CN113431209A - Annular concrete pole anticorrosion treatment method and device - Google Patents

Abstract

The invention relates to the technical field of electric pole processing devices, in particular to an annular concrete electric pole anticorrosion processing method and device, wherein the annular concrete electric pole anticorrosion processing method and device are connected with an electric pole through an anticorrosion sleeve, the anticorrosion sleeve is connected with the anticorrosion sleeve, a plurality of slide blocks are slidably connected with the fixing sleeve, a plurality of outer cylinders are connected with the fixing sleeve, a plurality of buffer springs are connected with a plurality of outer cylinders, a plurality of limit blocks are connected with a plurality of buffer springs, a plurality of inner cylinders are connected with a plurality of slide blocks, a connecting ring is connected with a plurality of balls, a plurality of inserting rods are connected with a plurality of balls, when the electric pole is impacted, the inserting rods transmit the force generated by the impact to the buffer springs in the outer cylinders through the inner cylinders, the buffer springs buffer the force to provide stability for the electric pole, and the problem that the anticorrosion mechanism of the annular concrete electric pole anticorrosion processing device and the embedded end of the electric pole are shorter than the exposed end of the electric pole is solved, the problem of tilting easily occurs when the pole is impacted.

Description

Annular concrete pole anticorrosion treatment method and device

Technical Field

The invention relates to the technical field of electric pole processing devices, in particular to an annular concrete electric pole anticorrosion processing method and device.

Background

The annular concrete pole is generally applied to a power supply line, underground moisture and water are easy to enter the buried end of the pole, and the pole is corroded, so that the strength of a pole body is reduced, and the service life of the pole is influenced;

the existing annular concrete pole anticorrosion treatment device is buried at one end of a pole, which is provided with an anticorrosion mechanism, so that the pole is separated from the ground;

however, the embedded end of the corrosion protection mechanism and the electric pole is shorter than the exposed end of the electric pole, and the electric pole is easy to incline when being impacted.

Disclosure of Invention

The invention aims to provide an annular concrete electric pole anticorrosion treatment method and device, and aims to solve the problems that an anticorrosion mechanism of the annular concrete electric pole anticorrosion treatment device and an embedded end of an electric pole are shorter than an exposed end of the electric pole, and the electric pole is easy to incline when being impacted.

In order to achieve the above object, in a first aspect, the present invention provides an annular concrete pole anticorrosion treatment device, comprising an anticorrosion mechanism and a fixing mechanism;

the anti-corrosion mechanism comprises an electric pole and an anti-corrosion sleeve, and the anti-corrosion sleeve is fixedly connected with the electric pole and is positioned around the electric pole;

the fixing mechanism comprises a fixing sleeve, a plurality of sliding blocks, a plurality of outer cylinders, a plurality of buffer springs, a plurality of limiting blocks, a plurality of inner cylinders, a connecting ring, a plurality of balls and a plurality of insertion rods, the fixing sleeve is fixedly connected with the anti-corrosion sleeve and positioned around the anti-corrosion sleeve, the fixing sleeve is provided with a plurality of sliding grooves, a plurality of sliding blocks are respectively in sliding connection with the fixing sleeve and are respectively positioned on the sliding grooves, a plurality of outer cylinders are respectively in fixed connection with the fixing sleeve and are respectively positioned inside the fixing sleeve, a plurality of buffer springs are respectively in fixed connection with the outer cylinders and are respectively positioned inside the outer cylinders, a plurality of limiting blocks are respectively in fixed connection with the plurality of buffer springs and are respectively positioned inside the outer cylinders, one sides of a plurality of inner cylinders are respectively in fixed connection with the limiting blocks and penetrate through the outer cylinders, and the other sides of the inner cylinders are respectively in fixed connection with the sliding blocks, the connecting ring is fixedly connected with the plurality of sliders and is positioned on one side far away from the fixed sleeve, the plurality of balls are respectively fixedly connected with the connecting ring and are positioned on one side far away from the inner cylinder, and the plurality of inserting rods are respectively fixedly connected with the plurality of balls and are positioned on one side far away from the connecting ring.

On the go-between insert the pole and insert and bury ground, increased fixed cover is at the stability of burying ground, works as when the pole receives the striking, insert the produced power warp of striking the inner tube transmits for in the urceolus buffer spring, buffer spring will do all can the buffering does the pole provides stability.

Wherein, anticorrosive coating includes anticorrosive coating and filling layer, anticorrosive coating with pole fixed connection, and be located around the pole, one side of filling layer with anticorrosive coating fixed connection, and be located around the anticorrosive coating, the opposite side of filling layer with fixed cover fixed connection.

Anticorrosive coating material is made by epoxy, outer wall putty powder and xylol, and concrete waterproof corrosion-resistant effect of putting, the filling layer is used for filling on the pole the anticorrosive coating with the gap of fixed cover diameter, thereby increase the pole is in stability on the fixed cover.

The fixing mechanism further comprises a plurality of stress blocks, and the stress blocks are respectively fixedly connected with the connecting ring and are located on the outer side wall of the connecting ring.

The insertion rod may be inserted into the buried ground by knocking the force receiving block on the connection ring.

Wherein, fixed establishment still includes a plurality of stabilizer bars, and is a plurality of the stabilizer bar respectively with a plurality of fixed cover fixed connection all is located and keeps away from one side of pole.

The stabilizer bar drives the bottom end of the fixed sleeve to be embedded into the ground, and the stability of the fixed sleeve embedded into the ground is further improved.

The fixing mechanism further comprises a plurality of fixing rods, the fixing rods are respectively detachably connected with the electric pole and penetrate through the fixing sleeve and the anti-corrosion sleeve.

The dead lever will fixed cover is further fixed on the pole, further increases the pole is in stability on the fixed cover.

The fixing mechanism further comprises a plurality of threaded rings and a plurality of check blocks, the threaded rings are respectively fixedly connected with the fixing rods and are all located on the periphery of the fixing rods, and the check blocks are respectively fixedly connected with the fixing rods and are all located on one side of the electric pole.

On the dead lever the threaded ring has increased the dead lever with the pole with the resistance between the fixed cover, the dog will fixed cover locking is in the dog has between the pole, thereby has increased the dead lever is fixed cover with the stability of pole.

In a second aspect, the invention provides an annular concrete pole anticorrosion treatment method, which comprises the following steps:

coating an anticorrosive layer on the embedded end of the electric pole;

fixing the electric pole with the anticorrosive coating in the fixing sleeve, and filling a gap between the anticorrosive coating and the fixing sleeve with a filling layer;

inserting the stabilizer bar of the fixing sleeve into the ground;

knocking the stress block on the connecting ring by external force to enable the insertion rod to be inserted into the buried ground and further fixed on the electric pole;

when keeping off the pole and receiving the striking, the buffer spring in the urceolus is transmitted with the produced power of striking through the inner tube to the inserted bar, and buffer spring cushions power and provides stability for the pole.

According to the annular concrete pole anticorrosion treatment device, the insertion rod on the connecting ring is inserted into the ground, so that the stability of the fixing sleeve embedded into the ground is improved, when the pole is impacted, the force generated by impact is transmitted to the buffer spring in the outer cylinder through the inner cylinder by the insertion rod, the buffer spring buffers the force to provide stability for the pole, and the problems that an anticorrosion mechanism of the annular concrete pole anticorrosion treatment device and the embedded end of the pole are shorter than the exposed end of the pole, and the pole is easy to incline when impacted are solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of an annular concrete pole anticorrosion treatment device provided by the invention;

FIG. 2 is a sectional view of an annular concrete pole anticorrosive treatment device provided by the present invention, taken along the direction of a buffer spring;

FIG. 3 is a cross-sectional view of an annular concrete pole anticorrosive treatment device provided by the present invention, taken along the direction of a threaded ring;

FIG. 4 is an enlarged view of detail A of FIG. 1;

fig. 5 is an enlarged view of detail B of fig. 1.

FIG. 6 is a flow chart of a method for corrosion prevention treatment of an annular concrete pole according to the present invention.

1-anticorrosion mechanism, 2-fixing mechanism, 3-electric pole, 4-anticorrosion sleeve, 5-fixing sleeve, 6-fixing rod, 7-sliding block, 8-sliding groove, 9-outer cylinder, 10-buffer spring, 11-limiting block, 12-inner cylinder, 13-connecting ring, 14-insertion rod, 15-anticorrosion layer, 16-filling layer, 17-stress block, 18-stabilizing rod, 19-threaded ring, 20-stop block, 21-fixing block, 22-movable block, 23-first handle, 24-second handle, 25-first friction pad, 26-second friction pad, 27-lock catch, 28-lock groove and 29-ball.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 5, in a first aspect, the present invention provides an annular concrete pole anticorrosion treatment device, including an anticorrosion mechanism 1 and a fixing mechanism 2;

the anti-corrosion mechanism 1 comprises an electric pole 3 and an anti-corrosion sleeve 4, wherein the anti-corrosion sleeve 4 is fixedly connected with the electric pole 3 and is positioned around the electric pole 3;

the fixing mechanism 2 comprises a fixing sleeve 5, a plurality of sliders 7, a plurality of outer cylinders 9, a plurality of buffer springs 10, a plurality of limit blocks 11, a plurality of inner cylinders 12, a connecting ring 13, a plurality of balls 29 and a plurality of insertion rods 14, the fixing sleeve 5 is fixedly connected with the anticorrosive sleeve 4 and positioned around the anticorrosive sleeve 4, the fixing sleeve 5 is provided with a plurality of sliding grooves 8, the plurality of sliders 7 are respectively in sliding connection with the fixing sleeve 5 and are positioned on the sliding grooves 8, the plurality of outer cylinders 9 are respectively in fixed connection with the fixing sleeve 5 and are positioned inside the fixing sleeve 5, the plurality of buffer springs 10 are respectively in fixed connection with the plurality of outer cylinders 9 and are positioned inside the outer cylinders 9, the plurality of limit blocks 11 are respectively in fixed connection with the plurality of buffer springs 10 and are positioned inside the outer cylinders 9, and one side of the plurality of inner cylinders 12 is respectively in fixed connection with the plurality of limit blocks 11, all run through the urceolus 9, a plurality of the opposite side of inner tube 12 respectively with a plurality of slider 7 fixed connection, go-between 13 and a plurality of slider 7 fixed connection to be located keep away from one side of fixed cover 5, a plurality of ball 29 respectively with go-between 13 fixed connection all is located and keeps away from one side of inner tube 12, a plurality of inserted bar 14 respectively with a plurality of ball 29 fixed connection all is located and keeps away from one side of go-between 13.

In this embodiment, the corrosion prevention sleeve 4 of the corrosion prevention mechanism 1 wraps up the embedded end of the electric pole 3 to prevent moisture and water embedded in the ground from corroding the electric pole 3, the electric pole 3 and the corrosion prevention sleeve 4 are fixed on the embedded ground through the fixing sleeve 5, the sliding block 7 on the connecting ring 13 is moved in the sliding groove 8 on the fixing sleeve 5 towards the direction of the embedded ground by external force until the insertion rod 14 on the connecting ring 13 is inserted into the embedded ground to increase the stability of the fixing sleeve 5 on the embedded ground, the insertion rod 14 can be angularly adjusted on the connecting ring 13 through the balls 29 according to the landform of the embedded ground, so that the fixing sleeve 5 on the insertion rod 14 is kept in a vertical state with the horizontal plane, when the electric pole 3 is impacted, the insertion rod 14 transmits the force generated by the impact to the buffer spring 10 in the outer cylinder 9 through the inner cylinder 12, buffer spring 10 will do all can the buffering do pole 3 provides stability, for avoiding buffer spring 10 will inner tube 12 is ejecting inside urceolus 9, so be provided with on the inner tube 12 stopper 11, the diameter of stopper 11 is greater than the bore of urceolus 9 has solved anticorrosive mechanism 1 of annular concrete pole anticorrosive treatment device and the end that exposes of pole 3 is short with the buried end of pole 3, takes place the problem of slope easily when pole 3 receives the impact.

Further, anticorrosive coating 4 includes anticorrosive coating 15 and filling layer 16, anticorrosive coating 15 with 3 fixed connection of pole, and be located 3 all around the pole, one side of filling layer 16 with 15 fixed connection of anticorrosive coating, and be located 15 all around the anticorrosive coating, the opposite side of filling layer 16 with fixed cover 5 fixed connection.

In this embodiment, the anticorrosive coating 15 is made of epoxy resin, exterior wall putty powder and xylene, and specifically has waterproof and anticorrosive effects, and the filling layer 16 is used for filling the gap between the anticorrosive coating 15 and the diameter of the fixing sleeve 5 on the electric pole 3, so as to increase the stability of the electric pole 3 on the fixing sleeve 5.

Further, the fixing mechanism 2 further comprises a plurality of stress blocks 17, and the stress blocks 17 are respectively and fixedly connected with the connecting ring 13 and are all positioned on the outer side wall of the connecting ring 13; the fixing mechanism 2 further comprises a plurality of stabilizer bars 18, and the stabilizer bars 18 are respectively fixedly connected with the fixing sleeves 5 and are positioned on one side far away from the electric pole 3; the fixing mechanism 2 further comprises a plurality of fixing rods 6, and the fixing rods 6 are respectively detachably connected with the electric pole 3 and penetrate through the fixing sleeve 5 and the anti-corrosion sleeve 4; the fixing mechanism 2 further comprises a plurality of threaded rings 19 and a plurality of stop blocks 20, the threaded rings 19 are respectively fixedly connected with the fixing rods 6 and are all located on the periphery of the fixing rods 6, and the stop blocks 20 are respectively fixedly connected with the fixing rods 6 and are all located on one side away from the electric pole 3.

In this embodiment, the force-bearing block 17 increases the force-bearing surface of the connection ring 13, and the insertion rod 14 can be inserted into the buried ground by knocking the force-bearing block 17 on the connection ring 13, the stabilizer bar 18 drives the bottom end of the fixing sleeve 5 to be buried in the ground, so that the stability of the fixing sleeve 5 in the ground is further improved, the fixing rods 6 further fix the fixing sleeve 5 on the electric pole 3, further increasing the stability of the electric pole 3 on the fixing sleeve 5, said threaded ring 19 on said fixing rod 6 increases the resistance between said fixing rod 6 and said electric pole 3 and said fixing sleeve 5, said stop 20 locks said pouch 5 between said stop 20 and said pole 3, thereby increasing the stability of the fixing lever 6 fixing the fixing sleeve 5 with the electric pole 3.

Further, fixed establishment 2 still includes fixed block 21, movable block 22, the first in command 23 and second in command 24, fixed block 21 with 3 dismantlements of pole are connected, and are located 3 lateral walls of pole, movable block 22 with fixed block 21 rotates to be connected, and is located 3 lateral walls of pole, the first in command 23 with fixed block 21 fixed connection, and be located keep away from one side of pole 3, the second in command 24 with movable block 22 fixed connection, and be located and keep away from one side of pole 3.

In this embodiment, will the fixed block 21 is fixed 3 lateral walls on the pole, and rotate on the fixed block 21 the movable block 22 makes the movable block 22 with the fixed block 21 will 3 tight clamps on the pole, fixes the rope on the fixed block 21 the first in command 23 with on the movable block 22 on the second in command 24, can will through the rope 3 is hoisted and is carried, avoids directly twining the rope the pole 3, the pole 3 slides with the rope production, makes the pole 3 drops from the rope.

Further, fixed establishment 2 still includes first friction pad 25, second friction pad 26 and hasp 27, first friction pad 25 with fixed block 21 fixed connection, and be located the fixed block 21 with between the pole 3, second friction pad 26 with movable block 22 fixed connection, and be located the movable block 22 with between the pole 3, the fixed block 21 has locked groove 28, one side of hasp 27 with movable block 22 rotates to be connected, and is located movable block 22 lateral wall, hasp 27 the opposite side with fixed block 21 buckle is connected, and is located on the locked groove 28.

In this embodiment, the first friction pad 25 has increased the fixed block 21 with frictional force between the pole 3, the second friction pad 26 has increased the movable block 22 with frictional force between the pole 3, thereby has increased the fixed block 21 with the movable block 22 presss from both sides tightly stability when the pole 3, the movable block 22 will pass through after the pole 3 presss from both sides tightly the hasp 27 is fixed the fixed block 21 on the locked groove 28, further increased the fixed block 21 with the movable block 22 presss from both sides tightly the stability of pole 3.

Referring to fig. 6, in a second aspect, the present invention provides a method for corrosion prevention treatment of an annular concrete pole, including:

s101, coating an anticorrosive layer 15 on the embedded end of the electric pole 3;

the anticorrosive layer 15 is made of epoxy resin, exterior wall putty powder and dimethylbenzene, and has the specific waterproof and anticorrosive functions.

S102, fixing the electric pole 3 with the anticorrosive coating 15 in the fixing sleeve 5, and filling a gap between the anticorrosive coating 15 and the fixing sleeve 5 with a filling layer 16;

the filling layer 16 is used to fill the gap between the anticorrosion layer 15 and the diameter of the fixing sleeve 5 on the electric pole 3, so as to increase the stability of the electric pole 3 on the fixing sleeve 5.

S103, inserting the stabilizer bar 18 of the fixing sleeve 5 into the ground;

the stabilizer bar 18 drives the bottom end of the fixing sleeve 5 to be buried in the ground, so that the stability of the fixing sleeve 5 buried in the ground is improved.

S104, knocking the stress block 17 on the connecting ring 13 by external force to enable the insertion rod 14 to be inserted and buried in the ground to further fix the electric pole 3;

the stress block 17 increases the stress surface of the connecting ring 13, so that the connecting ring 13 is easier to be stressed.

S105, when the pole 3 is impacted, the insertion rod 14 transmits the force generated by the impact to the buffer spring 10 in the outer cylinder 9 through the inner cylinder 12, and the buffer spring 10 buffers the force to provide stability for the pole 3.

In order to prevent the buffer spring 10 from pushing the inner cylinder 12 out of the outer cylinder 9, the inner cylinder 12 is provided with the limiting block 11, and the diameter of the limiting block 11 is larger than the caliber of the outer cylinder 9.

While the above embodiments are described in connection with preferred embodiments of the present invention, it is to be understood that the present invention is not limited to the disclosed embodiments, but is intended to cover all modifications, equivalents and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. An annular concrete pole anticorrosion treatment device is characterized by comprising an anticorrosion mechanism and a fixing mechanism;

the anti-corrosion mechanism comprises an electric pole and an anti-corrosion sleeve, and the anti-corrosion sleeve is fixedly connected with the electric pole and is positioned around the electric pole;

the fixing mechanism comprises a fixing sleeve, a plurality of sliding blocks, a plurality of outer cylinders, a plurality of buffer springs, a plurality of limiting blocks, a plurality of inner cylinders, a connecting ring, a plurality of balls and a plurality of insertion rods, the fixing sleeve is fixedly connected with the anti-corrosion sleeve and positioned around the anti-corrosion sleeve, the fixing sleeve is provided with a plurality of sliding grooves, a plurality of sliding blocks are respectively in sliding connection with the fixing sleeve and are respectively positioned on the sliding grooves, a plurality of outer cylinders are respectively in fixed connection with the fixing sleeve and are respectively positioned inside the fixing sleeve, a plurality of buffer springs are respectively in fixed connection with the outer cylinders and are respectively positioned inside the outer cylinders, a plurality of limiting blocks are respectively in fixed connection with the plurality of buffer springs and are respectively positioned inside the outer cylinders, one sides of a plurality of inner cylinders are respectively in fixed connection with the limiting blocks and penetrate through the outer cylinders, and the other sides of the inner cylinders are respectively in fixed connection with the sliding blocks, the connecting ring is fixedly connected with the plurality of sliders and is positioned on one side far away from the fixed sleeve, the plurality of balls are respectively fixedly connected with the connecting ring and are positioned on one side far away from the inner cylinder, and the plurality of inserting rods are respectively fixedly connected with the plurality of balls and are positioned on one side far away from the connecting ring.

2. An annular concrete pole anticorrosive treatment apparatus according to claim 1,

anticorrosive cover includes anticorrosive coating and filling layer, the anticorrosive coating with pole fixed connection, and be located around the pole, one side of filling layer with anticorrosive coating fixed connection, and be located around the anticorrosive coating, the opposite side of filling layer with fixed cover fixed connection.

3. An annular concrete pole anticorrosive treatment apparatus according to claim 1,

the fixing mechanism further comprises a plurality of stress blocks, and the stress blocks are fixedly connected with the connecting ring respectively and are located on the outer side wall of the connecting ring.

4. An annular concrete pole anticorrosive treatment apparatus according to claim 1,

the fixing mechanism further comprises a plurality of stabilizer bars, and the stabilizer bars are respectively fixedly connected with the fixing sleeve and are located on one side of the electric pole.

5. An annular concrete pole anticorrosive treatment apparatus according to claim 1,

the fixing mechanism further comprises a plurality of fixing rods, the fixing rods are respectively detachably connected with the electric pole and penetrate through the fixing sleeve and the anti-corrosion sleeve.

6. An annular concrete pole anticorrosive treatment apparatus according to claim 5,

the fixing mechanism further comprises a plurality of threaded rings and a plurality of check blocks, the threaded rings are respectively fixedly connected with the fixing rods and are all located on the periphery of the fixing rods, and the check blocks are respectively fixedly connected with the fixing rods and are all located on one side of the electric pole.

7. An annular concrete pole anticorrosion treatment method applied to the annular concrete pole anticorrosion treatment device of any one of claims 1 to 6, characterized by comprising:

coating an anticorrosive layer on the embedded end of the electric pole;

fixing the electric pole with the anticorrosive coating in the fixing sleeve, and filling a gap between the anticorrosive coating and the fixing sleeve with a filling layer;

inserting the stabilizer bar of the fixing sleeve into the ground;

knocking the stress block on the connecting ring by external force to enable the insertion rod to be inserted into the buried ground and further fixed on the electric pole;

when the pole received the striking, the buffer spring in the urceolus was transmitted with the produced power of striking to the inserted bar through the inner tube, and buffer spring provides stability for the pole with power buffering.

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