CN218860263U - Auxiliary mounting equipment for electric pole - Google Patents

Abstract

The utility model relates to an installation equipment is assisted to pole, include: a transport vehicle; the lifting platform is arranged on the transport vehicle and can be adjusted in a lifting way; the overturning platform is arranged on the lifting platform in an overturning manner, and the overturning platform can be overturned and adjusted to be in a vertical state; locate the last anchor clamps of roll-over table, anchor clamps have at least a pair of splint, a pair of splint between the centre gripping interval adjustable, can make a pair of splint centre gripping treat the pole of installation through adjusting the centre gripping interval, and then the cooperation the roll-over adjustment of roll-over table reaches the lift adjustment of elevating platform assists the installation of pole. The invention can assist the installation of the electric pole, the electric pole does not need to be lifted in the whole installation process, the high-voltage cable can be prevented from being damaged, and the structures of the transport vehicle, the overturning platform, the lifting platform and the like are far away from the high-voltage cable, so that electric arcs caused by the approach of high voltage can be avoided, and the operation safety is ensured.

Description

Auxiliary mounting equipment for electric pole

Technical Field

The utility model relates to a technical field of the mechanical equipment of supplementary installation usefulness refers in particular to a pole auxiliary erection equipment.

Background

The pole of transformer substation (for example herringbone pole or single pole) need be changed for a long time, current replacement mode needs to cooperate the crane, utilize the crane to hoist the pole in order to accomplish the installation of pole, because the size of pole is great, some pole length can reach 10 meters, when utilizing the crane hoist and mount pole, when crane and pole are close to the cable, very easily damage the high-voltage cable of top, have the risk that causes electric arc even, so, need to provide a new solution urgently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect, provide an installation equipment is assisted to pole, solve current pole and install the fragile high-voltage cable that exists and have the problem that causes the risk of electric arc through the crane.

The technical scheme for realizing the purpose is as follows:

the utility model provides a supplementary erection equipment of pole, include:

a transport vehicle;

the lifting platform is arranged on the transport vehicle and can be adjusted in a lifting way;

the overturning platform is arranged on the lifting platform in an overturning manner, and the overturning platform can be overturned and adjusted to be in a vertical state; and

locate anchor clamps on the roll-over table, anchor clamps have at least a pair of splint, a pair of splint between the centre gripping interval adjustable, can make a pair of splint centre gripping treat the pole of installation through adjusting the centre gripping interval, and then the cooperation the roll-over adjustment of roll-over table reaches the lift adjustment of elevating platform assists the installation of pole.

The utility model discloses a further improvement of pole auxiliary installation equipment lies in that the clamps are rotatably arranged on the overturning platform, and the number of the clamps is four, wherein two clamps are arranged at the front part of the transport vehicle, and the other two clamps are arranged at the rear part of the transport vehicle;

the four clamps can clamp a pair of inclined electric poles for forming the herringbone pole by rotating and adjusting the clamps so as to finish the auxiliary installation of the pair of electric poles;

the two clamps at the rear part of the transport vehicle can be adjusted through rotation so that the two clamps are positioned on the same straight line and clamp one electric pole to complete the auxiliary installation of the electric pole.

The utility model discloses the pole auxiliary installation equipment's further improvement lies in, correspond on the transport vechicle anchor clamps and be equipped with the support ring gear, the periphery of support ring gear is equipped with a plurality of latches that set up in succession;

the clamp comprises a pair of bottom supporting plates, the pair of bottom supporting plates are sleeved on the supporting gear ring and are in butt joint connection, one of the bottom supporting plates is provided with a clamping plate capable of being movably adjusted, and each bottom supporting plate is provided with a pair of clamping plates;

after the bottom supporting plate rotates around the supporting gear ring and is adjusted in place, the clamping plate is movably adjusted to be clamped into the corresponding clamping teeth on the supporting gear ring, and therefore the rotation of the bottom supporting plate is limited.

The utility model discloses a further improvement of pole auxiliary installation equipment lies in that, the anchor clamps still include the base, rotatable locate drive shaft on the base, locate the gear seat in the base, cover establish be fixed in drive shaft and lie in the drive gear in the gear seat, install in the base and with the driving piece of drive connection of drive shaft, block locate on the gear seat and with the arc ring gear of drive gear interlock and fixedly connected in the mounting panel of arc ring gear;

the pair of clamping plates are movably arranged on the mounting plate;

through the driving piece drive gear rotates, makes drive gear drive the arc ring gear rotates, and then passes through the mounting panel takes the pole of centre gripping in a pair of splint to rotate and adjusts.

The utility model discloses the electric pole auxiliary installation equipment is further improved in that a slide rail is arranged on the overturning platform;

the fixtures positioned at the front part and the rear part of the transport vehicle are all slidably arranged on the slide rail, a driving mechanism which is connected with the fixtures in a driving way is further arranged on the overturning platform, and the driving mechanism can drive the fixtures to move and adjust along the slide rail, so that the fixtures at the front part and the rear part of the transport vehicle are close to or far away from each other.

The utility model discloses the further improvement of erection equipment is assisted to the pole lies in, be equipped with the bearing platform of rotatable regulation on the roll-over table, the bearing bench is installed anchor clamps.

The utility model discloses the further improvement of erection equipment is assisted to the pole lies in, the forward-mounted of transport vechicle has gliding ground mechanism from top to bottom.

The utility model discloses supplementary erection equipment of pole's further improvement lies in, the roll-over table is close to rotatable the connection in one side at transport vechicle rear portion is in on the elevating platform, be equipped with the upset pneumatic cylinder on the elevating platform, the upset pneumatic cylinder is slope form setting and supports the connection the roll-over table.

The utility model discloses the further improvement of erection equipment is assisted to the pole lies in, the front portion of transport vechicle is equipped with the supplementary safety bandage that bindes corresponding pole tip of confession.

The utility model discloses supplementary erection equipment of pole's further improvement lies in, still include with the balanced trailer of connection can be dismantled to the rear portion of transport vechicle.

Drawings

Fig. 1 is the utility model discloses the spatial structure schematic diagram of pole auxiliary fixtures centre gripping.

Fig. 2 is a top view of the structure shown in fig. 1.

Fig. 3 is a side view of the structure shown in fig. 2.

Fig. 4 is the utility model discloses the spatial structure schematic diagram of a pair of pole of installation equipment centre gripping is assisted to the pole.

Fig. 5 is a top view of the structure shown in fig. 4.

Fig. 6 is the utility model discloses the supplementary mounting apparatus of pole assists the structure schematic diagram of a pair of pole installation.

Fig. 7 is the utility model discloses the spatial structure schematic diagram of transport vechicle in the supplementary erection equipment of pole.

Fig. 8 is a side view of the structure shown in fig. 7.

Fig. 9 is the utility model discloses the structure schematic diagram of anchor clamps in pole auxiliary erection equipment.

Fig. 10 is a side view of the structure shown in fig. 9.

Fig. 11 is the utility model discloses the structure sketch that fagging and support ring gear are connected in the supplementary erection equipment of pole.

Fig. 12 is a side view of the structure shown in fig. 11.

Fig. 13 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A of fig. 12.

Fig. 14 is a sectional view taken along line B-B of fig. 13.

Fig. 15 is the utility model discloses the structure schematic diagram of anchor clamps except the sill bar among the supplementary erection equipment of pole.

Fig. 16 is a side view of the structure shown in fig. 15.

Fig. 17 is a cross-sectional view of the structure shown in fig. 15.

Fig. 18 is the utility model discloses balanced trailer's among pole auxiliary erection equipment spatial structure sketch map.

Fig. 19 is a front view of the transportation vehicle in the auxiliary installation device for electric pole of the present invention.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Referring to fig. 1, the utility model provides a supplementary erection equipment of pole for realize transporting the pole to the assigned position and supplementary pole setting to the mounting hole, avoid installing the in-process touching wire of pole to cause electric arc, ensure operation safety. The problem of current crane installation exist probably damage top high-voltage line and easily cause electric arc risk is solved. The structure of the utility model discloses supplementary erection equipment of pole is explained in the following with the figure.

Referring to fig. 1, the utility model discloses supplementary erection equipment of pole locates the structural schematic diagram on the overhead line. The structure of the auxiliary mounting device for electric pole of the present invention will be described with reference to fig. 1.

Referring to fig. 1, the utility model discloses the spatial structure schematic diagram of pole auxiliary erection equipment centre gripping is shown. The structure of the utility model of the auxiliary installation equipment for the electric pole is described below with reference to fig. 1.

As shown in fig. 1, the utility model discloses an auxiliary installation equipment 20 for electric pole includes a transport vehicle 21, a lifting platform 211, a turning platform 212 and a clamp 22, the lifting platform 211 is arranged on the transport vehicle 21, the lifting platform 211 can be adjusted up and down; the overturning platform 212 is arranged on the lifting platform 211 in an overturning way, and the overturning platform 212 can be overturned and adjusted to be in a vertical state; on the upset platform 212 was located to anchor clamps 22, this anchor clamps 22 had at least a pair of splint 221, and the centre gripping interval between this pair of splint 221 is adjustable, can make this pair of splint centre gripping wait to install pole 10 through the centre gripping interval of adjusting a pair of splint 221, and then cooperation upset platform 212 carries out the installation that upset was adjusted and elevating platform 211's lift is adjusted and is assisted pole 10.

Specifically, the pole 10 can be clamped and fixed on the transportation vehicle 21 by the clamp 22, and then the pole 10 can be transported by the transportation vehicle 21 to the installation position where the pole 10 is transported. When installing pole 10, need carry out the pole setting to pole 10, let the root of pole 10 insert the mounting hole in and fix, transport vechicle 21 transports pole 10 and parks behind the mounted position department, the upset of roll-over table 212 is vertical state after that, pole 10 at this moment also is vertical state, elevating platform 211 moves down after that and adjusts, and then let the root of pole 10 insert in the mounting hole that corresponds, then bury the root of pole well, anchor clamps loosen the pole, the transport vechicle returns, so just accomplished the installation of pole.

In one embodiment of the present invention, as shown in fig. 4 and 5, four clamps 22 are rotatably adjusted on the turning table 212, wherein two clamps 22 are disposed at the front of the transport vehicle 21, and the other two clamps 22 are disposed at the rear of the transport vehicle 21; the four clamps 22 can clamp a pair of inclined electric poles 10 for forming the herringbone pole by rotating the adjusting clamps 22 so as to finish the auxiliary installation of the pair of electric poles 10, the roots of the pair of electric poles forming the herringbone pole are far away from each other, the tops of the pair of electric poles forming the herringbone pole are close to each other and are all inclined, and when the pair of electric poles are clamped, the clamps on the same side can be adjusted to be inclined, so that the inclined state of the clamps is consistent with the inclined state of the electric poles; as shown in fig. 1 and 2, the two clamps 22 at the rear of the transport vehicle 21 are rotatably adjusted to make the two clamps 22 in the same line and clamp one electric pole 10, so as to complete the auxiliary installation of one electric pole 10.

The utility model discloses a rotatable regulation of anchor clamps to make the pole assist erection equipment can satisfy the installation of multiple type pole, like herringbone pole and single pole, can also adapt to the equipment and the installation of unidimensional herringbone pole. The herringbone rod comprises a pair of electric poles and supporting rods arranged at the top ends and the middle parts of the electric poles.

In a specific embodiment of the present invention, as shown in fig. 4, 9, 11 to 14, a supporting ring gear 23 is provided on the transportation vehicle 21 corresponding to the clamp 22, and a plurality of continuously arranged latch teeth are provided on the periphery of the supporting ring gear 23; the clamp 22 comprises a pair of bottom supporting plates 222, the pair of bottom supporting plates 222 are clamped on the supporting gear ring 23, the pair of bottom supporting plates 222 are in butt joint connection, one of the bottom supporting plates 222 is provided with a clamping plate 2222 capable of being movably adjusted, and each bottom supporting plate 222 is provided with a pair of clamping plates 221; bottom fagging 222 can carry out rotation regulation round supporting ring gear 23, when the angle of anchor clamps 22 needs to be adjusted, through bottom fagging 222 round supporting ring gear 23 rotate can realize, after bottom fagging 222 round supporting ring gear 23 rotation regulation targets in place, activity regulation cardboard 2222 is in order to let cardboard 2222 block in on the corresponding latch of supporting ring gear 23, thereby restriction bottom fagging 222's rotation, also restricted the rotation of anchor clamps 22.

Further, the bottom bracing plate 222 comprises a plane plate and arc plates arranged at the end parts of the plane plate, butt joint plates are arranged at the end parts of the arc plates, the two arc plates are oppositely clamped on the supporting gear ring 23, the butt joint plates on the two arc plates are in butt joint, and then are connected through bolts in a fastening manner, so that the two bottom bracing plates 222 can rotate around the supporting gear ring 23 for adjustment. Preferably, the supporting ring gear 23 is cylindrical, the bottom of the supporting ring gear is provided with an annular base, the top of the supporting ring gear is provided with an annular baffle, the arc-shaped plate of the bottom supporting plate is clamped between the annular base and the annular baffle, and the top surface of the annular baffle is flush with the top surface of the plane plate. Preferably, the two arc-shaped plates are in a cylindrical shape after being butted.

Still further, as shown in fig. 13 and 14, a bayonet 2221 is provided on the bottom bracket plate 222, a catch plate 2222 is inserted into the bayonet 2221, and the end of the catch plate 2222 close to the support ring gear 23 forms a tip that fits into the latch and can be snapped onto the latch, thereby limiting the rotation of the bottom bracket plate 222. The end portion of the clamping plate 2222 far from the supporting gear ring 23 is provided with an end plate, a spring 2223 is connected between the end plate and the arc-shaped plate of the bottom support plate 222, the spring 2223 applies elastic force to the end plate of the clamping plate 2222 to enable the clamping plate 2222 to extend into the bayonet 2221 of the bottom support plate 222 and be clamped with the clamping teeth of the supporting gear ring 23, a pull ring is arranged on the outer side of the end plate, when the bottom support plate 222 needs to be adjusted in a rotating mode, the pull ring can be pulled outwards to enable the tip of the clamping plate 2222 to retract into the bayonet of the bottom support plate 222, the bottom support plate 222 can be adjusted in a rotating mode at the moment, and therefore the rotating adjusting clamp 22 is achieved, when the adjusting is in place, the pull ring is loosened, and the clamping plate 2222 can be clamped onto the corresponding clamping teeth again under the action of the spring 2223.

In a specific embodiment of the present invention, as shown in fig. 9, 10 and 15, the clamp 22 further includes a base 223, a rotatable driving shaft 224 disposed on the base 223, a gear seat 225 disposed in the base 223, a driving gear 226 sleeved on the driving shaft 224 and located in the gear seat 225, a driving member 227 mounted on the base 223 and drivingly connected to the driving shaft 224, an arc-shaped gear ring 228 engaged with the driving gear 226 and clamped on the gear seat 225, and a mounting plate 2281 fixedly connected to the arc-shaped gear ring 228; the pair of clamping plates 221 are movably adjusted to be disposed on the mounting plate 2281, and the pair of clamping plates 221 can be moved toward or away from each other by the movable adjustment, so as to clamp or release the corresponding electric pole. The drive gear 226 is driven to rotate by the drive member 227 so that the drive gear 226 drives the arcuate toothed ring 228 to rotate, thereby carrying the electric pole held in the pair of clamping plates 221 for rotational adjustment by the mounting plate 2281.

Preferably, the arc-shaped gear ring 228 is aligned with the axes of the pair of clamping plates 221, so that the arc-shaped gear ring rotates to drive the electric pole to rotate around the axis.

The rotation of the splint on the anchor clamps is adjusted and can be taken the pole of centre gripping to rotate and adjust, so can make things convenient for the butt joint of pole, and the pole can choose for use two segmentations to splice usually when length is great and form, and two segmentations realize the concatenation through the flange board that the tip set up, and the flange board need align the bolt hole on the flange board when the butt joint to in wear to establish the bolt. When splicing two segments, the two segments are respectively clamped on the corresponding clamps, and then the clamping plates are driven by the driving piece to rotate and adjust, so that the clamped segments are rotated, and bolt holes in flange plates of the segments can be aligned. So, the operation of assembling of pole can be accomplished in the rotation regulation of splint for supplementary erection equipment 20 of pole has the function that supplementary pole was assembled.

As shown in fig. 15 to 17, the base 223 is U-shaped, two gear seats 225 are provided, and are fixedly connected in the base 223 through bolts, the driving gear 226 is disposed in the gear seat 225, a wear pad 229 is disposed between the driving gear 226 and the gear seat 225, and the wear pad 229 is also sleeved and fixed on the driving shaft 224. The gear holder 225 has a top opening from which the arcuate gear ring 228 is partially inserted into the gear holder 225 and into engagement with the drive gear 226. The arcuate gear ring 228 is preferably a semicircular gear ring, and there are two arcuate gear rings 228 and two drive gears 226 to improve the structural stability of the clamp plate 221. The driving member 227 is preferably a worm gear self-locking speed reducer and a motor.

In a specific embodiment of the present invention, as shown in fig. 15 to 17, a pair of guide rails 2212 is disposed on the mounting plate 2281, the clamp plate 221 is slidably disposed on the pair of guide rails 2212, the two sides of the mounting plate 2281 are provided with the retractable member 2213, the retractable member 2213 is connected to the corresponding clamp plate 221, the retractable member 2213 can be adjusted in a retractable manner, the corresponding clamp plate 221 is moved along the guide rails 2212 through the retractable member, and the clamp plate 221 is clamped on the pole or loosened from the pole. The telescoping member 2213 is preferably a cylinder. A rubber pad 2211 is provided on the inner side of the clamping plate 221. Preferably, the clamping surface of the clamping plate 221 is an arc surface, and is adapted to the electric pole.

The bottom of splint is equipped with horizontal board, and the bottom of this horizontal board is equipped with the joint piece with guide rail 2212 looks cutting ferrule, and joint piece cutting ferrule can remove on the guide rail and along the guide rail, and makes splint 221 can not break away from guide rail 2212, has played direction and spacing effect to splint 221.

In a specific embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 4, a slide rail 24 is provided on the roll-over table 212, the clamps 22 located at the front and the rear of the transportation vehicle 21 are all slidably provided on the slide rail 24, and a driving mechanism 25 drivingly connected to the clamps 22 is further provided on the roll-over table 212, the driving mechanism 25 can drive the clamps 22 to move and adjust along the slide rail 24, so that the clamps at the front and the rear of the transportation vehicle are close to or away from each other.

Through the regulation of moving along the slide rail through the anchor clamps that are located transport vechicle front portion and rear portion, can be so that the festival section that presss from both sides on the anchor clamps that are located front portion and are located rear portion are close to each other in order to accomplish the butt joint, just so accomplished the concatenation of pole. When assembling the pole, adjust the both ends of slide rail with the anchor clamps that are located the rear portion with the anchor clamps that are located the transport vechicle front portion earlier, let distance between front portion anchor clamps and the rear portion anchor clamps be the biggest, then with a segmental clamping on anterior anchor clamps, another segmental clamping is on the anchor clamps at rear portion, and the rethread actuating mechanism drives anterior anchor clamps and the anchor clamps at rear portion and is close to each other, lets two segmentations meet.

Preferably, there are two slide rails 24, and the bottoms of the two fixtures located at the front of the transport vehicle 21 are provided with two sliding tables 26, and the two sliding tables 26 are slidably disposed on the two slide rails 24, and the bottoms of the two fixtures located at the rear of the transport vehicle 21 are also provided with two sliding tables 26, and the two sliding tables 26 are also slidably disposed on the two slide rails 24.

Preferably, the driving mechanism 25 includes a forward and reverse screw 252 rotatably disposed on the flipping table 212 and a driving motor 251 drivingly connected to the forward and reverse screw 252, the forward and reverse screw 252 is located above the sliding rail 24, and a moving block is disposed at the bottom of the bidirectional sliding table 26 at the bottom of the fixture 22, and the moving block is threadedly connected to the corresponding forward and reverse screw 252. The driving motor 251 is installed on the flipping table 212, and the driving motor 251 can drive the forward and backward screw shaft 252 to rotate, thereby allowing the front and rear clamps to approach or move away from each other.

In another preferred embodiment, the driving mechanism 25 is a hydraulic cylinder, which can be telescopically adjusted, and the hydraulic cylinder is connected with the corresponding clamp, so that the corresponding clamp can be driven to move and adjust along the slide rail 24.

Further, the bidirectional sliding table 26 is a load-bearing gear rack bidirectional sliding table, and the clamps on the bidirectional sliding table 26 can be synchronously and bidirectionally adjusted, so that the two clamps can be close to or far away from each other. Specifically, the bidirectional sliding table 26 includes a mounting seat, a rail disposed on the mounting seat, two mounting blocks slidably disposed on the rail, a driving cylinder disposed on the mounting seat and connected to one of the mounting blocks, a power gear rotatably disposed at the bottom of the mounting seat, and racks connected to the two mounting blocks, the two racks are disposed on two sides of the power gear and engaged with the power gear, the driving cylinder can drive the mounting blocks to move along the rail, when the driving cylinder pushes the mounting blocks to move forward, the racks connected to the mounting blocks move forward to drive the power gear to rotate, so that the other rack drives the other mounting block to move, synchronous opposite movement adjustment of the two mounting blocks is realized, when the driving cylinder pulls the mounting blocks to move forward and backward, the same rack drives the power gear to rotate, and the other mounting block is driven by the other rack to move, and synchronous reverse movement adjustment of the two mounting blocks is realized. The clamp is fixedly connected to the mounting block, so that the clamp can move and be adjusted along with the movement of the mounting block.

In one embodiment of the present invention, as shown in fig. 1 and 4, the turning table 212 is provided with a rotatably adjustable bearing table 213, and the clamp 22 is installed on the bearing table 213. The top of the overturning platform 212 is provided with a driving motor, and the driving motor is in driving connection with the bearing platform 213 and can drive the bearing platform 213 to perform rotation adjustment. When the herringbone rod is installed in an auxiliary mode, the installation direction of the bearing table 213 is consistent with that of the overturning table 212, and when a single electric pole is installed in an auxiliary mode, the bearing table 213 rotates 90 degrees and is perpendicular to the overturning table 212. So two anchor clamps that readjust to be located the rear portion are single pole of sharp centre gripping, and the center of two anchor clamps is located the middle part of transport vechicle, can improve the equilibrium of transportation.

In a specific embodiment of the present invention, as shown in fig. 1 and fig. 6, the front portion of the transportation vehicle 21 is provided with a grounding mechanism 215 capable of sliding up and down, the grounding mechanism can realize the grounding of the device, thereby avoiding the electric shock phenomenon of the person, and moreover, the grounding mechanism 215 can also fix the transportation vehicle 21 when the transportation vehicle 21 is parked, thereby avoiding the transportation vehicle 21 to move.

Specifically, as shown in fig. 7, 8 and 19, the grounding mechanism 215 includes a U-shaped seat 2151, a vertical slide rail 2152 disposed on the U-shaped seat 2151, a driving rod 2153 rotatably disposed on the U-shaped seat 2151 and located above the vertical slide rail 2152, a motor 2154 disposed on the upper portion of the U-shaped seat 2151 and drivingly connected to the driving rod 2153, a sliding block 2155 threadedly connected to the driving rod 2153 and slidably disposed on the vertical slide rail 2152, and a grounding pin 2156 connected to the sliding block 2155, wherein the grounding pin 2156 is vertically disposed, the corresponding driving rod 2153 is driven to rotate by the motor 2154, the sliding block 2155 is restricted by the vertical slide rail 2152 and cannot rotate, and further the sliding block 2155 moves up and down on the driving rod 2153, when the sliding block 2155 moves down, the grounding pin 2156 is inserted into the ground, on one hand, the carriage is grounded, and on the other hand, the carriage 21 is also fixed, and after the auxiliary mounting operation is completed, the motor 2154 rotates reversely to drive the sliding block 2155 to move up and move the grounding pin 2156 to move up and pull out the pole 2156 to move.

Preferably, the ground engaging mechanism 215 is provided in two, opposing positions at the front of the vehicle 21.

The utility model discloses an in the concrete implementation mode, as shown in FIG. 4 to FIG. 6, the rotatable connection of one side at the turnover table 212 rear portion near transport vechicle 21 is on elevating platform 211, be equipped with upset pneumatic cylinder 214 on this elevating platform 211, this upset pneumatic cylinder 214 is the slope form and sets up and support and connect this turnover table 212, upset pneumatic cylinder 214 can stretch out and draw back the regulation, when the hydraulic stem of upset pneumatic cylinder 214 stretches out, can promote turnover table 212 to overturn, can let turnover table 212 overturn to vertical state, when the hydraulic stem withdrawal of upset pneumatic cylinder 214, can take turnover table 212 to overturn to the horizontality downwards. When the pole is installed in an auxiliary manner, after the transport vehicle 21 is parked in place and fixed, the turnover table 212 is driven by the turnover hydraulic cylinder 214 to be turned over to a vertical state, the pole 10 on the turnover table 212 is also in a vertical state at the moment, and then the installation of the pole 10 can be completed.

In a specific embodiment of the present invention, as shown in fig. 7 and 8, the lifting platform 211 includes a platform 2111, a cross bar 2112 disposed at the bottom of the platform 2111, a hydraulic cylinder 2113 disposed on the chassis 217 of the transportation vehicle 21, and a limit rail 2114 disposed on the chassis 217, wherein the cross bar 2112 includes a pair of bars hinged to each other at the middle portion, one end of each bar is hinged to the platform 2111, and the other end is hinged to the chassis 217, and the end of one of the bars is slidably disposed on the limit rail 2114, and the end of the bar is provided with a rotating shaft, and the limit rail 2114 is provided with a pair of bars and has a long bar hole corresponding to the rotating shaft, and the end of the rotating shaft is inserted into the corresponding long bar hole, and can move and adjust along the long bar hole, the end of the hydraulic cylinder 2113 is connected to the end of the bar slidably disposed on the limit rail, the hydraulic cylinder 2113 can drive the end of the bar to move when the hydraulic cylinder 2113 extends, the end of the driving bar moves toward the transportation vehicle 21, at this time, the two bars rotate upward to push the platform 2111 upward, so that the platform 2111 moves upward, so that the front portion of the transportation vehicle 2113 moves downward, and the lifting platform 2111 moves, and the lifting platform is pulled. The flipping station 212 is disposed on the platform shelf 2111, and one side of the flipping station 212 is rotatably coupled to the platform shelf 2111. Cross bar 2112 is preferably provided in a pair.

In one embodiment of the present invention, as shown in fig. 6, a safety strap 216 for assisting in binding the end of the corresponding electric pole 10 is provided at the front of the transportation cart 21. The harness 216 is preferably an electrically controlled harness. The safety strap 216 can be pulled slowly and can be immediately clamped when suddenly pulled, so that the pole is prevented from falling down suddenly, and the operation safety is ensured.

In one embodiment of the present invention, as shown in fig. 6 and 18, a balance trailer 27 detachably connected to the rear portion of the transportation vehicle 21 is further included. When setting up the pole immediately, balanced trailer 27 locates the rear portion of transport vechicle 21, can play balanced effect, ensures the stability of pole setting in-process transport vechicle.

Preferably, the balance trailer 27 comprises a trailer board 271, rollers 272 disposed at the bottom of the trailer board 271, and second hydraulic legs 273 disposed at two sides of the trailer board 271, wherein after the trailer board 271 moves to a designated position and is connected to the transportation vehicle 21, the second hydraulic legs 273 can extend downward to abut against the ground, so as to fix the balance trailer 27 and prevent the balance trailer 27 from moving. When it is desired to move the equalization trailer 27, the second hydraulic leg 273 is retracted upward, at which time the equalization trailer 27 may be moved by the roller 272.

An opening 2711 is provided in the middle of the trailer plate 271, and as shown in fig. 2, the opening 2711 is used to facilitate the erecting work of a single electric pole 10, and the root of the electric pole 10 can pass through the opening 2711 when the single electric pole 10 is erected.

Further, as shown in fig. 7 and 8, the transportation vehicle 21 of the present invention includes a chassis 217, a walking wheel 2172 disposed at the bottom of the chassis 217 and first hydraulic legs 2171 disposed at both sides of the chassis 217, wherein the first hydraulic legs 2171 can be telescopically adjusted, and after the transportation vehicle 21 is moved in place, the first hydraulic legs 2171 can be extended to abut against the ground to fix the transportation vehicle 21. The rear part of the chassis 217 is provided with a connecting bolt which can be connected with a trailer plate 271 of the balance trailer 27.

The process of installing the pole is explained below.

As shown in fig. 1 to 3, showing the installation of the auxiliary single pole, when the single pole 10 is installed, the bearing table 213 is rotated by 90 °, then the direction of the two clamps at the rear part is adjusted to make the two clamps 22 axis aligned and located at the middle part of the transport vehicle, and then the single pole is transversely hung on the two clamps 22, and the single pole is clamped by the clamping plates 221 on the clamps 22. If the single electric pole is formed by assembling two sections, one section is transversely hung on one clamp 22 and clamped by the clamping plates 221, the other section is transversely hung on the other clamp 22 and clamped by the clamping plates 221, then the two clamps 22 are moved oppositely to enable the flange plates at the ends of the two sections to be attached, then the clamping plates 221 on one clamp are rotated to enable the one section to rotate around the axis of the one section until bolt holes in the two flange plates are aligned, and then the two sections are connected through bolts, so that the assembly of the single electric pole is completed. Then transport vechicle 21 removes the mounted position department of single pole 10, can specifically connect a guide bar 11 at the root of single pole 10, guide bar 11 includes perpendicular horizontal part and the vertical portion of connecting, the root at pole 10 is established to the horizontal part cover, when removing transport vechicle 21, fix a position of pole 10 through guide bar 11, when the root of guide bar 11 is punctual relatively with the mounting hole on ground, stop transport vechicle 21, let first hydraulic leg 2171 support subaerial, insert the earthing pin underground, after fixing the transport vechicle, connect balanced trailer at the rear portion of transport vechicle, let second hydraulic leg support subaerial in order to fix balanced trailer. Bind the tip at the pole with safety bandage 216, then adjust elevating platform 211 rebound, demolish guide bar 11, upset pneumatic cylinder 214 drive upset platform 212 upset, it overturns to drive pole 10, when pole 10 overturns to vertical state, upset pneumatic cylinder stop work, elevating platform 211 shifts down after that, insert the mounting hole with the root of pole 10, when the root of pole 10 inserts the settlement degree of depth, elevating platform 211 stop work, the staff buries the root of pole, relieve the safety bandage, anchor clamps loosen the pole, the earthing pin is extracted, first hydraulic leg lifts, transport vechicle 21 returns, the supplementary installation of single pole has just been accomplished.

As shown in fig. 4 to 6, showing the installation of the auxiliary herringbone pole, the adjusting jig is rotated according to the inclination degree of the two poles of the herringbone pole to make the jig conform to the angle between the two poles of the herringbone pole, and the two poles are laterally hung on the jig and clamped by the jig. If two poles are assembled by the festival section and form, just transversely hang the festival section and put and clip on the anchor clamps that correspond, then remove the tip butt joint that adjusts the anchor clamps and let the festival section, then the splint of adjusting an anchor clamps are rotating, let the festival section rotatory around the axis, the bolt hole on the flange board of realization festival section aligns, wear to establish the bolt after that and realize the connection of festival section, after the festival section of two poles is connected, set up the bracing piece at the top and the middle part of two poles 10. Establish guide bar 11 at the root cover of two poles 10 and fix a position, the root that utilizes guide bar 11 aligns mutually with the mounting hole on ground and fixes a position the pole, later fix the transport vechicle and at the afterbody connection balance trailer of transport vechicle, fix balance trailer after, bind the tip at the pole with the safety bandage, the elevating platform shifts up, demolish the guide bar, upset pneumatic cylinder drive roll-over table overturns, let two poles 10 be vertical state, the elevating platform moves down, let the root of pole 10 insert in the mounting hole, the root of control pole 10 inserts to setting for the degree of depth, then bury the pole, loosen anchor clamps, remove the fixed of transport vechicle, the transport vechicle returns, the auxiliary erection of herringbone pole has just been accomplished.

The utility model discloses installation equipment is assisted to pole's beneficial effect does:

supplementary erection equipment is applicable to the supplementary pole of assembling, carrying and erectting of single pole and herringbone pole, practices thrift the labour, raises the efficiency.

Rotatable regulation of anchor clamps, splint also can rotate the regulation for anchor clamps can clip the pole and rotate, let the pole rotate round the axis of self, the equipment of the pole of being convenient for.

The distance between the two clamps is adjustable, and the clamping device can be suitable for clamping and assembling herringbone rods with different sizes.

When a single pole of centre gripping, can adjust the middle part of transport vechicle with a set of anchor clamps, equipment when guaranteeing the centre gripping pole is balanced.

When counterpointing the mounting hole, the rear portion installation guide bar of pole can realize quick location, just in time aims at the mounting hole when guaranteeing the pole and erects.

The equipment sets up balanced trailer and landing leg at the in-process of pole setting, can guarantee steadily.

The equipment is provided with a grounding mechanism, so that the phenomenon of electric shock of personnel is avoided.

The present invention has been described in detail with reference to the embodiments shown in the drawings, and those skilled in the art can make various modifications to the present invention based on the above description. Therefore, certain details of the embodiments should not be construed as limitations of the invention, which is to be interpreted as broadly as the appended claims define the scope of the invention.

Claims (10)

1. An auxiliary mounting apparatus for an electric pole, comprising:

a transport vehicle;

the lifting platform is arranged on the transport vehicle and can be adjusted in a lifting way;

the overturning platform is arranged on the lifting platform in an overturning manner, and the overturning platform can be overturned and adjusted to be in a vertical state; and

locate the last anchor clamps of roll-over table, anchor clamps have at least a pair of splint, a pair of splint between the centre gripping interval adjustable, can make a pair of splint centre gripping treat the pole of installation through adjusting the centre gripping interval, and then the cooperation the roll-over adjustment of roll-over table reaches the lift adjustment of elevating platform assists the installation of pole.

2. The auxiliary electric pole mounting equipment as recited in claim 1, wherein said clamps are rotatably mounted on said turning table, and said clamps are four in number, two of said clamps being mounted at the front of said transport cart and two of said clamps being mounted at the rear of said transport cart;

the four clamps can clamp a pair of inclined electric poles for forming the herringbone pole by rotating and adjusting the clamps so as to finish the auxiliary installation of the pair of electric poles;

the two clamps at the rear part of the transport vehicle can be adjusted through rotation so that the two clamps are positioned on the same straight line and clamp one electric pole to complete the auxiliary installation of the electric pole.

3. The auxiliary mounting equipment for the electric pole as recited in claim 2, wherein a supporting ring gear is provided on said transportation cart corresponding to said clamp, and a plurality of latch teeth are provided on the outer circumference of said supporting ring gear in a continuous arrangement;

the clamp comprises a pair of bottom supporting plates, the pair of bottom supporting plates are sleeved on the supporting gear rings and are in butt joint connection, one of the bottom supporting plates is provided with a clamping plate capable of being movably adjusted, and each bottom supporting plate is provided with a pair of clamping plates;

after the bottom support plate rotates around the support gear ring and is adjusted in place, the clamping plate is movably adjusted to be clamped into the corresponding clamping teeth on the support gear ring, and therefore the rotation of the bottom support plate is limited.

4. The auxiliary electric pole mounting apparatus as recited in claim 2, wherein said clamp further comprises a base, a rotatable driving shaft disposed on said base, a gear seat disposed in said base, a driving gear sleeved on and fixed to said driving shaft and disposed in said gear seat, a driving member mounted on said base and drivingly connected to said driving shaft, an arc-shaped gear ring engaged with said driving gear and mounted on said gear seat, and a mounting plate fixedly connected to said arc-shaped gear ring;

the pair of clamping plates are movably arranged on the mounting plate;

through the driving piece drive gear rotates, makes drive gear drive the arc ring gear rotates, and then passes through the mounting panel takes the pole of centre gripping in a pair of splint to rotate and adjusts.

5. The auxiliary mounting equipment for electric poles as claimed in claim 2, wherein the turning table is provided with a slide rail;

the fixtures positioned at the front part and the rear part of the transport vehicle are all slidably arranged on the slide rail, a driving mechanism which is connected with the fixtures in a driving way is further arranged on the overturning platform, and the driving mechanism can drive the fixtures to move and adjust along the slide rail, so that the fixtures at the front part and the rear part of the transport vehicle are close to or far away from each other.

6. The auxiliary mounting equipment for the electric pole as recited in claim 2, wherein a rotatably adjustable bearing table is provided on said turning table, and said clamp is mounted on said bearing table.

7. The pole auxiliary mounting apparatus as recited in claim 1, wherein a grounding mechanism slidable up and down is installed at a front portion of said transportation carriage.

8. The auxiliary electric pole mounting equipment as recited in claim 1, wherein a side of said turning table near the rear portion of said transportation cart is rotatably connected to said lifting table, said lifting table is provided with a turning hydraulic cylinder, said turning hydraulic cylinder is disposed in an inclined shape and is supported and connected to said turning table.

9. The auxiliary mounting equipment for electric pole as recited in claim 1, wherein said transport vehicle is provided at its front portion with a safety harness for auxiliary binding of the corresponding end of the electric pole.

10. The pole auxiliary mounting apparatus as recited in claim 1, further comprising a counter trailer detachably coupled to a rear portion of said transport vehicle.

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