CN108625619B - Telegraph pole bending correction device - Google Patents

Abstract

The invention discloses a telegraph pole bending correction device, which comprises a telegraph pole, wherein a first sheath and a second sheath are sleeved on the telegraph pole, the second sheath rotates on the first sheath, a corresponding first connecting block and a second connecting block are respectively arranged on the first sheath and the second sheath, a swinging pulling sliding shaft is arranged on the second connecting block, a first engaging wheel for driving the pulling sliding shaft to slide is arranged on the first connecting block, a circle of fifth sliding grooves corresponding to the telegraph pole are respectively arranged on the first sheath and the second sliding sleeve, a sliding supporting sliding rod is respectively arranged in the fifth sliding grooves, the sliding of the pulling sliding shaft can be further driven through the rotation of the first engaging wheel, so that the swinging of the second sheath can be further driven, therefore, the bent telegraph pole can be corrected, and the trouble caused by replacement of the telegraph pole is avoided.

Description

Telegraph pole bending correction device

Technical Field

The invention relates to a telegraph pole correcting device, in particular to a telegraph pole bending correcting device, and particularly relates to a telegraph pole bending correcting device capable of correcting and fixing a bent telegraph pole.

Background

The demand of electric power equipment is further promoted to increase along with the exuberant demand of electric power, wherein in the existing electric power equipment, a telegraph pole is one of common electric power equipment, the existing telegraph pole is mostly made of cement, the cement telegraph pole is gradually substituted for a traditional wooden pole due to low manufacturing cost, cables are mostly laid by the cement telegraph pole in urban life, although the cables can be laid by the cement telegraph pole, the problem that the telegraph pole is broken and bent easily occurs due to the quality of the telegraph pole or some vehicle accidents, the normal power transmission function of the cables is further caused after the telegraph pole is bent, and the serious problem that the cables between the telegraph poles are broken due to the bending of the telegraph pole is caused, so that serious danger is caused to pedestrians and vehicles;

the bent telegraph poles are mostly replaced by replacing the telegraph poles at present, the problem of processing the bent telegraph poles can be solved by replacing the telegraph poles, large-scale machinery is needed to be matched in the replacing process, cables need to be processed on the telegraph poles, processing needs to be carried out in the power failure state in the process of processing the bent telegraph poles, certain influence is further caused on power supply of cities, certain congestion is caused to roads in the cities in the process of replacing the telegraph poles through large-scale machinery matching, and certain congestion is brought to traffic.

Therefore, it is necessary to design a utility pole bending correction device to solve the above technical problems.

Disclosure of Invention

The invention aims to overcome the problems in the prior art, and provides a telegraph pole bending correction device, which can be sleeved on a telegraph pole through a first sheath and a second sheath, wherein the first sheath and the second sheath are respectively provided with a corresponding first connecting block and a corresponding second connecting block, the first connecting block can be further clamped on the pulling sliding shaft, the rotating sleeve can be further driven to rotate through a supporting rotating rod, so that the sliding of the pulling sliding shaft can be further controlled, the telegraph pole can be further driven to swing through the second sheath, the aim of correcting the telegraph pole bending can be achieved, the supporting sliding rod can be further pressed on the telegraph pole through a pressing rotating wheel, and the first pressing rod can slide on the supporting sliding rod, the first jacking rod is further jacked into the inner cavity of the telegraph pole, and the third jacking rod can be further fixed through cement, so that the supporting slide rods can be pressed on the telegraph pole, and the aim of fixing the bent telegraph pole is further fulfilled.

The invention is realized by the following technical scheme:

a telegraph pole bending correction device comprises a telegraph pole, wherein a pole inner cavity is arranged in the telegraph pole, a first sheath and a second sheath are sleeved on the telegraph pole, the second sheath rotates on the first sheath, a first connecting block and a second connecting block which correspond to each other are respectively arranged on the first sheath and the second sheath, a swinging pulling sliding shaft is arranged on the second connecting block, a first engaging wheel for driving the pulling sliding shaft to slide is arranged on the first connecting block, a rotating second rotating shaft is arranged on one side of the first connecting block, the second rotating shaft drives the first engaging wheel to rotate, a rotating sleeve is arranged on the second rotating shaft, a first sliding hole is formed in the rotating sleeve, a circle of sliding clamping sliding shaft is arranged on one side of the first connecting block, the joint sliding shaft controls the rotation of the rotating sleeve, a sliding supporting rotating rod is arranged in the first sliding hole, and the sliding of the supporting rotating rod controls the sliding of the joint sliding shaft. The first meshing wheel can be further driven to rotate through the rotation of the rotating sleeve, so that the sliding of the pulling sliding shaft can be further driven, the first sheath can be further pulled, the purpose of correcting the bent telegraph pole can be further achieved, and the trouble caused by replacing the telegraph pole by large-scale mechanical equipment is avoided.

The first sheath and the second sheath are respectively provided with a circle of fifth sliding grooves corresponding to the telegraph pole, the fifth sliding grooves are respectively internally provided with a sliding supporting slide bar, and the first sheath and the second sheath are respectively provided with a jacking rotating wheel jacking against the supporting slide bars. The supporting slide bars can be jacked through the jacking and rotating wheels, so that the supporting slide bars can be further jacked on the telegraph pole, and the bent telegraph pole can be further fixed through the supporting slide bars.

The supporting slide bars are respectively provided with a row of corresponding third slide holes, sliding first jacking rods are respectively arranged in the third slide holes, the end parts of the first jacking rods are respectively provided with a swinging second jacking rod, the first jacking rods are respectively provided with a third jacking rod for driving the second jacking rods to swing, and the third jacking rods drive the second jacking rods to swing after the first jacking rods extend into the inner cavities of the wire rods. The second top pressure rod can further swing in the inner cavity of the telegraph pole through the sliding of the third top pressure rod, so that the first top pressure rod can be supported and fixed, and the supporting slide rod can be supported on the telegraph pole.

The wire pole is further provided with a cement pipe extending into the inner cavity of the wire pole, the wire pole is further provided with a fourth jacking rod extending into the inner cavity of the wire pole, a circle of supporting supports rotating in the inner cavity of the wire pole are arranged on the fourth jacking rod, every two supporting supports are connected through a sealing tarpaulin, and the cement pipe and the fourth jacking rod are arranged at two ends of the first sheath and the second sheath. Can carry out the canning of cement to the line pole inner chamber to can be further after cement solidifies the third roof pressure pole solidifies in cement, thereby can be further through first roof pressure pole with the support slide bar is fixed on the wire pole, can utilize sealed tarpaulin can catch cement, thereby prevent the hourglass of cement.

Furthermore, the first sheath and the second sheath are rotatably connected through a first hinge, one side of the first sheath and one side of the second sheath are respectively provided with a row of corresponding first clamping blocks, the first clamping blocks are correspondingly connected through a third rotating shaft, the other side of the first sheath and the other side of the second sheath are respectively provided with a row of corresponding fourth grooves and second clamping blocks, the second clamping blocks are respectively clamped in the fourth grooves, and the second clamping blocks are rotatably connected through a fourth rotating shaft. The first sheath and the second sheath can be respectively arranged into two parts, so that the first sheath and the second sheath can be further conveniently clamped on the telegraph pole.

Furthermore, a first sliding groove which is circularly arranged is arranged on the second connecting block, a first sliding head which slides is arranged in the first sliding groove, and the pulling sliding shaft is connected to the first sliding head.

The first connecting block is provided with a concave clamping groove, two sides of the clamping groove respectively comprise a first groove arranged on the first connecting block, the first connecting block is internally provided with a first rotating shaft rotating in the first groove, the first engaging wheels are respectively arranged on the first rotating shafts, two first rotating shafts are respectively provided with a first gear correspondingly engaged and connected, one of the first rotating shafts and the second rotating shaft are respectively provided with a first bevel gear correspondingly engaged and connected, the pulling sliding shaft is arranged in a square shape, four side surfaces of the pulling sliding shaft are respectively provided with an engaging tooth groove correspondingly engaged and connected with the first engaging wheel, the clamping groove is also internally provided with a tenth rotating shaft connected with the first connecting block, and the tenth rotating shaft is respectively provided with a second engaging wheel, and the second meshing wheels are correspondingly meshed and connected with the meshing tooth grooves respectively. The first gear can be further driven to rotate through the rotation of the rotating sleeve, so that the corresponding meshing connection between the gears and the tooth grooves can be further realized, the sliding of the pulling sliding shaft can be further driven, the second sheath can be further pulled, and the purpose of correcting the bent telegraph pole can be further achieved.

Furthermore, a circle of second sliding grooves corresponding to the second rotating shaft are arranged on the first connecting block, the second sliding grooves are respectively arranged in a T shape, the clamping sliding shaft is respectively provided with a first sliding block sliding in the second sliding grooves, the second sliding grooves are respectively internally provided with a first spring for biasing the first sliding block, the first sliding holes are arranged in a square shape, two ends of the rotating sleeve are respectively provided with two second grooves corresponding to the clamping sliding shafts, the second grooves are respectively arranged at two sides of the rotating sleeve, the rotating sleeve is internally provided with a second sliding hole correspondingly communicated with the second grooves, the second sliding holes are respectively correspondingly communicated with the first sliding holes, the second sliding holes are respectively provided with a sliding first jacking shaft, two sides of the second sliding hole respectively comprise a third groove arranged on the rotating sleeve, the first jacking shaft is provided with a second sliding block which slides in the third groove, the third groove is internally provided with a second spring for biasing the second sliding block, one end of the first jacking shaft slides in the first sliding hole, the other end of the first jacking shaft is provided with a jacking sliding block which slides in the second groove, the jacking sliding blocks are provided with jacking cambered surfaces corresponding to the clamping sliding shafts respectively, and the supporting rotating rods respectively jack the first jacking shaft. The jacking sliding shaft can be normally pulled by further driving the jacking sliding block to further correct the telegraph pole, and meanwhile, after the supporting rotating rod is taken out from the first sliding hole, the clamping sliding shaft can be further reset, and meanwhile, the jacking sliding block can slide, so that the rotation of the rotating sleeve can be further limited by the further correction of the clamping sliding shaft, and the supporting rotating rod can be further prevented from freely rotating the supporting sleeve.

Furthermore, the first sheath and the second sheath are respectively provided with a ninth groove correspondingly communicated with the fifth sliding groove, the ninth groove is respectively provided with a sliding third sliding block, the third sliding block is respectively provided with a fifth groove arranged in a concave shape, the fifth groove is respectively provided with a sixth rotating shaft connected with the third sliding block, the jacking rotating wheels respectively rotate on the sixth rotating shafts, the third sliding block is respectively provided with a T-shaped third sliding groove, the third sliding groove is respectively provided with a rotating head rotating and rotating, the rotating head is respectively connected with a fifth rotating shaft, the fifth rotating shaft is provided with threads, the first sheath and the second sheath are respectively provided with threaded holes correspondingly engaged with the threads arranged on the fifth rotating shaft, and the end parts of the fifth rotating shafts are respectively provided with a rotating handle. The rotation of the fifth rotating shaft can be further controlled through the rotation of the rotating handle, so that the jacking rotating wheel can be further driven to slide, the supporting sliding rod can be further jacked on the telegraph pole, and the telegraph pole can be further supported through the supporting sliding rod.

Furthermore, one end of the first jacking rod is provided with a seventh groove, a seventh rotating shaft connected to the first jacking rod is arranged in each seventh groove, the second jacking rods rotate in the seventh rotating shafts respectively, the end portions of the second jacking rods are provided with eighth grooves respectively, an eighth rotating shaft connected to the second jacking rods is arranged in each eighth groove, the third jacking rods rotate in the eighth rotating shafts respectively, the first jacking rods are provided with fourth sliding holes respectively, the third jacking rods slide in the fourth sliding holes respectively, the support sliding rods are provided with sixth grooves respectively, and the end portions of the first jacking rods are provided with clamping joints corresponding to the sixth grooves respectively. The second top pressure rod can be further driven to swing through the sliding of the third top pressure rod, so that the second top pressure rod can swing in the inner cavity of the wire pole, the first top pressure rod can be further supported through the second top pressure rod, and the support slide rod can be fixed on the wire pole.

Furthermore, a ninth rotating shaft is arranged at the center of the fourth top pressure rod, the supporting bracket is provided with a plurality of supporting brackets, the two ends of the ninth rotating shaft are respectively rotated, the supporting brackets are correspondingly connected through a supporting air pipe, an air inlet hole for supplying air to the supporting air pipe is formed in the fourth top pressure rod, and a discharge hole is formed in the cement pipe. The supporting bracket can be further extended in the cavity of the line pole after the supporting air pipe is inflated, so that the sealing tarpaulin can be further extended, and the cement can be further prevented from leaking.

Compared with the prior art, the invention has the beneficial effects that: after the first sheath and the second sheath are respectively sleeved on the telegraph pole, the sliding of the pulling sliding shaft can be further driven through the rotation of the rotating sleeve, so that the rotation between the first sheath and the second sheath can be further pulled, the bent telegraph pole can be further corrected, the purpose of correction is achieved, the problem of difficulty and numbness caused by traditional telegraph pole replacement can be avoided, normal power supply is guaranteed, and meanwhile the problem of traffic jam can be further avoided;

the supporting slide bars can be further pressed on the telegraph pole through the sliding of the pressing rotating wheels, so that the bent telegraph pole can be further supported and fixed through the supporting slide bars;

the second top pressure rod can be further driven to swing through the sliding of the third top pressure rod, so that the second top pressure rod can further swing in the inner cavity of the wire rod, and the first top pressure rod can be supported by the second top pressure rod;

the supporting bracket can be further extended after the supporting air pipe is inflated, so that the sealing tarpaulin can be further extended in the inner cavity of the wire pole, cement can be discharged from the inner cavity of the wire pole through the cement pipe, the sealing tarpaulin can further prevent the cement from leaking outwards, the second jacking rod can be further fixed through the solidification of the cement, the supporting slide rod can be fixed at the bending position of the telegraph pole, the bent telegraph pole can be supported, and meanwhile, the correction effect of the bent cement can be further improved by using dry cement.

Drawings

The invention is further described below with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of a utility pole bending correction device according to an embodiment of the invention.

Fig. 2 is a schematic view of a connection structure of a first sheath and a second sheath according to an embodiment of the present invention.

Fig. 3 is a schematic view of an overall structure of the embodiment of the invention in which the sliding shaft is driven by the rotating sleeve to slide.

Fig. 4 is a schematic view of the overall structure of the rotating sleeve according to the embodiment of the present invention.

Fig. 5 is a side view showing the overall structure of the rotating sleeve according to the embodiment of the present invention.

FIG. 6 is a top view of the overall structure of the first sheath according to the embodiment of the present invention.

Fig. 7 is a schematic view of the overall structure of the pressing wheel according to the embodiment of the present invention.

FIG. 8 is a schematic view of the overall structure of a support slide bar according to an embodiment of the present invention.

FIG. 9 is a side view of the overall structure of a cement pipe and a fourth press rod according to the embodiment of the present invention.

Fig. 10 is a top view of the overall structure of a fourth press rod according to the embodiment of the present invention.

In the figure: 1 telegraph pole, 2 wire pole inner cavity, 3 first sheath, 4 second sheath, 5 first hinge, 6 first connecting block, 7 second connecting block, 8 first chute, 9 first sliding head, 10 pulling sliding shaft, 11 first engaging wheel, 12 clamping groove, 13 first groove, 14 first rotating shaft, 15 first gear, 16 second engaging wheel, 17 engaging tooth groove, 18 first bevel gear, 19 second rotating shaft, 20 rotating sleeve, 21 first sliding hole, 22 second chute, 23 first sliding block, 24 clamping sliding shaft, 25 first spring, 26 first jacking shaft, 27 second groove, 28 third groove, 29 second sliding block, 30 second spring, 31 jacking sliding block, 32 jacking arc surface, 33 second sliding hole, 34 supporting rotating rod, 35 third rotating shaft, 36 first clamping block, 37 fourth groove, 38 second clamping block, 39 fourth rotating shaft, 40 rotating handle, 41 fifth rotating shaft, 42 rotating wheel, 43 third sliding block, 44 third sliding groove, 45 fifth groove, 46 sixth rotating shaft, 47 cement pipe, 48 rotating head, 49 discharge outlet, 50 supporting sliding rod, 51 third sliding hole, 52 first jacking rod, 53 sixth groove, 54 clamping joint, 55 seventh groove, 56 seventh rotating shaft, 57 second jacking rod, 58 eighth groove, 59 eighth rotating shaft, 60 third jacking rod, 61 fourth sliding hole, 62 fourth jacking rod, 63 supporting bracket, 64 supporting air pipe, 65 air inlet hole, 66 ninth rotating shaft, 67 fifth sliding groove, 68 sealing tarpaulin, 69 tenth rotating shaft and 70 ninth groove.

Detailed Description

As shown in fig. 1 to 10, a utility pole bending correction device includes a utility pole 1, a pole cavity 2 is disposed in the utility pole 1, a first sheath 3 and a second sheath 4 are sleeved on the utility pole 1, the second sheath 4 rotates on the first sheath 3, a first connecting block 6 and a second connecting block 7 are respectively disposed on the first sheath 3 and the second sheath 4, a swinging pulling sliding shaft 10 is disposed on the second connecting block 7, a first engaging wheel 11 for driving the pulling sliding shaft 10 to slide is disposed on the first connecting block 6, a rotating second rotating shaft 19 is disposed on one side of the first connecting block 6, the second rotating shaft 19 drives the first engaging wheel 11 to rotate, a rotating sleeve 20 is disposed on the second rotating shaft 19, a first sliding hole 21 is disposed on the rotating sleeve 20, one side of first connecting block 6 is provided with the gliding joint slide-shaft 24 of round, the control of joint slide-shaft 24 the rotation of rotating sleeve 20, be provided with a gliding support bull stick 34 in the first slide opening 21, support the sliding control of bull stick 34 the slip of joint slide-shaft 24.

A cavity is arranged in the telegraph pole 1 and is a pole inner cavity 2, a first sheath 3 and a second sheath 4 are sleeved on the telegraph pole 1, the first sheath 3 and the second sheath 4 can be sleeved on the telegraph pole 1, the second sheath 4 can rotate on the first sheath 3, so that the first sheath 3 and the second sheath 4 can be respectively sleeved on the bending position of the telegraph pole 1, a corresponding first connecting block 6 and a corresponding second connecting block 7 are respectively arranged on the first sheath 3 and the second sheath 4, a swinging pulling sliding shaft 10 is arranged on the second connecting block 7, a rotating first engaging wheel 11 is arranged in the first connecting block 6, the sliding of the pulling sliding shaft 10 can be driven by the rotation of the first engaging wheel 11, so that the second sheath 4 can be further pulled, so that the second sheath 4 can be further operated to further pull the bent utility pole to swing, thereby correcting the bent utility pole 1, a rotating second rotating shaft 19 is provided at one side of the first connecting block 6, the second rotating shaft 19 can drive the first engaging wheel 11 to rotate, a rotating sleeve 20 is provided on the second rotating shaft 19, thereby the rotating of the first engaging wheel 11 can be driven by the rotating of the rotating sleeve 20, thereby the sliding of the pulling slide shaft 10 can be further driven, thereby further correcting the bent utility pole 1, a first slide hole 21 is provided on the rotating sleeve 20, a supporting rotary rod 34 is provided in the first slide hole 21, the supporting rotary rod 34 can be inserted into the first slide hole 21, therefore, the support rotating rod 34 can further drive the rotation sleeve 20 to rotate, one side of the first connecting block 6 is provided with a circle of sliding clamping sliding shafts 24, the rotation sleeve 20 can be further clamped through the sliding of the clamping sliding shafts 24, so that the rotation of the rotation sleeve can be further limited, the problem of autorotation in the process of correcting the telegraph pole 1 can be prevented, the sliding of the clamping sliding shafts 24 can be further controlled through the sliding of the support rotating rod 34, so that after the support rotating rod 34 is inserted into the first sliding hole 21, the sliding of the clamping sliding shafts 24 can be further controlled, the rotation sleeve 20 can be further rotated, the correction of the telegraph pole 1 can be completed, and after the support rotating rod 34 slides out of the first sliding hole 21, the rotating sleeve 20 can be further clamped by sliding the clamping rotating shaft 24, so that the rotation of the first meshing wheel 11 is limited, and the automatic swinging of the telegraph pole 1 can be prevented.

A circle of fifth sliding grooves 67 corresponding to the utility pole 1 are respectively arranged on the first sheath 3 and the second sheath 4, a sliding supporting slide bar 50 is respectively arranged in the fifth sliding grooves 67, and a jacking runner 42 jacking against the supporting slide bar 50 is respectively arranged on the first sheath 3 and the second sheath 4.

A circle of fifth sliding grooves 67 are respectively formed in the first sheath 3 and the second sheath 4, the fifth sliding grooves 67 correspond to the utility pole 1, the number of the fifth sliding grooves 67 can be set according to design requirements, after the utility pole 1 is modified, a supporting slide bar 50 can be respectively inserted into the fifth sliding grooves 67, and a sliding jacking runner 42 is respectively arranged in the first sheath 3 and the second sheath 4, so that the supporting slide bar 50 can be respectively jacked by the jacking runner 42, and the supporting slide bar 50 can be jacked on the utility pole 1.

A row of corresponding third sliding holes 51 are respectively formed in the support sliding rod 50, a sliding first jacking rod 52 is respectively arranged in each third sliding hole 51, a swinging second jacking rod 57 is respectively arranged at the end of each first jacking rod 52, a third jacking rod 60 for driving the second jacking rod 57 to swing is respectively arranged on each first jacking rod 52, and the third jacking rod 60 drives the second jacking rod 57 to swing after the first jacking rod 52 extends into the inner cavity 2 of the wire rod.

A row of corresponding third sliding holes 51 are respectively formed in the supporting slide bars 50, the number of the third sliding holes 51 can be set according to the design requirement, a sliding first top pressure bar 52 is respectively arranged in the searched third sliding holes 51, a swinging second top pressure bar 57 is respectively arranged at the end part of the first top pressure bar 52, a sliding third top pressure bar 60 is respectively arranged in the first top pressure bar 52, the swinging of the second top pressure bar 57 can be further controlled by the sliding of the third top pressure bar 60, after the supporting slide bars 50 are pressed on the utility pole 1, holes can be drilled on the utility pole 1 through the third sliding holes 51 by an electric drill or the like, then the first top pressure bar 52 is inserted into the inner cavity 2 of the utility pole, and then the swinging of the second top pressure bar 57 is driven by the third top pressure bar 60, so that the second pressing rod 57 can be swung in the wire rod cavity 2.

The utility pole 1 is further provided with a cement pipe 47 extending into the wire pole inner cavity 2, the utility pole 1 is further provided with a fourth top pressure rod 62 extending into the wire pole inner cavity 2, the fourth top pressure rod 62 is provided with a circle of support brackets 63 rotating in the wire pole inner cavity 2, every two support brackets 63 are connected through a sealing tarpaulin 68, and the cement pipe 47 and the fourth top pressure rod 62 are arranged at two ends of the first sheath 3 and the second sheath 4.

The utility model is characterized in that a cement pipe 47 extending into the wire pole inner cavity 2 is arranged on the utility pole 1, the utility pole 1 can be drilled by an electric drill, the cement pipe 47 further extends into the wire pole inner cavity 2, a fourth top pressure rod 62 is arranged on the utility pole 1, the utility pole 1 can be drilled by an electric drill, so that the fourth top pressure rod 62 can extend into the wire pole inner cavity 2, a rotary supporting bracket 63 is arranged on the fourth top pressure rod 62, the number of the supporting brackets 63 can be set according to the design requirement, the supporting brackets 63 can extend and expand in the wire pole inner cavity 2, a sealing tarpaulin 68 is arranged between two adjacent supporting brackets 63, so that the wire pole inner cavity 2 can be sealed by the sealing tarpaulin 68, can be right through cement pipe 47 carry out the canning of cement in the wire pole inner chamber 2, thereby can pass through sealed tarpaulin 68 prevents the seepage of cement, thereby can be further with second roof pressure pole 57 is buried in cement, after the cement is dry, can be further right second roof pressure pole 57 is fixed, thereby further with support slide bar 50 compresses tightly on wire pole 1, thereby can be further through support slide bar 50 fifty percent discount wire pole 1 of bight is fixed, and can pass through the fixed effect of further improvement of the cement of solidifying in the wire pole inner chamber 2, thereby reach the purpose of revising wire pole 1 of bending, thereby avoided changing the trouble that causes, further raise the efficiency, can avoid the problem of the traffic jam that causes because of changing the wire pole simultaneously.

As shown in fig. 1 and 6, the first sheath 3 and the second sheath 4 are rotatably connected through a first hinge 5, one side of the first sheath 3 and one side of the second sheath 4 are respectively provided with a row of corresponding first clamping blocks 36, the first clamping blocks 36 are correspondingly connected through a third rotating shaft 35, the other side of the first sheath 3 and the second sheath 4 is respectively provided with a row of corresponding fourth grooves 37 and second clamping blocks 38, the second clamping blocks 38 are respectively clamped in the fourth grooves 37, and the second clamping blocks 38 are correspondingly rotatably connected through a fourth rotating shaft 39.

The first sheath 3 and the second sheath 4 are rotatably connected through a first hinge 5, so that the first hinge 5 can be connected, the first sheath 3 and the second sheath 4 can be sleeved at the bending position of the telegraph pole 1, the first sheath 3 and the second sheath 4 are respectively composed of two parts and are respectively arranged in a semicircular shape, one side of the first sheath 3 and one side of the second sheath 4 are respectively provided with a row of correspondingly arranged first clamping blocks 36, the first clamping blocks 36 are respectively provided with a corresponding through hole, so that the first clamping blocks 36 can be further correspondingly connected through the third rotating shaft 35, the first sheath 3 and the second sheath 4 which are respectively arranged in two parts can be further correspondingly connected and rotated, so that the first sheath 3 and the second sheath 4 can be further conveniently clamped on the telegraph pole 1, the other sides of the first sheath 3 and the second sheath 4 which are arranged at the two parts are respectively provided with a fourth groove 37 and a second clamping block 38 which are correspondingly arranged, the second clamping block 38 can be respectively clamped in the fourth groove 37, the second clamping blocks 38 are correspondingly and rotatably connected through a fourth rotating shaft 39, the first sheath 3 and the second sheath 4 are respectively provided with a supporting through hole corresponding to the second clamping block 38 and the fourth groove 37, and can slide in the supporting through hole through the fourth rotating shaft 39, so as to be able to further connect the first sheath 3 with another part of the second sheath 4, therefore, the first sheath 3 and the second sheath 4 can be clamped at the bending position of the telegraph pole 1, and the telegraph pole 1 can be corrected.

As shown in fig. 1 to 3, a first sliding groove 8 which is circularly arranged is arranged on the second connecting block 7, a first sliding head 9 which slides is arranged in the first sliding groove 8, and the pulling sliding shaft 10 is connected to the first sliding head 9.

The second connecting block 7 is provided with a first sliding groove 8, the first sliding groove 8 is in a circular arrangement, a sliding first sliding head 9 is arranged in the first sliding groove 8, the first sliding head 9 is in a circular arrangement, so that the sliding of the pulling sliding shaft 10 can be further driven by the sliding of the first sliding head 9, and the sliding position of the pulling sliding shaft 10 can be further adjusted by the sliding of the first sliding head 9.

The first connecting block 6 is provided with a concave clamping groove 12, two sides of the clamping groove respectively comprise a first groove 13 arranged on the first connecting block 6, the first connecting block 6 is internally provided with a first rotating shaft 14 rotating in the first groove 13, the first engaging wheels 11 are respectively arranged on the first rotating shafts 14, two first rotating shafts 14 are respectively provided with a first gear 15 correspondingly engaged and connected, one of the first rotating shafts 14 and the second rotating shaft 19 is respectively provided with a first bevel gear 18 correspondingly engaged and connected, the pulling sliding shaft 10 is arranged in a square shape, four side surfaces of the pulling sliding shaft 10 are respectively provided with an engaging tooth groove 17 correspondingly engaged and connected with the first engaging wheel 11, the clamping groove 12 is also internally provided with a tenth rotating shaft 69 connected on the first connecting block 6, the tenth rotating shaft 69 is provided with a second rotating meshing wheel 16, and the second meshing wheels 16 are correspondingly meshed with the meshing tooth grooves 17.

A concave clamping groove 12 is arranged on the first connecting block 6, the pulling sliding shaft 10 can slide in the clamping groove 12, two sides of the clamping groove 12 are respectively provided with a first rotating shaft 14 which rotates in the first connecting block 6, the first engaging wheels 11 are respectively arranged on the first rotating shafts 14, so that the first engaging wheels 11 can be further driven to rotate by the rotation of the first rotating shafts 14, the pulling sliding shaft 10 is arranged in a square shape, engaging tooth grooves 17 are respectively arranged on four side surfaces of the pulling sliding shaft 10, the first engaging wheels 11 are respectively correspondingly engaged with the engaging tooth grooves 17, so that the sliding of the pulling sliding shaft 10 can be further driven by the rotation of the first rotating shafts 14, two first rotating shafts 14 are respectively provided with a first gear 15 correspondingly engaged with each other, therefore, the two first engaging wheels 11 can further synchronously and correspondingly rotate, so that the sliding of the pulling sliding shaft 10 can be further driven, the first rotating shaft 14 and the second rotating shaft 19 are respectively provided with one first bevel gear 18 correspondingly connected in an engaged manner, so that the sliding of the pulling sliding shaft 10 can be further controlled through the rotation of the second rotating shaft 19 through the corresponding engagement connection of the first bevel gear 18, the clamping groove 12 is internally provided with a tenth rotating shaft 69, the tenth rotating shaft 69 is provided with a rotating second engaging wheel 16, so that the pulling sliding shaft 10 can be supported through the second engaging wheel 16, and the normal sliding of the pulling sliding shaft 10 can be ensured.

As shown in fig. 3, 4 and 5, a circle of second sliding grooves 22 corresponding to the second rotating shaft 19 is disposed on the first connecting block 6, the second sliding grooves 22 are respectively arranged in a T shape, a first sliding block 23 sliding in the second sliding groove 22 is disposed on the clamping sliding shaft 24, a first spring 25 elastically pressing the first sliding block 23 is disposed in each second sliding groove 22, the first sliding hole 21 is arranged in a square shape, two second grooves 27 corresponding to the clamping sliding shaft 24 are disposed at two ends of the rotating sleeve 20, the second grooves 27 are disposed at two sides of the rotating sleeve 20, a second sliding hole 33 corresponding to the second groove 27 is disposed in the rotating sleeve 20, the second sliding holes 33 are correspondingly communicated with the first sliding hole 21, a sliding first jacking shaft 26 is disposed in each second sliding hole 33, the two sides of the second sliding hole 33 respectively include a third groove 28 disposed on the rotating sleeve 20, the first jacking shaft 26 is respectively provided with a second sliding block 29 sliding in the third groove 28, the third groove 28 is respectively provided with a second spring 30 for biasing the second sliding block 29, one end of the first jacking shaft 26 respectively slides in the first sliding hole 21, the other end of the first jacking shaft 26 is respectively provided with a jacking sliding block 31 sliding in the second groove 27, the jacking sliding block 31 is respectively provided with a jacking arc surface 32 corresponding to the clamping sliding shaft 24, and the supporting rotating rod 34 respectively jacks the first jacking shaft 26.

A circle of second sliding grooves 22 are formed in the first connecting block 6, the positions of the second sliding grooves 22 correspond to the positions of the second rotating shafts 19, the number of the second sliding grooves 22 is set according to design requirements, the clamping sliding shafts 24 respectively slide in the second sliding grooves 22, first sliding blocks 23 which slide in the second sliding grooves 22 are respectively arranged on the clamping sliding shafts 24, and the first sliding blocks 23 can be pressed by the first springs 25 to further drive the clamping sliding shafts 24 to slide;

the first sliding hole 21 is arranged in a square shape, two second grooves 27 corresponding to the clamping sliding shaft 24 are respectively arranged at two ends of the rotating sleeve 20, the second grooves 27 are arranged at two sides of the rotating sleeve 20, the pushing slide block 31 can be further driven to slide by the sliding of the first pushing shaft 26, when the rotating sleeve 20 rotates, the pushing slide block 31 can be further driven to rotate around the clamping sliding shaft 24, an arc pushing arc surface 32 is arranged on the pushing slide block 31, the first pushing shaft 26 can be further pushed by the supporting rotating rod 34, so that the pushing slide block 31 can be further driven to slide, and the pushing slide block 31 can be rotated on the clamping sliding shaft 24 in the rotating process of the rotating sleeve 20, since the jacking cambered surface 32 arranged in an arc shape is arranged on the jacking sliding block 31, the rotating sleeve 20 can further rotate on the clamping sliding shaft 24, when the supporting rotating rod 34 slides out of the first sliding hole 21, the second sliding block 29 can be sprung through the second spring 30, so that the first jacking shaft 26 can be further driven to slide, the jacking sliding block 31 can be further driven to slide, the clamping sliding shaft 25 can be clamped in the second groove 27, so that the rotation of the rotating sleeve 20 can be further limited, the rotation of the first meshing wheel 11 can be further limited, the sliding of the pulling sliding shaft 10 can be further controlled, the bending of the telegraph pole 1 can be further controlled, and the supporting rotating rod 34 can extend into the first sliding hole 21, the moment can be increased, so that the rotation of the rotating sleeve 20 can be further conveniently controlled, and the bending correction of the telegraph pole can be further ensured.

As shown in fig. 6 and 7, the first sheath 3 and the second sheath 4 are respectively provided with a ninth groove 70 correspondingly communicated with the fifth sliding groove 67, the ninth groove 70 is respectively provided with a sliding third sliding block 43, the third sliding block 43 is respectively provided with a concave fifth groove 45, the fifth groove 45 is respectively provided with a sixth rotating shaft 46 connected to the third sliding block 43, the pressing rotating wheels 42 respectively rotate on the sixth rotating shafts 46, the third sliding block 43 is respectively provided with a T-shaped third sliding groove 44, the third sliding grooves 44 are respectively provided with a rotating head 48, the rotating heads 48 are respectively connected with a fifth rotating shaft 41, the fifth rotating shafts 41 are provided with threads, the first sheath 3 and the second sheath 4 are respectively provided with threaded holes correspondingly engaged with the threads of the fifth rotating shafts 41 And a rotating handle 40 is respectively arranged at the end parts of the fifth rotating shafts 41.

Ninth grooves 70 correspondingly communicating with the fifth grooves 67 are respectively formed in the first sheath 3 and the second sheath 4, the number of the ninth grooves 70 is set according to the design requirement, at least three of the ninth grooves 70 are provided, a third sliding block 43 sliding is respectively provided in each of the ninth grooves 70, a fifth groove 45 is respectively provided on each of the third sliding blocks 43, a sixth rotating shaft 46 is respectively provided in each of the fifth grooves 45, the pressing rollers 42 respectively rotate on the sixth rotating shafts 46, so that the fifth rotating shafts 41 can be further driven to rotate by the rotation of the rotating handle 40, threaded grooves are provided on the fifth rotating shafts 41, and threaded holes correspondingly engaged with the threaded grooves provided on the fifth rotating shafts 41 are respectively provided on the first sheath 3 and the second sheath 4, the rotation of the rotating handle 40 can further drive the sliding of the third sliding block 43, so as to further drive the sliding of the jacking roller 42, the rotation of the rotating head 48 in the third sliding slot 44 can further cause the sliding of the third sliding block 43 by the fifth rotating shaft 41, so as to jack the jacking roller 42 against the supporting slide bar 50, so as to further jack the supporting slide bar 50 against the utility pole 1, and the rotation of the jacking roller 42 on the utility pole 1 can further drive the sliding of the first sheath 3 and the second sheath 5 on the supporting slide bar 50, so as to take down the first sheath 3 and the second sheath 4 from the utility pole 1.

As shown in fig. 6 and 8, one end of the first pressing rod 52 is respectively provided with a seventh groove 55, a seventh rotating shaft 56 connected to the first pressing rod 52 is respectively disposed in the seventh grooves 55, the second pressing rods 57 respectively rotate on the seventh rotating shafts 56, the end portions of the second pressing rods 57 are respectively provided with an eighth groove 58, an eighth rotating shaft 59 connected to the second pressing rod 57 is respectively disposed in the eighth grooves 58, the third pressing rods 60 respectively rotate on the eighth rotating shafts 59, a fourth sliding hole 61 is respectively arranged in the first pressing rod 52, the third top pressure rods 60 respectively slide in the fourth sliding holes 61, the support sliding rods 50 are respectively provided with a sixth groove 53, the ends of the first pressing rod 52 are respectively provided with a clamping joint 54 corresponding to the sixth groove 53.

One end of the first pressing rod 52 is respectively provided with a seventh groove 55, the second pressing rod 57 can be further driven to swing by the sliding of the third pressing rod 60, so that the second pressing rod 57 can further swing in the pole inner cavity 2, the second pressing rod 57 can be further buried in the pole inner cavity 2 in a cement canning manner, and the clamping joint 54 is clamped in the sixth groove 53, so that the supporting slide rod 50 can be further supported and pressed on the utility pole 1, the supporting slide rod 50 can be further pressed on the utility pole 1 at the broken position for supporting, the purpose of supporting and correcting the utility pole 1 is achieved, and the trouble caused by traditional replacement of the utility pole is avoided, the third pressing rod 60 can be supported by the third sliding hole 61, so that the normal sliding of the third pressing rod 60 can be ensured.

As shown in fig. 9 and 10, a ninth rotating shaft 66 is disposed in the center of the fourth pressing rod 62, a plurality of supporting brackets 63 are disposed and respectively rotate at two ends of the ninth rotating shaft 66, the supporting brackets 63 are correspondingly connected through a supporting air pipe 64, an air inlet 65 for supplying air to the supporting air pipe 64 is disposed in the fourth pressing rod 62, and an exhaust outlet 49 is disposed on the cement pipe 47.

Compressed air can be filled into the supporting air pipe 64 through the air inlet hole 65, so that the supporting air pipe 64 can be expanded through the compressed air, so that the ninth rotating shaft 66 can be further driven to rotate, so that the sealing tarpaulin 68 can be further expanded, cement can be further discharged into the wire pole inner cavity 2 through the discharge hole 49 formed in the cement pipe 57, so that the telegraph pole 1 in the bent position can be further canned with cement, the sealing tarpaulin 68 can be further used for preventing the cement from leaking out, so that the second jacking rod 57 can be sealed in the cement, so that the second jacking rod 57 can be further fixed in the cement after the cement is solidified, so that the supporting sliding rod 50 can be further pressed on the telegraph pole 1, so that the bent telegraph pole 1 can be supported, the purpose of correcting the bent telegraph pole can be further achieved, and the telegraph pole 1 at the bending position can be supported by utilizing solidified cement, so that the correction effect is improved.

The above-mentioned embodiments are only for convenience of description, and are not intended to limit the present invention in any way, and those skilled in the art will understand that the technical features of the present invention can be modified or changed by other equivalent embodiments without departing from the scope of the present invention.

Claims (7)

1. The utility model provides a wire pole correcting unit that bends, includes a wire pole, be provided with a wire pole inner chamber in the wire pole, its characterized in that: the telegraph pole is sleeved with a first sheath and a second sheath, the second sheath rotates on the first sheath, the first sheath and the second sheath are respectively provided with a corresponding first connecting block and a corresponding second connecting block, the second connecting block is provided with a swinging pulling sliding shaft, the first connecting block is provided with a first engaging wheel for driving the pulling sliding shaft to slide, one side of the first connecting block is provided with a rotating second rotating shaft, the second rotating shaft drives the first engaging wheel to rotate, the second rotating shaft is provided with a rotating sleeve, the rotating sleeve is provided with a first sliding hole, one side of the first connecting block is provided with a circle of sliding clamping sliding shaft, the clamping sliding shaft controls the rotating sleeve to rotate, and a sliding supporting rotating rod is arranged in the first sliding hole, the sliding of the support rotating rod controls the sliding of the clamping sliding shaft;

a circle of fifth sliding grooves corresponding to the telegraph pole are respectively formed in the first sheath and the second sheath, a sliding supporting slide bar is respectively arranged in each fifth sliding groove, and jacking rotating wheels for jacking the supporting slide bars are respectively arranged on the first sheath and the second sheath;

a row of corresponding third sliding holes are respectively formed in the support sliding rods, a sliding first top pressure rod is respectively arranged in each third sliding hole, a swinging second top pressure rod is respectively arranged at the end part of each first top pressure rod, a third top pressure rod for driving the second top pressure rod to swing is respectively arranged on each first top pressure rod, and the third top pressure rod drives the second top pressure rod to swing after the first top pressure rod extends into the inner cavity of the wire rod;

the wire pole is further provided with a cement pipe extending into the inner cavity of the wire pole, the wire pole is further provided with a fourth jacking rod extending into the inner cavity of the wire pole, a circle of supporting supports rotating in the inner cavity of the wire pole are arranged on the fourth jacking rod, every two supporting supports are connected through a sealing tarpaulin, and the cement pipe and the fourth jacking rod are arranged at two ends of the first sheath and the second sheath.

2. The utility pole bending correction device of claim 1, wherein: the first sheath with rotate through a first hinge between the second sheath and be connected, first sheath with one side of second sheath is provided with one row of corresponding first joint piece respectively, through the corresponding connection of a third pivot between the first joint piece, first sheath with the opposite side of second sheath is provided with one row of corresponding fourth recess and second joint piece respectively, second joint piece difference joint is in the fourth recess, rotate through the corresponding rotation of a fourth pivot between the second joint piece and connect.

3. The utility pole bending correction device of claim 1, wherein: a first sliding groove which is arranged in a circular shape is arranged on the second connecting block, a first sliding head which slides is arranged in the first sliding groove, and the pulling sliding shaft is connected to the first sliding head;

the first connecting block is provided with a concave clamping groove, two sides of the clamping groove respectively comprise a first groove arranged on the first connecting block, the first connecting block is internally provided with a first rotating shaft rotating in the first groove, the first engaging wheels are respectively arranged on the first rotating shafts, two first rotating shafts are respectively provided with a first gear correspondingly engaged and connected, one of the first rotating shafts and the second rotating shaft are respectively provided with a first bevel gear correspondingly engaged and connected, the pulling sliding shaft is arranged in a square shape, four side surfaces of the pulling sliding shaft are respectively provided with an engaging tooth groove correspondingly engaged and connected with the first engaging wheel, the clamping groove is also internally provided with a tenth rotating shaft connected with the first connecting block, and the tenth rotating shaft is respectively provided with a second engaging wheel, and the second meshing wheels are correspondingly meshed and connected with the meshing tooth grooves respectively.

4. The utility pole bending correction device of claim 1, wherein: the first connecting block is provided with a circle of second sliding grooves corresponding to the second rotating shaft, the second sliding grooves are respectively arranged in a T shape, the clamping sliding shaft is respectively provided with a first sliding block sliding in the second sliding grooves, the second sliding grooves are respectively internally provided with a first spring for biasing the first sliding block, the first sliding holes are arranged in a square shape, two ends of the rotating sleeve are respectively provided with two second grooves corresponding to the clamping sliding shafts, the second grooves are respectively arranged at two sides of the rotating sleeve, the rotating sleeve is internally provided with a second sliding hole correspondingly communicated with the second grooves, the second sliding holes are respectively correspondingly communicated with the first sliding holes, the second sliding holes are respectively provided with a sliding first jacking shaft, and two sides of the second sliding hole respectively comprise a third groove arranged on the rotating sleeve, the first jacking shaft is provided with a second sliding block which slides in the third groove, the third groove is internally provided with a second spring for biasing the second sliding block, one end of the first jacking shaft slides in the first sliding hole, the other end of the first jacking shaft is provided with a jacking sliding block which slides in the second groove, the jacking sliding blocks are provided with jacking cambered surfaces corresponding to the clamping sliding shafts respectively, and the supporting rotating rods respectively jack the first jacking shaft.

5. The utility pole bending correction device of claim 1, wherein: the first sheath and the second sheath are respectively provided with a ninth groove correspondingly communicated with the fifth sliding groove, the ninth groove is respectively provided with a sliding third sliding block, the third sliding block is respectively provided with a fifth groove arranged in a concave shape, the fifth groove is respectively provided with a sixth rotating shaft connected with the third sliding block, the jacking rotating wheels respectively rotate on the sixth rotating shafts, the third sliding block is respectively provided with a T-shaped third sliding groove, the third sliding grooves are respectively provided with a rotating head rotating and rotating, the rotating heads are respectively connected with a fifth rotating shaft, the fifth rotating shaft is provided with threads, the first sheath and the second sheath are respectively provided with threaded holes correspondingly meshed with the threads arranged on the fifth rotating shaft, and the end parts of the fifth rotating shafts are respectively provided with a rotating handle.

6. The utility pole bending correction device of claim 1, wherein: one end of the first jacking rod is provided with a seventh groove, a seventh rotating shaft connected with the first jacking rod is arranged in each seventh groove, the second jacking rods rotate on the seventh rotating shafts respectively, the end parts of the second jacking rods are provided with eighth grooves respectively, eighth rotating shafts connected with the second jacking rods are arranged in the eighth grooves respectively, the third jacking rods rotate on the eighth rotating shafts respectively, the first jacking rods are provided with fourth sliding holes respectively, the third jacking rods slide in the fourth sliding holes respectively, the support sliding rods are provided with sixth grooves respectively, and the end parts of the first jacking rods are provided with clamping joints corresponding to the sixth grooves respectively.

7. The utility pole bending correction device of claim 1, wherein: the center of the fourth top pressure rod is provided with a ninth rotating shaft, the supporting bracket is provided with a plurality of supporting brackets, the two ends of the ninth rotating shaft are respectively rotated, the supporting brackets are correspondingly connected through a supporting air pipe, an air inlet hole for supplying air to the supporting air pipe is formed in the fourth top pressure rod, and the cement pipe is provided with an excretion hole.

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