CN111622580B - Electric power engineering is with pole correcting device - Google Patents

Abstract

The utility model relates to an electric power engineering pole correcting device, which belongs to the field of electric power engineering auxiliary equipment and comprises a fixed plate, wherein two side edges of the fixed plate are provided with connecting plates, a first arc-shaped plate is arranged between the two side connecting plates, the opposite surfaces of the two side connecting plates are respectively provided with a sliding groove, a first slide block and a second slide block are respectively connected in the sliding grooves at two sides in a sliding way, the first slide block is hinged with a second arc-shaped plate, the second slide block is provided with a fixing part for fixing the edge of the second arc-shaped plate far away from the first slide block to the second slide block, the two side connecting plates are respectively provided with a first driving part for driving the first slide block and the second slide block to be positioned in the sliding grooves at two sides and move simultaneously, the electric power engineering pole correcting device also comprises a bottom plate, the bottom plate is provided with a correcting device for driving the fixed plate to move so as to correct an electric pole, the first arc-shaped plate and the second arc-shaped plate can be suitable for electric poles with different specifications, the correcting effect of the correcting device on electric poles of different specifications is improved.

Description

Electric power engineering is with pole correcting device

Technical Field

The application relates to the field of electric power engineering auxiliary equipment, in particular to an electric pole correction device for electric power engineering.

Background

After the 20 th century, the production of electric energy was mainly dependent on thermal power plants, hydroelectric power plants and nuclear power plants. The conditioned place also uses tidal, geothermal and wind energy to generate electricity. The transmission and distribution of electric energy is mainly realized by high-voltage and low-voltage alternating current power networks.

Chinese patent No. CN205743234U discloses a telegraph pole corrector, which comprises two hoops connected with a telegraph pole and two hydraulic pushing devices, wherein the pushing rods of the hydraulic pushing devices are hinged at two ends of a balancing rod; the middle of the balancing rod is provided with a universal joint; the universal joint is connected with the hoop through a connecting rod, and the hoop is fixedly connected with two semicircular hoop sheets through bolts.

The related art described above has the following technical drawbacks: when correcting the less pole of diameter, pass through bolt fixed connection back when two semi-circular staple bolt pieces, two semi-circular staple bolt pieces can't with the pole butt for the less pole of diameter can be located and rock between two semi-circular staple bolt pieces, has reduced the correction effect to the less pole of diameter.

Disclosure of Invention

In order to improve the correction effect of pole orthotic devices to different specification poles, this application provides a pole orthotic devices for power engineering.

The application provides a power engineering is with pole correcting device adopts following technical scheme:

an electric pole correcting device for electric power engineering comprises a fixed plate, wherein two side edges of the fixed plate are provided with connecting plates perpendicular to the fixed plate, a first arc-shaped plate is arranged between the connecting plates at two sides and at a position close to the fixed plate, the opposite surfaces of the connecting plates at two sides are provided with sliding grooves, the sliding grooves at two sides are respectively connected with a first sliding block and a second sliding block in a sliding manner, articulated on the first slider be provided with the second arc, be provided with on the second slider and be used for keeping away from the edge of first slider with the second arc and fix the mounting to on the second slider, both sides all be provided with on the connecting plate and be used for driving first slider and second slider and be located the first driving piece that removes simultaneously in the spout of both sides, electric power engineering still includes the bottom plate with pole orthotic devices, be provided with on the bottom plate and be used for driving the fixed plate and remove with the correctional agency to the pole.

By adopting the technical scheme, the electric pole penetrates between the first arc-shaped plate and the second arc-shaped plate, the first driving piece drives the first sliding block and the second sliding block to be positioned in the sliding grooves on the two sides and move simultaneously, so that the electric pole is clamped by the first arc-shaped plate and the second arc-shaped plate, the first arc-shaped plate and the second arc-shaped plate can be suitable for electric poles with different specifications, and the correction effect of the correction mechanism on the electric poles with different specifications is improved; articulate the second arc on first slider to on fixing the opposite side of second arc is fixed to the second slider through the mounting, conveniently move the pole into to between first arc and the second arc, thereby be convenient for correct the pole when the installation pole.

Preferably, the first driving part comprises a threaded lead screw which is rotatably connected in the chutes on the two sides along the length direction of the chutes, the first sliding block and the second sliding block are respectively sleeved on the threaded lead screw which is connected in the chutes on the two sides in a threaded manner, and the connecting plate is fixedly provided with a fixed motor which is used for driving the threaded lead screw to rotate.

Through adopting above-mentioned technical scheme, it rotates to drive the screw thread lead screw through fixed motor, because of first slider and second slider sliding connection in the spout, make first slider and second slider can not follow the rotation of screw thread lead screw and rotate, thereby make first slider and second slider drive the second arc and move towards first arc, thereby make second arc and first arc press from both sides the pole tightly, first slider and second slider can be portable to the screw thread lead screw on the optional position automatic fixation, thereby make second arc and first arc press from both sides the pole tightly, it is fixed to the pole to need not other structures, the fixed effect to the pole has been improved.

Preferably, the end part of the second slider, which is located outside the sliding groove, is provided with a first plate body, a through hole is formed in the first plate body, the edge, away from the first slider, of the second arc-shaped plate is provided with a second plate body, the second plate body is provided with an insertion rod used for being inserted into the through hole, the fixing part comprises elastic rods uniformly arranged on the insertion rod along the circumferential position of the insertion rod, one end of each elastic rod is connected to the insertion rod, and the other end of each elastic rod extends towards the position, where the second arc-shaped plate is located, in an inclined manner.

By adopting the technical scheme, when the second arc-shaped plate needs to be fixed on the second sliding block, the hinge point of the second arc-shaped plate on the first sliding block is rotated, so that the second plate body drives the insertion rod to move towards the through hole on the first plate body, the insertion rod drives the elastic rods to pass through the through hole, when the elastic rods penetrate into the through hole, the elastic rods can resist the elastic force of the elastic rods to move towards the insertion rod, after the elastic rods pass through the through hole, the elastic rods can restore the original shape due to the elastic force of the elastic rods, the elastic rods are abutted to the surface of the first plate body, which is far away from the second plate body, so that the elastic rods play a role in preventing the separation of the insertion rods and the first plate body, the insertion rods are fixed on the first plate body, the second arc-shaped plate and the first arc-shaped plate can be fixed on the electric pole, and the fixation of the second arc-shaped plate can be finished by driving the elastic rods to pass through holes, the fixing mode is convenient and simple.

Preferably, the insertion rod is arranged in a penetrating manner and is rotatably connected to the second plate body, the end portion, away from the first plate body, of the insertion rod is perpendicular to the insertion rod and is provided with a mounting plate, a spring is arranged between the mounting plate and the second plate body, the insertion rod is sleeved with the spring, one end of the spring is connected to the mounting plate, the other end of the spring is connected to the plate body, a plurality of openings for each elastic rod to penetrate are formed in the circumferential position of the first plate body along the through hole, and the openings are communicated with the through hole.

Through adopting above-mentioned technical scheme, when needs drive second arc and the separation of second plate body, elasticity through resisting the spring drives the peg graft and is located the second plate body and rotate, make the peg graft drive a plurality of elastic rods and rotate to the position relative with every opening, it rotates to drive the pin joint that the second arc is located on the first slider this moment, make the second arc drive the peg graft and be located the through-hole and shift out, thereby accomplish the separation of second arc and second slider, when the spring is in natural state, the peg graft can resist the elasticity of spring and drive the elastic rod butt to the face that the first plate body deviates from the second plate body, prevent that second arc and second slider from breaking away from, be convenient for fixed and break away from the second arc, the result of use of second arc has been improved.

Preferably, a plurality of grooves are formed in the circumferential position of the surface, away from the second plate body, of the first plate body along the through hole, the grooves are located between the adjacent openings, and the grooves are used for enabling the end portions, away from the insertion rod, of each elastic rod to move in.

Through adopting above-mentioned technical scheme, when the spring was in natural state, the elasticity joint to the recess in of spring can be resisted to the elastic rod to prevent that the second arc from driving the position at elastic rod orientation opening place and removing when fixed to the second slider, improved the fixed effect of fixing the second arc to on the second slider.

Preferably, the correcting mechanism is including the movable plate that is located the bottom plate top, the adjustment tank has been seted up on the bottom plate, be provided with sliding connection in the regulating block of adjustment tank on the movable plate, be provided with on the movable plate and be used for driving the second driving piece that the regulating block is located the removal in the adjustment tank, the movable plate fixedly is provided with the regulation pole on deviating from the face of bottom plate, the length direction along the length direction setting of perpendicular to regulation pole of adjustment tank, be provided with the articulated slab on the face that the fixed plate deviates from first arc, the tip that keeps away from the movable plate of regulation pole is seted up towards adjusting the pole and is used for supplying the cell body of articulated slab immigration, fixedly being provided with on the articulated slab wears to establish and rotates the axis of rotation of connecting on the face that the cell body is relative, be provided with on the regulation pole and be used for driving the axis of rotation to drive the third driving piece that the articulated slab moved.

Through adopting above-mentioned technical scheme, after being fixed to the pole between first arc and the second arc, drive the regulating block through the second driving piece and be located the adjustment tank and remove to drive the axis of rotation through the third driving piece and rotate, make first arc and second arc drive the pole rotate to with ground vertically state, and adjust the mounted position of pole, thereby correct the pole.

Preferably, the second driving piece includes that the length direction along the adjustment tank rotates the screw rod of connecting in the adjustment tank, the regulating block cover is established and threaded connection is on the screw rod, the fixed first regulating motor that is used for driving the screw rod and is located the adjustment tank internal rotation that is provided with on the bottom plate.

Through adopting above-mentioned technical scheme, when needs drive the regulating block and be located the adjustment tank and remove, drive the screw rod through first adjusting motor and rotate, because of regulating block sliding connection in the adjustment tank, make the regulating block can not follow the rotation of screw rod and rotate, thereby make the regulating block drive the movable plate and remove, accomplish the preliminary correction to the pole, the setting that adopts the screw rod can make the regulating block remove arbitrary position automatic fixation on the screw rod, make the pole fix to the state after adjusting, the correction effect to the pole has been improved.

Preferably, the third driving piece is provided with and fixed connection is in epaxial turbine including the cover, the fixed second adjusting motor that is provided with on the regulation pole, the fixed worm that is used for with the turbine meshing that is provided with on the drive end of second adjusting motor.

Through adopting above-mentioned technical scheme, when needs drive the pole rotate to with ground vertically state, drive the worm through the second adjusting motor and rotate, make the worm drive the turbine and rotate, the turbine can drive the axis of rotation and rotate, thereby make the axis of rotation drive the pole between first arc and the second arc and rotate, make the pole rotate to with ground vertically state, the mode that adopts the worm drive turbine has the auto-lock effect, make the pole rotatable to the optional state automatic fixation, the correction effect to the pole has been improved.

Preferably, the adjusting rod is arranged to be of a telescopic structure, the telescopic structure comprises a fixing rod and a moving rod which is connected with the fixing rod in a splicing mode and in a sliding mode, one end of the fixing rod is fixedly connected to the moving plate, the groove body is located at the end portion, far away from the fixing rod, of the moving rod, and a fourth driving piece which is used for driving the moving rod to move in the fixing rod and driving the moving rod to be fixed to the fixing rod to move at any position is arranged on the fixing rod.

Through adopting above-mentioned technical scheme, set up the regulation pole into extending structure, when not needing the correctional agency when using, will adjust the pole and shorten to shortest length, reduced whole correctional agency's space and occupy to can drive the pole further removal through cooperation regulating block and adjustment tank, thereby further improve the correction effect to the pole.

Preferably, the fourth driving member comprises an electric cylinder fixedly arranged on the fixed rod, the end part of the movable rod far away from the fixed rod extends towards the direction far away from the movable rod to form a driving plate, and the driving end of the electric cylinder is fixedly connected to the driving plate.

Through adopting above-mentioned technical scheme, adopt setting up of electric jar to go simple structure, be convenient for adjust the length of regulating lever, further improved the correction effect to the pole.

In summary, the present application includes at least one of the following beneficial technical effects:

the electric pole is placed in the first arc-shaped plate, the hinge point of the second arc-shaped plate on the first sliding block is rotated, so that the second arc-shaped plate drives the insertion rod to penetrate through the through hole, the elastic rods are abutted to the surface, deviating from the second plate body, of the first plate body, and the threaded lead screw is driven to rotate through the fixing motor, so that the electric pole is clamped by the second arc-shaped plate and the first arc-shaped plate, the first arc-shaped plate and the second arc-shaped plate can be fixed to electric poles of different specifications, and the correction effect of the correction mechanism on electric poles of different specifications is improved;

drive the screw rod through first adjusting motor and rotate for the regulating block is located the adjustment tank and removes, thereby makes the movable plate drive the pole and removes, and meanwhile, drives worm and turbine meshing through the second adjusting motor, makes the turbine drive the axis of rotation and rotates, and the axis of rotation drives the pole and rotates, and the electric jar can drive the carriage release lever for removing in the dead lever, makes the pole adjusted to the state on perpendicular to ground, has improved the correction effect to the pole.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic structural diagram for showing a fixing plate and a connecting plate according to an embodiment of the present application;

FIG. 3 is a schematic illustration of an exploded structure for a display fixture according to an embodiment of the present application;

fig. 4 is an enlarged view of a portion a in fig. 1.

Description of reference numerals: 1. a fixing plate; 11. a connecting plate; 111. a first arc-shaped plate; 112. a chute; 113. a first slider; 114. a second slider; 115. a second arc-shaped plate; 12. a base plate; 121. moving the plate; 122. an adjustment groove; 123. an adjusting block; 124. adjusting a rod; 125. a hinge plate; 126. a trough body; 127. a rotating shaft; 13. a threaded lead screw; 131. fixing a motor; 14. a first plate body; 141. a through hole; 142. a second plate body; 143. a plug rod; 144. an elastic rod; 145. mounting a plate; 146. a spring; 147. an opening; 148. a groove; 15. a screw; 151. a first adjustment motor; 16. a turbine; 161. a second adjustment motor; 162. a worm; 17. fixing the rod; 171. a travel bar; 172. an electric cylinder; 173. a drive plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses electric power engineering is with pole correcting device. With reference to fig. 1 and 2, the electric pole correction device for the power engineering includes a fixing plate 1, two side edges of the fixing plate 1 are perpendicular to the fixing plate 1 and are provided with connecting plates 11, and a first arc-shaped plate 111 is arranged between the connecting plates 11 on two sides and at a position close to the fixing plate 1.

With reference to fig. 1 and 3, the opposite surfaces of the connecting plates 11 on the two sides are both provided with sliding grooves 112, the sliding grooves 112 on the two sides are respectively connected with a first sliding block 113 and a second sliding block 114 in a sliding manner, and a second arc-shaped plate 115 is arranged between the first sliding block 113 and the second sliding block 114.

Referring to fig. 1 and 3, in the present embodiment, in order to prevent the first slider 113 and the second slider 114 from being separated from the sliding groove 112 in a direction perpendicular to the length direction of the sliding groove 112, the cross section of the sliding groove 112 is formed in a "T" shape, and the first slider 113 and the second slider 114 are disposed to be engaged with the sliding groove 112 in the "T" shape.

Referring to fig. 1 and 2, in order to drive the second arc-shaped plate 115 to move towards the first arc-shaped plate 111, so that the electric pole is clamped between the first arc-shaped plate 111 and the second arc-shaped plate 115, a first driving member for driving the first sliding block 113 and the second sliding block 114 to move simultaneously in the sliding grooves 112 on both sides is arranged on each of the connecting plates 11 on both sides.

Referring to fig. 1 and 2, the first driving member includes a threaded lead screw 13 rotatably connected to the sliding grooves 112 on two sides along the length direction of the sliding groove 112, the first sliding block 113 and the second sliding block 114 are respectively sleeved on the threaded lead screw 13 connected to the sliding grooves 112 on two sides, and the connecting plates 11 on two sides are both fixedly provided with a fixing motor 131 for driving the threaded lead screw 13 to rotate.

Drive threaded lead screw 13 through fixed motor 131 and rotate, because of first slider 113 and second slider 114 sliding connection in spout 112, make first slider 113 and second slider 114 can not follow threaded lead screw 13's rotation and rotate, thereby make first slider 113 and second slider 114 drive second arc 115 and move towards first arc 111, thereby make second arc 115 and first arc 111 press from both sides the pole tightly, be applicable to the pole of different specifications, the correction effect to different specification poles has been improved.

Referring to fig. 2 and 3, one side of the second arc plate 115 is hinged to the first slider 113, and a fixing member for fixing an edge of the second arc plate 115 away from the first slider 113 to the second slider 114 is disposed on the second slider 114.

With reference to fig. 2 and 3, the end portion of the second slider 114 located outside the sliding groove 112 is provided with the first plate 14, the first plate 14 is provided with a through hole 141, the edge of the second arc-shaped plate 115 away from the first slider 113 is provided with the second plate 142, the second plate 142 is provided with an insertion rod 143 for being inserted into the through hole 141, the fixing member includes an elastic rod 144 uniformly arranged on the insertion rod 143 along the circumferential position of the insertion rod 143, one end of the elastic rod 144 is connected to the insertion rod 143, and the other end of the elastic rod extends obliquely towards the position of the second arc-shaped plate 115.

With reference to fig. 2 and fig. 3, in order to facilitate an operator to separate the insertion rod 143 from the first plate 14, the insertion rod 143 is inserted into and rotatably connected to the second plate 142, an end portion of the insertion rod 143, which is far away from the first plate 14, is provided with a mounting plate 145 perpendicular to the insertion rod 143, a spring 146 is disposed between the mounting plate 145 and the second plate 142, the spring 146 is sleeved on the insertion rod 143, one end of the spring 146 is connected to the mounting plate 145, the other end of the spring 146 is connected to the plate, a plurality of openings 147 for each elastic rod 144 to pass through are disposed on the first plate 14 along a circumferential direction of the through hole 141, and the openings 147 and the through hole 141 are mutually communicated.

Referring to fig. 2 and 3, in order to prevent the plurality of elastic rods 144 from moving on the first plate 14 toward the position of the opening 147, a plurality of grooves 148 are formed on the surface of the first plate 14 facing away from the second plate 142 along the circumferential direction of the through hole 141, the grooves 148 are located between adjacent openings 147, and the plurality of grooves 148 are used for the end of each elastic rod 144 far from the insertion rod 143 to move in.

When the second arc-shaped plate 115 needs to be fixed to the second slider 114, the hinge point of the second arc-shaped plate 115 on the first slider 113 is rotated, so that the second plate body 142 drives the insertion rod 143 to move towards the through hole 141 on the first plate body 14, so that the insertion rod 143 drives the plurality of elastic rods 144 to pass through the through hole 141, when the elastic rods 144 penetrate into the through hole 141, the elastic rods 144 can resist the elastic force of the elastic rods 144 to move towards the insertion rod 143, and after the elastic rods 144 pass through the through hole 141, the elastic rods 144 can restore to the original state due to the elastic force of the elastic rods 144, so that the elastic rods 144 abut against the surface of the first plate body 14 away from the second plate body 142, so that the elastic rods 144 play a role in preventing the separation of the insertion rods 143 from the first plate body 14, and the insertion rods 143 are fixed to the first plate body 14; when the second arc plate 115 and the second plate 142 need to be driven to separate, the insertion rod 143 is driven to rotate on the second plate 142 by resisting the elastic force of the spring 146, so that the insertion rod 143 drives the elastic rods 144 to rotate to the position opposite to each opening 147, at this time, the hinge point of the second arc plate 115 on the first slider 113 is driven to rotate, the second arc plate 115 drives the insertion rod 143 to move out of the through hole 141, the second arc plate 115 and the second slider 114 are separated, when the spring 146 is in a natural state, the insertion rod 143 can resist the elastic force of the spring 146 to drive the elastic rods 144 to be clamped in the groove 148, and the insertion rod 143 is prevented from being separated from the first plate 14.

As shown in fig. 1, the pole correcting device for power engineering further includes a bottom plate 12, and a correcting mechanism for driving the fixing plate 1 to move to correct the pole is disposed on the bottom plate 12.

As shown in fig. 1, in order to primarily correct the electric pole, the correcting mechanism includes a moving plate 121 located above a bottom plate 12, an adjusting groove 122 is formed on the bottom plate 12, an adjusting block 123 slidably connected in the adjusting groove 122 is arranged on the moving plate 121, in order to prevent the adjusting block 123 from being separated from the adjusting groove 122 along a length direction perpendicular to the adjusting groove 122, the cross section of the adjusting groove 122 is set to be "T" shaped, and the adjusting block 123 is matched with the "T" shaped adjusting groove 122.

As shown in fig. 1, a second driving member for driving the adjusting block 123 to move in the adjusting groove 122 is disposed on the moving plate 121, the second driving member includes a screw 15 rotatably connected in the adjusting groove 122 along the length direction of the adjusting groove 122, the adjusting block 123 is sleeved on and threadedly connected to the screw 15, and a first adjusting motor 151 for driving the screw 15 to rotate in the adjusting groove 122 is fixedly disposed on the bottom plate 12.

When the adjusting block 123 needs to be driven to move in the adjusting groove 122, the first adjusting motor 151 drives the screw rod 15 to rotate, and the adjusting block 123 is connected in the adjusting groove 122 in a sliding manner, so that the adjusting block 123 cannot rotate along with the rotation of the screw rod 15, and the adjusting block 123 drives the moving plate 121 to move.

With reference to fig. 1 and 4, in order to further correct the electric pole, an adjusting rod 124 is fixedly disposed on a surface of the moving plate 121 away from the bottom plate 12, a length direction of the adjusting groove 122 is perpendicular to a length direction of the adjusting rod 124, a hinge plate 125 is disposed on a surface of the fixed plate 1 away from the first arc-shaped plate 111, a groove body 126 for the hinge plate 125 to move in is disposed in an end portion of the adjusting rod 124 away from the moving plate 121 and facing the adjusting rod 124, and a rotating shaft 127 which penetrates through and is rotatably connected to a surface of the hinge plate 125 opposite to the groove body is fixedly disposed on the hinge plate 125.

Referring to fig. 1 and 4, a third driving member for driving the rotating shaft 127 to drive the hinge plate 125 to move is disposed on the adjusting lever 124, the third driving member includes a worm wheel 16 sleeved on and fixedly connected to the rotating shaft 127, a second adjusting motor 161 is fixedly disposed on the adjusting lever 124, and a worm 162 for meshing with the worm wheel 16 is fixedly disposed at a driving end of the second adjusting motor 161.

When the pole needs to be driven to rotate to the state vertical to the ground, the second adjusting motor 161 drives the worm 162 to rotate, so that the worm 162 drives the turbine 16 to rotate, the turbine 16 can drive the rotating shaft 127 to rotate, so that the rotating shaft 127 drives the pole between the first arc-shaped plate 111 and the second arc-shaped plate 115 to rotate, and the pole rotates to the state vertical to the ground.

As shown in fig. 1, in order to further drive the electric pole fixed between the first arc-shaped plate 111 and the second arc-shaped plate 115 to move again, the adjusting rod 124 is set to be a telescopic structure, the telescopic structure includes a fixed rod 17 and a moving rod 171 inserted and slidably connected in the fixed rod 17, one end of the fixed rod 17 is fixedly connected to the moving plate 121, and the slot 126 is located at the end of the moving rod 171 far away from the fixed rod 17.

With reference to fig. 1 and 4, the fixed rod 17 is provided with a fourth driving member for driving the movable rod 171 to move within the fixed rod 17 and driving the movable rod 171 to be fixed to an arbitrarily moved position within the fixed rod 17; the fourth driving member includes an electric cylinder 172 fixedly disposed on the fixed rod 17, a driving plate 173 is disposed to extend from an end of the movable rod 171 far from the fixed rod 17 toward a direction far from the movable rod 171, and a driving end of the electric cylinder 172 is fixedly connected to the driving plate 173.

Set up regulation pole 124 into extending structure, when not needing the aligning gear when using, drive plate 173 through electric jar 172 and remove for removal pole 171 removes towards removing in the dead lever 17, will adjust pole 124 and shorten to shortest length, has reduced whole aligning gear's space and has occupy, and can drive the pole further removal through cooperation regulating block 123 and adjustment tank 122, thereby further improved the correction effect to the pole.

The implementation principle of the electric pole correction device for the power engineering in the embodiment of the application is as follows: when the electric poles of different specifications are required to be fixed, firstly, the inserting rod 143 is driven to be positioned on the second plate body 142 to rotate by resisting the elastic force of the spring 146, so that the inserting rod 143 drives the elastic rods 144 to rotate to the position opposite to each opening 147, at the moment, the hinge point of the second arc-shaped plate 115 on the first sliding block 113 is driven to rotate, so that the second arc-shaped plate 115 drives the inserting rod 143 to be positioned in the through hole 141 to move out, thereby completing the separation of the second arc-shaped plate 115 and the second sliding block 114, at the moment, the electric pole is abutted against the first arc-shaped plate 111, at the moment, the hinge point of the second arc-shaped plate 115 on the first sliding block 113 is driven to rotate, so that the second plate body 142 drives the inserting rod 143 to move towards the through hole 141 on the first plate body 14, so that the inserting rod 143 drives the elastic rods 144 to pass through the through holes 141, when the elastic rods 144 penetrate into the through holes 141, the elastic rods 144 can resist the elastic rods 144 to move towards the inserting rod 143, after elastic rod 144 passes through-hole 141, elastic rod 144 can be because of the elasticity reconversion of self, make elastic rod 144 butt to first plate body 14 deviate from the face of second plate body 142, thereby make elastic rod 144 play the effect of stopping to breaking away from of peg rod 143 and first plate body 14, make peg rod 143 fixed to first plate body 14 on, it rotates to drive threaded lead screw 13 through fixed motor 131, because of first slider 113 and second slider 114 sliding connection in spout 112, make first slider 113 and second slider 114 can not rotate along with threaded lead screw 13's rotation, thereby make first slider 113 and second slider 114 drive second arc 115 and move towards first arc 111, thereby make second arc 115 and first arc 111 press from both sides the pole tight, be applicable to the pole of different specifications, the correction effect to the pole of different specifications has been improved.

Claims (8)

1. The utility model provides an electric power engineering is with pole correcting device which characterized in that: the device comprises a fixed plate (1), wherein connecting plates (11) are arranged on the two side edges of the fixed plate (1) in a manner of being perpendicular to the fixed plate (1), first arc-shaped plates (111) are arranged between the connecting plates (11) on the two sides and at positions close to the fixed plate (1), sliding grooves (112) are formed in the opposite surfaces of the connecting plates (11) on the two sides, a first sliding block (113) and a second sliding block (114) are respectively connected in the sliding grooves (112) on the two sides in a sliding manner, a second arc-shaped plate (115) is hinged to the first sliding block (113), a fixing part for fixing the edge, far away from the first sliding block (113), of the second arc-shaped plate (115) to the second sliding block (114) is arranged on the second sliding block (114), first driving parts for driving the first sliding block (113) and the second sliding block (114) to move simultaneously in the sliding grooves (112) on the two sides are arranged on the connecting plates (11) on the two sides, the electric pole correction device for the electric power engineering further comprises a bottom plate (12), wherein a correction mechanism for driving the fixing plate (1) to move so as to correct the electric pole is arranged on the bottom plate (12);

the correcting mechanism comprises a moving plate (121) located above a bottom plate (12), an adjusting groove (122) is formed in the bottom plate (12), an adjusting block (123) in sliding connection with the adjusting groove (122) is arranged on the moving plate (121), a second driving piece used for driving the adjusting block (123) to move in the adjusting groove (122) is arranged on the moving plate (121), an adjusting rod (124) is fixedly arranged on a face, deviating from the bottom plate (12), of the moving plate (121), the length direction of the adjusting groove (122) is arranged along the length direction perpendicular to the adjusting rod (124), a hinged plate (125) is arranged on a face, deviating from the first arc-shaped plate (111), of the fixed plate (1), a groove body (126) used for the hinged plate (125) to move in is formed in the end, far away from the moving plate (121), of the adjusting rod (124) faces the adjusting rod (124), a groove body (126) used for the hinged plate (125) to move in is fixedly arranged on the hinged plate (125), and the hinged plate (125) penetrates through and is rotatably connected to the opposite face of the groove body (126) The adjusting rod (124) is provided with a third driving piece for driving the rotating shaft (127) to drive the hinge plate (125) to move;

adjust pole (124) and set up to extending structure, extending structure includes dead lever (17) and grafting and carriage release lever (171) of sliding connection in dead lever (17), the one end fixed connection of dead lever (17) is to movable plate (121), cell body (126) are located movable lever (171) and keep away from the tip of dead lever (17), be provided with on dead lever (17) and be used for driving movable lever (171) to be located dead lever (17) and remove, and drive movable lever (171) and fix the fourth driver to the dead lever (17) in the arbitrary removal back position.

2. The pole correction device of claim 1, wherein: first driving piece includes that the length direction who follows spout (112) rotates and connects screw lead screw (13) in both sides spout (112), first slider (113) and second slider (114) overlap respectively and establish and threaded connection on screw lead screw (13) in both sides spout (112), both sides all fixed being provided with on connecting plate (11) and being used for driving screw lead screw (13) pivoted fixed motor (131).

3. The pole correction device of claim 1, wherein: the utility model discloses a fixing piece, including spout (112), second slider (114), first plate body (14) are provided with on the tip that is located outside spout (112), through-hole (141) have been seted up on first plate body (14), the edge that first slider (113) were kept away from in second arc (115) is provided with second plate body (142), be provided with on second plate body (142) and be used for pegging graft to peg graft in through-hole (141) peg graft (143), the mounting includes along the even elastic rod (144) that set up on peg (143) in the circumferential position of peg (143), the one end of elastic rod (144) is connected to on peg (143), and the other end extends the setting towards the position slope at second arc (115) place.

4. The pole correction device of claim 3, wherein: the utility model discloses a solar cell panel, including the first plate body (14), insertion rod (143), mounting panel (145), spring (146) cover are located on insertion rod (143), the one end of spring (146) is connected to on mounting panel (145), and the other end is connected to on the plate body, a plurality of openings (147) that are used for supplying every elastic rod (144) to pass are seted up along the circumferential position of through-hole (141) on first plate body (14), opening (147) with through-hole (141) are the intercommunication setting each other, the tip perpendicular to insertion rod (143) that first plate body (14) was kept away from in insertion rod (143) is provided with mounting panel (145), be provided with spring (146) between mounting panel (145) and second plate body (142).

5. The pole correction device of claim 4, wherein: a plurality of grooves (148) are formed in the surface, deviating from the second plate body (142), of the first plate body (14) along the circumferential direction of the through hole (141), the grooves (148) are located between the adjacent openings (147), and the grooves (148) are used for enabling the end portion, far away from the insertion rod (143), of each elastic rod (144) to move in.

6. The pole correction device of claim 1, wherein: the second driving piece comprises a screw rod (15) which is connected in the adjusting groove (122) in a rotating mode along the length direction of the adjusting groove (122), the adjusting block (123) is sleeved on the screw rod (15) in a threaded mode, and a first adjusting motor (151) which is used for driving the screw rod (15) to rotate in the adjusting groove (122) is fixedly arranged on the bottom plate (12).

7. The pole correction device of claim 1, wherein: the third driving piece comprises a turbine (16) which is sleeved and fixedly connected to the rotating shaft (127), a second adjusting motor (161) is fixedly arranged on the adjusting rod (124), and a worm (162) meshed with the turbine (16) is fixedly arranged at the driving end of the second adjusting motor (161).

8. The pole correction device of claim 1, wherein: the fourth driving part comprises an electric cylinder (172) fixedly arranged on the fixed rod (17), a driving plate (173) is arranged at the end part, far away from the fixed rod (17), of the movable rod (171) in an extending mode towards the direction far away from the movable rod (171), and the driving end of the electric cylinder (172) is fixedly connected to the driving plate (173).

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