CN-224213879-U - Antirust cement electric pole

Abstract

The utility model discloses an antirust cement electric pole, which comprises a cement electric pole, a supporting part, an inner supporting column, a reinforcing steel bar column, a flange base, a tip column and an anti-toppling part, wherein the cement electric pole is arranged on the ground and used for supporting an electric wire, part of the supporting part is inserted into the cement electric pole, and the supporting part comprises the inner supporting column inserted into the cement electric pole. According to the utility model, the tip post for splicing, the bottom post for lengthening and the inner support post for supporting the cement telegraph pole are arranged below the cement telegraph pole, so that the support property of the cement telegraph pole can be increased when the cement telegraph pole is used, the probability of toppling of the cement telegraph pole when the cement telegraph pole is used is reduced, and meanwhile, the expansion rod for increasing the grabbing force of the bottom post and the land is connected to the bottom post, so that the probability of toppling of the cement telegraph pole when the cement telegraph pole is used is further reduced.

Inventors

• SONG LING

Assignees

• 四川省用九工业有限公司

Dates

Publication Date

20260508

Application Date

20250604

Claims (8)

1. 1. An antirust cement pole, comprising: A cement pole mounted to the ground for supporting the electrical wire; The support component, the part of this support component is pegged graft in the cement wire pole, the support component is including pegging graft the interior support column in the cement wire pole, the week side of interior support column is provided with a plurality of reinforcing bar post, the reinforcing bar post is pegged graft in the cement wire pole, the reinforcing bar post with the bottom of interior support column is connected with flange base, flange base's top with the bottom of reinforcing bar post is connected, flange base's bottom is connected with the foundation pile, the bottom of foundation pile is connected with the pointed end post, the pointed end post is the toper design, be connected with a plurality of groups on the foundation pile and prevent empting the part.
2. 2. A rust resistant cementitious pole as set forth in claim 1 wherein said steel reinforcement columns are distributed in a circumferential array about said inner support columns, the length of said inner support columns being consistent with the length of said steel reinforcement columns.
3. 3. A rust resistant cementitious pole as set forth in claim 1 wherein said sets of anti-toppling members are equally spaced on said foundation pile and said anti-toppling members are angularly spaced on said foundation pile.
4. 4. The anti-rust cement pole according to claim 3, wherein the anti-toppling component comprises a sleeving rod sleeved on the foundation pile, and a plurality of thread grooves are formed in the sleeving rod.
5. 5. The anti-rust cement pole according to claim 4, wherein the sleeve joint rod is detachably connected with the foundation pile through the thread grooves, and the thread grooves are distributed on the sleeve joint rod at equal intervals in circumference.
6. 6. The antirust cement pole as claimed in claim 5, wherein the outer side of the sleeve connecting rod is connected with a plurality of expansion rods, six expansion rods are arranged on the sleeve connecting rod, and an included angle between two adjacent expansion rods is 60 degrees.
7. 7. The anti-rust cement pole according to claim 6, wherein the expansion rods on adjacent sheath rods are distributed in a staggered manner, and the expansion rods are in an inclined design.
8. 8. The antirust cement pole as claimed in claim 7, wherein a through groove for inserting a bottom pile is formed in the sleeve connecting rod in a penetrating manner, the through groove and the bottom pile are both of circular design, and the diameter of the through groove is smaller than that of the bottom pile.

Description

Antirust cement electric pole Technical Field The utility model relates to the technical field of cement electric poles, in particular to an antirust cement electric pole. Background The rust-proof cement electric pole is a cement-based material with special formulation, which is mainly used for preventing or slowing down the rust process of the steel bar in the concrete. The rust-proof cement electric pole on the market at present reduces the penetration of corrosive media such as oxygen, moisture, chloride ions and the like by reducing the porosity of cement-based materials, and simultaneously uses an ultrafine mineral admixture to fill a capillary channel chemical protection mechanism, namely, a rust inhibitor (such as nitrite, organic amine and the like) is doped to adjust the chemical property of cement hydration products, and the pH value is controlled to be maintained in a stable range of a reinforcing steel passivation film so as to realize the rust-proof function of the cement electric pole. Disclosure of utility model The utility model aims to provide an anti-rust cement electric pole, which solves the problem that the bottom of the anti-rust cement electric pole is tilted to bring danger to pedestrians due to the fact that the bottom of the anti-rust cement electric pole is tilted due to the length and the weight of the anti-rust cement electric pole in the prior art. The anti-rust cement pole comprises a cement pole body, a supporting part, an inner supporting column, a reinforcing column, a flange base, a tip column and an anti-toppling part, wherein the cement pole body is installed on the ground and used for supporting a wire, part of the supporting part is inserted into the cement pole body, the supporting part comprises the inner supporting column inserted into the cement pole body, a plurality of reinforcing columns are arranged on the periphery of the inner supporting column, the reinforcing column is inserted into the cement pole body, the flange base is connected to the bottoms of the reinforcing column and the inner supporting column, the top of the flange base is connected to the bottoms of the reinforcing column, a foundation pile is connected to the bottom of the flange base, the tip column is in a conical design, and a plurality of anti-toppling parts are connected to the foundation pile. Preferably, the reinforcement columns are distributed in a circumferential array around the inner support columns, and the length of the inner support columns is consistent with the length of the reinforcement columns. Preferably, the anti-toppling members are equidistantly distributed on the foundation pile, and the anti-toppling members are distributed in an angle difference on the foundation pile. Preferably, the anti-toppling component comprises a sleeving rod sleeved on the bottom pile, and a plurality of thread grooves are formed in the sleeving rod. Preferably, the sleeve connection rod is detachably connected with the bottom pile through the thread grooves, and the thread grooves are circumferentially distributed on the sleeve connection rod at equal intervals. Preferably, the outside of the sleeve connecting rod is connected with a plurality of expansion rods, six expansion rods are arranged on the sleeve connecting rod, and the included angle between two adjacent expansion rods is 60 degrees. Preferably, the expansion rods on the adjacent sleeve connecting rods are distributed in a staggered manner, and the expansion rods are in an inclined design. Preferably, a through groove for inserting the bottom pile is formed in the sleeve connecting rod in a penetrating manner, the through groove and the bottom pile are of circular design, and the diameter of the through groove is smaller than that of the bottom pile. Compared with the prior art, the antirust cement pole has the beneficial effects that the tip post for splicing, the bottom post for lengthening and the inner support post for supporting the cement pole are arranged below the cement pole, so that the support property of the cement pole can be increased by the bottom post and the inner support post when the antirust cement pole is used, the probability of toppling of the cement pole when the cement pole is used is reduced, and meanwhile, the expansion pole for increasing the holding power of the bottom post and the land is connected to the bottom post, so that the probability of toppling of the cement pole when the cement pole is used is further reduced. Drawings FIG. 1 is a schematic diagram of a front view of the present utility model; FIG. 2 is a schematic diagram of an explosive structure according to the present utility model; FIG. 3 is a schematic view of the structure of the support member of the present utility model; fig. 4 is a schematic structural view of the anti-toppling member of the present utility model. In the figure: 1. Cement wire pole; 2. A support member; 21, a pointed column, 22, a bottom pile, 23, a flange base