction of the buried segment 11. One end of the branch 2 close to the embedding section 11 is provided with a ring sleeve 4 sleeved on the periphery of the embedding section 11, a gap 41 is arranged between the inner wall of the ring sleeve 4 and the outer wall of the embedding section 11, and concrete 42 is arranged in the gap 41. In this embodiment, the branches 2 and the ring sleeve 4 are welded together by stainless steel, four branches 2 are uniformly distributed at the same height on a first height closest to the rod body 1, four branches 2 at a second height are uniformly distributed at a certain distance from the first layer to a side far away from the rod body 1, and the four branches 2 at the second height and the four branches 2 at the first height are alternately arranged. In this way a total of eight high branches 2 are provided.

As shown in fig. 1 and 2, in order to further enhance the connection between the branches 2 and the soil, the branches 2 include an upper inclined branch 21 inclined toward the direction of the rod body 1 and a lower inclined branch 22 inclined toward the direction away from the direction of the rod body 1, the upper inclined branch 21 is disposed at the side of the center of the axial direction of the embedded section 11 toward the rod body 1, and the lower inclined branch 22 is disposed at the side of the center of the axial direction of the embedded section 11 away from the rod body 1. A connecting column 23 is provided between the upper inclined branch 21 and the lower inclined branch 22 near the axial direction center of the burying section 11.

As shown in fig. 1 and fig. 2, further to enhance the connection between the embedded section 11 and the loop 4, the embedded section 11 is hollow, and a cross bar 43 is disposed on an inner wall of the loop 4 away from one end of the rod body 1, in this embodiment, two cross bars 43 parallel to each other are disposed, and the cross bar 43 abuts against one end of the embedded section 11 away from the rod body 1.

As shown in fig. 1 and fig. 2, further to vertically locate the embedded section 11 at the center of the ring sleeve 4, the inner wall of the end of the ring sleeve 4 away from the rod body 1 is evenly distributed with stop rods 44 with uniform shapes, in this embodiment, four stop rods 44 are provided, and one side of each stop rod 44 away from the ring sleeve 4 is abutted against the outer wall of the embedded section 11. The end of the blocking rod 44 facing the rod body 1 is provided with an arc-shaped inclined surface 45 expanding from the embedding section 11 to the ring sleeve 4. The arcuate ramp 45 expands the distance between the bars 44 toward the rod 1 side to allow the buried section 11 to more easily enter between the bars 44.

As shown in fig. 1 and 2, the branch 2 is hollow and communicated with the ring sleeve 4, and a plurality of through holes 3 communicated with the inside of the branch 2 are arranged on the branch 2. The concrete 42 poured on site enters the branch 2 from the ring sleeve 4 and then flows out of the through hole 3, so that the integrity of the branch 2 and the ring sleeve 4 is improved, and the strength of the branch 2 and the ring sleeve 4 is enhanced. Meanwhile, the concrete pattern flowing out of the through hole 3 permeates into the soil, gaps in the soil are filled, the concrete 42 entering the soil is in a net-shaped irregular shape and is integrated with the concrete 42 in the branch 2 and the ring sleeve 4, the foundation area of the concrete 42 and the soil is greatly increased, the resistance of the branch 2 and the soil is increased, and the stability of the embedding section 11 in the soil is improved.

The implementation principle of the embodiment is as follows: digging a foundation pit at the position where the telegraph pole needs to be buried, placing the end, provided with the stop rod, of the ring sleeve 4 with the welded branches 2 into the foundation pit downwards, connecting the lower inclined branches 22 with the bottom of the foundation pit, filling soil and tamping the soil to enable the soil to be flush with the top end of the ring sleeve 4. The trolley is connected with one end, far away from the embedding section 11, of the pole body 1 of the telegraph pole, the telegraph pole is hoisted, the mobile telegraph pole is located above the ring sleeve 4 and is kept vertical, the embedding section 11 is aligned with the ring sleeve 4, and the telegraph pole is lowered to enable the embedding section 11 to enter the ring sleeve 4. Pouring concrete 42 from the top end of the ring sleeve 4, wherein the concrete 42 fills the ring sleeve 4 and the branch 2, and the concrete 42 enters the inner cavity of the embedding section 11; the soil flows out of the through holes 3 and permeates into the soil. And (3) supporting the rod body 1 by using a bracket, keeping the rod body 1 vertical, and removing the bracket after the concrete 42 is completely solidified to finish the burying of the telegraph pole.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a prevent down wire pole which characterized in that: the underground embedded section structure comprises an embedded section (11) embedded under the ground and a rod body (1) exposed out of the ground, wherein a branch (2) which is diffused towards the axis deviating from the embedded section (11) is arranged at the periphery of the embedded section (11), and the branch (2) is alternately distributed in the axial direction of the embedded section (11) and the direction perpendicular to the axial direction of the embedded section (11).

2. The utility pole of claim 1, characterized in that: branch (2) including towards body of rod (1) direction slope go up inclined branch (21) and towards deviating from body of rod (1) direction down inclined branch (22), go up inclined branch (21) and set up in the one side of burying section (11) axial direction's center towards the body of rod (1) underground, down inclined branch (22) set up in the one side that buries section (11) axial direction's center and deviates from the body of rod (1) underground.

3. The utility pole of claim 2, characterized in that: a connecting column (23) is arranged between the upper inclined branch (21) and the lower inclined branch (22) which are close to the axial direction center of the embedding section (11).

4. The utility pole of claim 1, characterized in that: one end of the branch (2) close to the embedding section (11) is provided with a ring sleeve (4) sleeved on the periphery of the embedding section (11), a gap (41) is formed between the inner wall of the ring sleeve (4) and the outer wall of the embedding section (11), and concrete (42) is arranged in the gap (41).

5. The utility pole of claim 4, characterized in that: the branch (2) is arranged in a hollow mode and is communicated with the ring sleeve (4), and a plurality of through holes (3) communicated with the interior of the branch (2) are formed in the branch (2).

6. The utility pole of claim 4, characterized in that: bury section (11) inside cavity setting underground, the inner wall that deviates from body of rod (1) one end in ring cover (4) is equipped with horizontal pole (43), horizontal pole (43) with bury underground section (11) and keep away from the one end butt of body of rod (1).

7. The utility pole of claim 4, characterized in that: the inner wall evenly distributed shape of the inner wall of the body of rod (1) one end is kept away from in ring cover (4) unanimous pin (44), every one side that pin (44) deviate from ring cover (4) all with bury the outer wall butt of section (11) underground.

8. The utility pole of claim 7, characterized in that: one end of the stop lever (44) facing the lever body (1) is provided with an arc inclined surface (45) which is expanded from the embedding section (11) to the direction of the ring sleeve (4).

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