CN220979007U - Strong wind prevention cement pole - Google Patents

Abstract

The utility model relates to a strong wind prevention cement pole which comprises a triangular core, wherein a thick cement layer formed by pouring is fixed on the outer surface of the triangular core, protective caps are fixed on the tops of the triangular core and the thick cement layer, a wind prevention mechanism is fixed on the outer surface of the triangular core, a thin cement layer formed by pouring is fixed on the outer surface of the triangular core, and a sinking tip fixed with the thin cement layer is fixed on the bottom of the triangular core. This prevent strong wind cement pole, accessible triangular core increases rigid support, and go deep into each other fixedly with thick cement layer through self through the structure, prevent hail storm snow and cause the damage to the body through the protective cap, and protect inner structure not by the weather erosion, make strong wind flow through the arc structure from the surface fast and reduce the windage, and increase the atress area and grab the land fertility through preventing wind the mechanism, sink tip and thin cement layer and insert the cement pole is whole underground, make its latter half can be with the last half firm subaerial of fixing, can resist strong wind, safe in utilization.

Description

Strong wind prevention cement pole

Technical Field

The utility model relates to the technical field of cement poles, in particular to a strong wind prevention cement pole.

Background

The cement pole is also called a cement pole, commonly called a telegraph pole, and also called a concrete pole, is a pole made of concrete and steel bars or steel wires, the section of the pole is square, octagonal, I-shaped, annular or other special-shaped sections, the most commonly adopted sections are annular sections and square sections,

When summer plum rain comes, a great amount of rainfall and extremely strong wind easily appear, if coastal areas are in summer, typhoon weather influence is also easily received, the destructive power is quite sufficient, and the cement telegraph pole on the roadside is easy to blow and break due to the fact that no additional strong wind-proof supporting structure is arranged, pedestrians are easily injured and roads are easily damaged, so that the strong wind-proof cement pole is provided to solve the problems.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides the strong wind prevention cement pole, which has the advantages of strong wind prevention and the like, and solves the problems that the blown cement pole is easy to injure pedestrians and destroy highways.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the strong wind prevention cement pole comprises a triangular core, wherein a coarse cement layer formed by pouring is fixed on the outer surface of the triangular core, a protective cap is fixed on the tops of the triangular core and the coarse cement layer, a wind prevention mechanism is fixed on the outer surface of the triangular core, a fine cement layer formed by pouring is fixed on the outer surface of the triangular core, a sinking tip fixed with the fine cement layer is fixed on the bottom of the triangular core, and the sinking tip is used for being inserted into the ground and providing centripetal support;

the wind prevention mechanism comprises a balancing ring fixed on the outer surface of a triangular core, the top of the balancing ring is fixed with three fixing seats, the three opposite sides of the fixing seats are respectively fixed with a stabilizer bar, the three opposite sides of the stabilizer bars are respectively fixed with a stabilizer assembly, and the stabilizer assemblies are used for reinforcing a bottom support to resist strong wind.

Further, the triangular core is Y-shaped, and a plurality of structural grooves are formed in the outer surface of the triangular core.

Further, the outer surface of the triangular core is provided with a plurality of through holes which are positioned in the structural groove and communicated with the structural groove.

Further, the protective cap is a galvanized steel cap, a protective top is fixed on the top of the protective cap, and the protective top is semicircular.

Further, the equalizing ring is circular, and reinforcing ribs which are three in number and are fixed with the triangular core are fixed at the top of the equalizing ring.

Further, the three stabilizing assemblies comprise stabilizing seats respectively fixed on the opposite sides of the three stabilizing rods, stabilizing plates are fixed at the bottoms of the stabilizing seats, and the stabilizing plates are round.

Further, the stabilizing slopes fixed with the stabilizing plates are fixed on the opposite sides of the three stabilizing seats, a plurality of stabilizing columns are fixed on the bottoms of the stabilizing plates, and stabilizing tips are fixed on the bottoms of the stabilizing columns.

Compared with the prior art, the technical scheme of the application has the following beneficial effects:

This prevent strong wind cement pole, accessible triangular core increases rigid support, and go deep into each other fixedly with thick cement layer through self through the structure, prevent hail storm snow and cause the damage to the body through the protective cap, and protect inner structure not by the weather erosion, make strong wind flow through the arc structure from the surface fast and reduce the windage, and increase the atress area and grab the land fertility through preventing wind the mechanism, sink tip and thin cement layer and insert the cement pole is whole underground, make its latter half can be with the last half firm subaerial of fixing, can resist strong wind, safe in utilization.

Drawings

FIG. 1 is a perspective exploded view of the present utility model;

FIG. 2 is a perspective view of a triangular core of the present utility model;

FIG. 3 is an enlarged view of the utility model at A in FIG. 2;

FIG. 4 is a perspective view of the wind-break mechanism of the present utility model;

Fig. 5 is a perspective view of the stabilizing assembly of the present utility model.

In the figure: 1 three-edged core, 2 structure grooves, 3 through holes, 4 coarse cement layers, 5 protective caps, 6 fine cement layers, 7 sinking tips, 8 wind prevention mechanisms, 801 equalizing rings, 802 reinforcing ribs, 803 fixed seats, 804 stabilizing rods, 805 stabilizing components, 8051 stabilizing seats, 8052 stabilizing plates, 8053 stabilizing slopes, 8054 stabilizing columns and 8055 stabilizing tips.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the strong wind prevention cement pole in this embodiment includes a triangular core 1, a coarse cement layer 4 formed by pouring is fixed on an outer surface of the triangular core 1, it should be noted that the triangular core 1 is Y-shaped, a plurality of structural grooves 2 are formed on an outer surface of the triangular core 1, cement is fixed on the surface of the triangular core 1 by pouring in the cement pole production process, and the cement automatically penetrates into the structural grooves 2 by fluidity of the cement, and the coarse cement layer 4 penetrating into the triangular core 1 is formed after the cement is solidified.

It should be noted that, through holes 3 which are a plurality of and are located inside the structural groove 2 and are communicated with the structural groove are formed in the outer surface of the triangular core 1, and in the cement pouring process, the coarse cement layers 4 which are located at three parts are allowed to pass through the through holes 3, so that the coarse cement layers 4 at three parts are integrated, and the coarse cement layers 4 and the triangular core 1 are integrated through the mutual penetration of the triangular core 1, so that the cement pole is very firm.

Further, the top of three-edged core 1 and thick cement layer 4 is fixed with protection cap 5, and it is to be noted that, protection cap 5 is galvanized steel cap, and galvanized steel products can be high temperature resistant corrosion-resistant for the junction on protection three-edged core 1 and thick cement layer 4, the top of protection cap 5 is fixed with the protection top, and the protection top is semi-circular, and semicircular protection top has extremely strong holding power and shock resistance, can damage three-edged core 1 and thick cement layer 4 with the vertical impact that prevents hail to prolong its life.

In addition, the external surface of the triangular core 1 is fixedly provided with a windproof mechanism 8, the external surface of the triangular core 1 is fixedly provided with a fine cement layer 6 formed by pouring, the fine cement layer 6 is also poured in a production mode, the size of the fine cement layer is smaller, the fine cement layer is convenient to insert into the ground, the coarse cement layer 4 and the fine cement layer 6 are connected with the fine cement layer through the through holes 3, the three cement layers are integrated after solidification through penetrating through the through holes 3, the bottom of the triangular core 1 is fixedly provided with a sinking tip 7 fixed with the fine cement layer 6, the sinking tip 7 is used for being inserted into the ground and providing centripetal support, the sinking tip 7 is conical, the tip is small in resistance, the tip is easy to prick into the deep of the ground, and after the conical external surface is attached to the ground, the edge of the fine cement layer can penetrate deep into the inner cavity of the triangular core 1.

In the operation process, the triangular core 1 is additionally provided with a rigid support, the coarse cement layers 4 are mutually fixed deeply, the protection cap 5 prevents hail and snow from damaging the body, the wind prevention mechanism 8 is used for increasing the stress area and the ground grabbing force, and the sinking tip 7 and the fine cement layer 6 are used for integrally inserting the cement pole into the ground, so that the lower half part of the cement pole can firmly fix the upper half part on the ground, strong wind can be resisted, and the use is safe.

Referring to fig. 4-5, in order to strengthen the bottom support to resist strong wind, the wind-proof mechanism 8 in this embodiment includes a balancing ring 801 fixed on the outer surface of the triangular core 1, it should be noted that the balancing ring 801 is in a ring shape, the ring-shaped balancing ring 801 can wrap the triangular core 1 and the coarse cement layer 4, increase the stress area downwards, share pressure, support the triangular core 1 and the coarse cement layer 4 at the center and above, and the top of the balancing ring 801 is fixed with three reinforcing ribs 802 fixed with the triangular core 1, the reinforcing ribs 802 can increase the structural strength of the mechanism, make the operation process more stable, and separate surrounding incoming wind and light from each other through the structure, so as to slow down the movement of air flow.

Further, the top of the equalizing ring 801 is fixed with three fixing seats 803, one sides of the three fixing seats 803 opposite to each other are all fixed with stabilizer bars 804, the stabilizer bars 804 can connect the body of the cement pole with the three stabilizer plates 8052 together, so that the stabilizer bars can share pressure, the pressure on the ground is relieved, the stabilizing assemblies 805 are fixed on the opposite sides of the three stabilizer bars 804, the stabilizing assemblies 805 are used for strengthening the bottom support to resist strong wind, the three stabilizing assemblies 805 include stabilizer seats 8051 respectively fixed on the opposite sides of the three stabilizer bars 804, the stabilizer seats 8051 are cuboid, the stabilizer plates 8052 are fixed at the bottom of the stabilizer seats 8051 through the strength of reinforcing connection, the stabilizer plates 8052 are round, the round stabilizer plates can well share pressure, the pressure can be evenly conducted to the ground, and the contact area with the ground is increased, so that the pressure on the ground is reduced, and the ground is better protected.

In addition, it should be noted that, the side that three stabilizer seat 8051 is opposite is all fixed with the stabilizer slope 8053 that is fixed with stabilizer plate 8052, stabilizer slope 8053 can further increase the fixed knot of stabilizer plate 8052 and stabilizer seat 8051 and construct, make it become an organic whole, can resist stronger wind-force, stabilizer plate 8052's bottom is fixed with a plurality of stabilizer posts 8054 that are a plurality of, stabilizer posts 8054 evenly distributed, insert it on ground, can increase its pulling force from more angles, a plurality of stabilizer posts 8054 of three direction can firmly fix the mechanism on the earth's surface, stabilizer tip 8055 is fixed with in stabilizer post 8054's bottom, stabilizer tip 8055 can make stabilizer post 8054 insert the ground depths more easily, and provide centripetal holding power through its conical structure, make the mechanism stable for a long time.

In general, the averaging ring 801 increases the area under force downward, sharing the pressure, supporting the triangular core 1 and coarse cement layer 4 in the center and above, the stabilizer bar 804 connects the body of the cement pole with the three stabilizer plates 8052 to share the pressure, and the stabilizer tips 8055 insert the stabilizer posts 8054 into the ground and increase their grip.

The working principle of the embodiment is as follows:

In the use, the accessible triangular core 1 increases rigid support, and with thick cement layer 4 through self through-structure each other go deep into fixedly, prevent hail and storm snow and cause the damage to the body through protecting cap 5, and protect inner structure not by the erosion of weathering, make strong wind flow from the surface fast through arc structure and reduce the windage, and increase the area of force downwards through annular homoenergetic ring 801, share pressure, support triangular core 1 and thick cement layer 4 of center and top, stabilizer 804 can be in the same place with the body of cement pole and three stabilizer 8052, make it share pressure, alleviate the pressure on ground, make stabilizer 8054 insert the ground depths through stabilizer tip 8055, increase its gripping power, and provide centripetal holding power through its conical structure, sink tip 7 and thin cement layer 6 are with the whole inserting of cement pole underground, make its latter half can fix the top on ground firmly, can resist strong wind, it is safe in utilization.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made hereto without departing from the spirit and principles of the present utility model.

Claims (7)

1. The utility model provides a prevent strong wind cement pole, includes triangular core (1), its characterized in that: the novel triangular cement composite material is characterized in that a coarse cement layer (4) formed by pouring is fixed on the outer surface of the triangular core (1), a protective cap (5) is fixed on the tops of the triangular core (1) and the coarse cement layer (4), a windproof mechanism (8) is fixed on the outer surface of the triangular core (1), a fine cement layer (6) formed by pouring is fixed on the outer surface of the triangular core (1), a sinking tip (7) fixed with the fine cement layer (6) is fixed on the bottom of the triangular core (1), and the sinking tip (7) is used for being inserted into the ground and providing centripetal support;

The wind prevention mechanism (8) comprises a balancing ring (801) fixed on the outer surface of the triangular core (1), three fixing seats (803) are fixed at the top of the balancing ring (801), stabilizer bars (804) are fixed on the opposite sides of the three fixing seats (803), stabilizer assemblies (805) are fixed on the opposite sides of the stabilizer bars (804), and the stabilizer assemblies (805) are used for reinforcing bottom supports to resist strong wind.

2. A strong wind resistant cementitious pole as defined in claim 1 wherein: the triangular core (1) is Y-shaped, and a plurality of structural grooves (2) are formed in the outer surface of the triangular core (1).

3. A strong wind resistant cementitious pole as defined in claim 2 wherein: the outer surface of the triangular core (1) is provided with a plurality of through holes (3) which are positioned in the structural groove (2) and communicated with the structural groove.

4. A strong wind resistant cementitious pole as defined in claim 1 wherein: the protective cap (5) is a galvanized steel cap, a protective top is fixed on the top of the protective cap (5), and the protective top is semicircular.

5. A strong wind resistant cementitious pole as defined in claim 1 wherein: the equalizing ring (801) is in a ring shape, and reinforcing ribs (802) which are three in number and are fixed with the triangular core (1) are fixed at the top of the equalizing ring (801).

6. A strong wind resistant cementitious pole as defined in claim 1 wherein: the three stabilizing assemblies (805) comprise stabilizing seats (8051) which are respectively fixed on the opposite sides of the three stabilizing rods (804), stabilizing plates (8052) are fixed at the bottoms of the stabilizing seats (8051), and the stabilizing plates (8052) are round.

7. The strong wind resistant cement pole of claim 6, wherein: the three sides that stabilize seat (8051) are opposite are all fixed with and stabilize slope (8053) fixed with stabilizing plate (8052), the bottom of stabilizing plate (8052) is fixed with a plurality of stabilizing columns (8054), the bottom of stabilizing column (8054) is fixed with stable tip (8055).