CN112554637A - Electric power iron tower installation device - Google Patents
Electric power iron tower installation device Download PDFInfo
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- CN112554637A CN112554637A CN202011458779.3A CN202011458779A CN112554637A CN 112554637 A CN112554637 A CN 112554637A CN 202011458779 A CN202011458779 A CN 202011458779A CN 112554637 A CN112554637 A CN 112554637A
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- sliding
- component
- rotating
- supporting
- iron tower
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H12/00—Towers; Masts or poles; Chimney stacks; Water-towers; Methods of erecting such structures
- E04H12/34—Arrangements for erecting or lowering towers, masts, poles, chimney stacks, or the like
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04G—SCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
- E04G1/00—Scaffolds primarily resting on the ground
- E04G1/18—Scaffolds primarily resting on the ground adjustable in height
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04H—BUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
- E04H12/00—Towers; Masts or poles; Chimney stacks; Water-towers; Methods of erecting such structures
- E04H12/02—Structures made of specified materials
- E04H12/08—Structures made of specified materials of metal
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- Civil Engineering (AREA)
- Structural Engineering (AREA)
- Life Sciences & Earth Sciences (AREA)
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- Wood Science & Technology (AREA)
- Mechanical Engineering (AREA)
- Load-Engaging Elements For Cranes (AREA)
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Abstract
The invention discloses an electric iron tower installation device, which comprises a fixed base and an iron tower frame, wherein four iron tower frames are arranged and fixedly superposed on the fixed base, the electric iron tower installation device comprises a lifting platform and an automatic hoisting device, the lifting platform comprises a clamping sliding part, support control parts, a butt joint part and a standing platform, 4 clamping sliding parts are arranged, two ends of the clamping sliding part are respectively provided with a rotating first rotating shaft, the first rotating shafts are respectively provided with a driving rotating wheel rotating on the clamping sliding part, the end parts of the first rotating shafts are respectively provided with a support control part, a hoisting machine is respectively arranged between the two support control parts, the hoisting machine slides on the iron tower frame through the clamping sliding part, and then can drive the lifting platform to lift, and can hoist the iron tower parts through the hoisting machine, and then avoid the unable problem of hoist and mount of large-scale hoisting equipment, great improvement iron tower installation effectiveness.
Description
Technical Field
The invention relates to an electric power iron tower, in particular to an electric power iron tower mounting device, and particularly relates to an electric power iron tower mounting device capable of automatically mounting an iron tower.
Background
Along with the increase of electric power demand, further the continuous perfect of electric power facility has been promoted, wherein in present electric power facility, electric power iron tower is one of common equipment, can accomplish the transmission of electric power through electric power iron tower, thereby carry out remote transmission with electric power, at the in-process to the installation of electric power iron tower, the equipment of iron tower is accomplished through large-scale hoisting equipment mostly, wherein at the in-process to iron tower equipment, the equipment operation is accomplished through the manual work mostly, accomplish the equipment of iron tower at the eminence by the workman after hoisting the accessory through large-scale hoisting equipment, though the equipment of iron tower can be accomplished through large-scale hoisting equipment, but still have the following problem:
the hoisting operation of the iron tower can be completed through large-scale hoisting equipment in plain areas, but the large-scale hoisting equipment cannot normally hoist the iron tower in the process of assembling the iron tower in mountainous areas, so that the large-scale hoisting equipment cannot normally hoist the iron tower due to the limitation of construction space in the mountainous areas, the assembly of the iron tower is seriously affected, and the installation efficiency of the iron tower is reduced.
Therefore, there is a need to design a power tower installation device to solve the above technical problems.
Disclosure of Invention
Technical problem to be solved
The electric iron tower mounting device comprises an iron tower frame, a lifting platform, a lifting machine and an iron tower assembly, wherein the iron tower frame is provided with a lifting machine, the lifting machine is driven to lift through the lifting of the lifting platform in the process of assembling the iron tower, and the iron tower assembly is lifted through the lifting machine, so that the problem that large-scale hoisting equipment cannot hoist the iron tower is solved, and the iron tower mounting efficiency is greatly improved.
(II) technical scheme
The invention is realized by the following technical scheme:
an electric iron tower installation device comprises four fixed bases 1 and iron tower frames, wherein the four iron tower frames are fixedly overlapped on the fixed bases and comprise lifting platforms and automatic hoisting devices;
the lifting platform comprises a clamping sliding component, a supporting control component, a butt joint component and a standing platform;
the number of the clamping sliding parts is 4, the clamping sliding parts are respectively arranged in an L shape, two ends of the clamping sliding parts are respectively provided with a rotating first rotating shaft, the first rotating shafts are respectively provided with a driving rotating wheel which rotates on the stiffening sliding component, the end parts of the first rotating shafts are respectively provided with a supporting control component, the first rotating shafts respectively rotate in the supporting control components, the support control part is internally provided with a self-rotating connecting rotating part respectively, the first rotating shafts slide in the connecting rotating parts respectively, the connecting rotating parts drive the first rotating shafts to rotate, two adjacent connecting rotating parts are correspondingly connected through a butting part, the supporting control components are respectively provided with an electromagnet for controlling the first rotating shaft to slide;
the intelligent walking device comprises a standing platform, a stiffening sliding component, a walking mechanism and a walking mechanism, wherein an intelligent pedal is arranged on the standing platform, the standing platform is fixedly connected to the stiffening sliding component respectively, the bottom of the intelligent pedal is provided with a swinging oscillating rod respectively, the end part of the swinging oscillating rod is provided with a limiting component respectively, two ends of the limiting component are provided with a swinging extrusion sliding block respectively, two sides of the limiting component are provided with jacking pins which can slide in a telescopic manner respectively, the intelligent pedal is provided with a pedal respectively, and the sliding of the pedal controls the swinging of the jacking pins and the extrusion sliding blocks;
the automatic hoisting device comprises a hoisting machine, a clamping support and a supporting rod;
the lifting machine is respectively arranged between the two support control components, the clamping support is provided with two clamping supports which respectively slide on the lifting machine in a telescopic manner, the supporting rod slides in the lifting machine in a telescopic manner, a pull rope which slides in a telescopic manner is arranged on the supporting rod, and a hook is arranged at the end part of the pull rope;
the driving rotating wheel is tightly pressed on the iron tower frame to rotate, and the clamping support is clamped on the iron tower frame after sliding in a telescopic mode.
Preferably, the end parts of two adjacent first rotating shafts are respectively provided with a first bevel gear which is correspondingly engaged and connected, and the stiffening sliding component is provided with a motor for driving the first rotating shafts to rotate.
Preferably, a first rotating hole for supporting the rotation of the connecting rotating part is arranged in the supporting control part, the connecting rotating part is arranged in a cylindrical shape, a supporting rotating part is arranged at one end of the connecting rotating part, a supporting rotating groove for supporting the rotation of the supporting rotating part is arranged in the supporting control part, a control rotating part is respectively arranged at the other end of the connecting rotating part, a first sliding cavity arranged in a square shape is arranged in the connecting rotating part, a square sliding block sliding in the first sliding cavity is respectively arranged at the end part of the first rotating shaft, first springs for elastically pressing the square sliding block to slide are respectively arranged in the first sliding cavity, a first rotating groove for supporting the rotation of the control rotating part is arranged in the supporting control part, a row of locking grooves with equal intervals are arranged on the first rotating shaft, a plurality of positioning shafts which can slide in a telescopic manner are arranged on the control rotating part, the positioning shafts correspond to the locking grooves, and the electromagnets are arranged in the first rotating groove;
the control rotating part is internally provided with a second sliding cavity, the end part of the positioning shaft is provided with a first sliding block which slides in the second sliding cavity, the second sliding cavity is internally provided with a second spring which can elastically press the first sliding block to slide, and the electromagnet is correspondingly repelled from the first sliding block after being electrified.
Preferably, the supporting and rotating part is respectively provided with a butt joint port arranged in a square shape, four end faces of the butt joint port are respectively provided with a locking hole, the butt joint part is arranged in a square shape, two ends of the butt joint part are respectively clamped in the butt joint ports, and a butt joint is arranged at the central position of the butt joint part;
the two ends of the butt joint part are respectively provided with a third sliding cavity, the four end surfaces of the butt joint part are respectively provided with a locking shaft which slides in the third sliding cavity, the end parts of the locking shafts are respectively provided with a first spherical part, the third sliding cavities are respectively provided with a third spring which can elastically press the first spherical part to slide, a fourth sliding cavity is arranged in the butt joint, two sides of the fourth sliding cavity are respectively provided with a first sliding shaft which slides in the butt joint part, one end of the first sliding shaft is respectively provided with a first jacking part, the first jacking parts are respectively arranged on the four first spherical parts, the other end of the litigation first sliding shaft is respectively provided with a second spherical part which slides in the fourth sliding cavity, a fourth spring for elastically pressing the second spherical part to slide is arranged in each fourth sliding cavity;
the butt joint is provided with a threaded hole, a control rotating shaft in meshed connection is arranged in the threaded hole, one end of the control rotating shaft is provided with a second jacking component which jacks the second spherical component to slide, and the other end of the control rotating shaft is provided with a square groove.
Preferably, a right-angled groove is formed in the limiting part, a second rotating shaft for supporting the extrusion sliding block to swing is respectively arranged on two sides of the limiting part, friction heads are respectively distributed on the extrusion sliding blocks, a telescopic sliding shaft arranged in an arc shape is respectively arranged on the extrusion sliding blocks, a first supporting sliding chute for supporting the telescopic sliding shaft to slide is arranged in the limiting part, a second air bag is arranged in the limiting part, the telescopic sliding shafts are respectively connected to the second air bag, and a second air pipe connected to the second air bag is arranged in the limiting part;
the two sides of the limiting part are respectively provided with a first air bag, the jacking heads are respectively connected onto the first air bags, a first air pipe connected with the first air bags is arranged in the limiting part, and the first air pipe is correspondingly communicated with the second air pipe.
Preferably, the bottom of the intelligent pedal is provided with a rotation supporting the swinging rod to swing, the bottom of the intelligent pedal is provided with a fifth spring tensioning the swinging of the swinging rod, the intelligent pedal is provided with a control part, the control part is provided with a second supporting chute for supporting the pedal to slide, a sealing slide block is arranged on the pedal, a communication hole is arranged on the sealing slide block, the control part is provided with a connecting air hole, a sealing cavity for supporting the sealing slide block to slide is arranged in the control part, after the sealing slide block slides, the connecting air hole is correspondingly communicated with the communicating hole, one end of the connecting air hole is correspondingly communicated with the first air pipe and the second air pipe, and a sixth spring for elastically pressing the pedal to slide is arranged in the second supporting sliding groove.
Preferably, the both sides of lifting machine are respectively through a bolted connection on supporting the control unit, be provided with a motor drive's drive gear in the lifting machine, the bottom of bracing piece be provided with the tooth's socket that the corresponding meshing of drive gear is connected, the one end of bracing piece is provided with a pivoted support runner, the other end of bracing piece is provided with the stay cord supporting wheel of an rotation, the stay cord is in slide on the stay cord supporting wheel, be provided with a motor drive's rope sheave in the lifting machine, the stay cord is connected on the rope sheave.
Preferably, a threaded rod driven by a second motor is arranged in the elevator, a sliding jacking plate is arranged in the elevator, the clamping supports are respectively connected to two ends of the jacking plate, and a threaded hole which is correspondingly meshed with the threaded rod is formed in the jacking plate.
(III) advantageous effects
The invention provides an electric iron tower installation device which has the following beneficial effects:
the four clamping sliding components are arranged on the iron tower frame and respectively clamped on the iron tower frame, the two rotating driving rotating wheels are respectively arranged on the clamping sliding components, and the lifting platform can be driven to lift after the driving rotating wheels rotate on the iron tower frame, so that the problem that large-scale hoisting equipment cannot be used for hoisting in a narrow space is solved, and the installation efficiency of the iron tower is greatly improved;
the lifting machine is arranged on the lifting platform, the pull rope is arranged on the lifting machine, and the iron tower component can be further hoisted through telescopic sliding of the pull rope, so that the problem that large-scale hoisting equipment cannot be hoisted is solved, and the installation efficiency of the iron tower is greatly improved.
Drawings
The invention is further described below with reference to the accompanying drawings.
Fig. 1 is a schematic view of the overall structure of an electric iron tower installation device according to an embodiment of the invention;
fig. 2 is a top view of the overall structure of the electric iron tower installation device in the embodiment of the invention;
FIG. 3 is a schematic view of the overall structure of a clamping slide according to an embodiment of the present invention;
FIG. 4 is a schematic view of the overall structure of a support control member according to an embodiment of the present invention;
FIG. 5 is a schematic view of the overall structure of the docking component according to the embodiment of the present invention;
FIG. 6 is a schematic diagram of an overall structure of an intelligent pedal according to an embodiment of the present invention;
FIG. 7 is a schematic view of the overall structure of a position limiting component according to an embodiment of the present invention;
FIG. 8 is a schematic view of the overall structure of a control unit according to an embodiment of the present invention;
FIG. 9 is a schematic view of the overall structure of a hoist according to an embodiment of the present invention;
fig. 10 is a schematic view of the overall structure of a control rotating member according to an embodiment of the present invention.
In the figure: 1, fixing a base and a 1001 iron tower;
2, lifting a platform, 2001 clamping a sliding component, 2002 standing the platform, 2003 driving a rotating wheel, 2004 a first rotating shaft, 2005 a first bevel gear, 2006 connecting a rotating component, 2007 a first sliding cavity, 2008 a first spring, 2009 controlling the rotating component, 2010 supporting the rotating component, 2011 an interface, 2012 locking holes, 2013 positioning shafts, 2014 a second sliding cavity, 2015 a second spring, 2016 a first slider, 2017 locking grooves;
21 supporting control component, 2101 first rotating hole, 2102 first rotating groove, 2103 electromagnet, 2104 supporting rotating groove;
22 butt joint part, 2201 butt joint part, 2202 locking shaft, 2203 third sliding cavity, 2204 first spherical part, 2205 third spring, 2206 first sliding shaft, 2207 first jacking part, 2208 fourth sliding cavity, 2209 second spherical part, 2210 fourth spring, 2211 control rotating shaft, 2212 second jacking part, 2213 square groove and 2214 threaded hole;
23 intelligent pedal, 2301 swinging rod, 2302 fifth spring, 2303 limiting component, 2304 extruding sliding block, 2305 second rotating shaft, 2306 pushing head, 2307 first air bag, 2308 first air pipe, 2309 telescopic sliding shaft, 2310 first supporting sliding groove, 2311 second air bag, 2312 second air pipe, 2313 control component, 2314 pedal, 2315 second supporting sliding groove, 2316 sixth spring, 2317 sealing cavity, 2318 sealing sliding block, 2319 communication hole and 2320 connecting air hole;
3 hoisting machine, 3001 hook, 3002 support rod, 3003 pull rope, 3004 pull rope support wheel, 3005 drive gear, 3006 pull rope wheel and 3007 pull rope support wheel;
31 clamping a bracket, 3101 a top pressing plate, 3102 a threaded rod and 3103 a second motor.
Detailed Description
As shown in fig. 1 to 10, an electric iron tower installation device includes four fixed bases 1 and four iron tower frames 1001, wherein the four iron tower frames 1001 are fixedly stacked on the fixed bases 1 and include a lifting platform 2 and an automatic hoisting device;
the lifting platform 2 comprises a clamping sliding part 2001, a supporting control part 21, a butt joint part 22 and a standing platform 2002;
the number of the clamping slide members 2001 is 4, the clamping slide members 2001 are respectively provided in an L-shape, both ends of the clamping slide member 2001 are provided with a first rotating shaft 2004 respectively, the first shafts 2004 are respectively provided with a driving runner 2003 rotating on the stiffening slide members 2001, a support control part 21 is provided at each end of the first rotation shafts 2004, the first rotation shafts 2004 are rotated in the support control parts 21, the support control members 21 are respectively provided with a connecting rotation member 2006 capable of rotating, the first rotation shafts 2004 slide in the connection rotation members 2006, respectively, the connection rotation members 2006 rotate the first rotation shafts 2004, two adjacent connecting rotating parts 2006 are correspondingly connected through one butting part 22, the support control members 21 are respectively provided with an electromagnet 2103 for controlling the sliding of the first rotating shaft 2004.
Four iron towers 1001 are combined and connected together in a group, the iron tower 1001 is connected to a fixed base 1, 4 clamping sliding components 2001 are arranged, the clamping sliding components 2001 are arranged in an L shape, two ends of each clamping sliding component 2001 are respectively provided with a rotating first rotating shaft 2004, the first rotating shafts 2004 are respectively provided with a driving rotating wheel 2003, the driving rotating wheels 2003 respectively rotate on the clamping sliding components 2001, the end parts of the first rotating shafts 2004 are respectively provided with a support control component 21, the support control components 21 are fixed and do not rotate, the first rotating shafts 2004 respectively rotate in the support control components 21, a self-rotating connecting rotating component 2006 is respectively arranged in the support control components 21, the first rotating shafts 2004 respectively slide in the connecting rotating components 2006, and the rotation of the connecting rotating components 2006 drives the first rotating shafts 2004 to rotate, the two adjacent connecting rotating components 2006 are correspondingly connected through a butt joint component 22, so that the driving rotating wheels 2003 can synchronously rotate, the lifting platform 2 can be lifted after the driving rotating wheels 2003 are pressed on the iron tower 1001 to rotate, the supporting control components 21 are respectively provided with an electromagnet 2103, when the electromagnet 2103 is electrified, the first rotating shaft 2004 is controlled to stretch and slide, so that the driving rotating wheels 2003 can be pressed on the iron tower 1001, the lifting platform 2 can be driven to lift, and the problem that large-scale hoisting equipment cannot be constructed is solved.
An intelligent pedal 23 is arranged on the standing platform 2002, the standing platform 2002 is fixedly connected to the stiffening sliding component 2001, a swinging swing rod 2301 is arranged at the bottom of the intelligent pedal 23, a limiting component 2303 is arranged at the end of the swinging swing rod 2301, swinging extrusion sliders 2304 are arranged at two ends of the limiting component 2303, jacking needles 2306 which can slide in a telescopic manner are arranged on two sides of the limiting component 2303, a pedal 2314 is arranged on the intelligent pedal 23, and the sliding of the pedal 2314 controls the swinging of the jacking needles 2306 and the extrusion sliders 2304.
Four smart pedals 23 are provided, respectively attached to the clamping slide 2001, the bottom of the intelligent pedal 23 is respectively provided with a swinging swing lever 2301, the end parts of the swing levers 2301 are respectively connected with a limit component 2303, two ends of the limiting component 2303 are respectively provided with a swinging extrusion slide block 2304, two sides of the limiting component 2303 are respectively provided with a jacking needle 2306 which can slide in a telescopic way, the limiting component 2303 slides on the iron tower 1001 and is pressed on the iron tower 1001 through the swinging of the extrusion sliding block 2304, meanwhile, the iron tower 1001 can be jacked by the telescopic sliding of the jacking needle 2306, and can be pressed on the iron tower 1001 through the limiting component 2303, thereby increasing the friction force, carry on spacingly to intelligent footboard 23, the staff stands after on intelligent footboard 23 to can guarantee intelligent footboard 23's stability, guarantee staff's safety.
The automatic hoisting device 3 comprises a hoisting machine 3, a clamping bracket 31 and a supporting rod 3002;
the lifting machine 3 is respectively arranged between the two support control components 21, the clamping support 31 is provided with two parts which respectively slide on the lifting machine 3 in a telescopic manner, the support rod 3002 slides in the lifting machine 3 in a telescopic manner, the support rod 3002 is provided with a pull rope 3003 sliding in a telescopic manner, and the end part of the pull rope 3003 is provided with a hook 3001;
the driving rotating wheel 2003 is tightly pressed on the iron tower rack 1001 to rotate, and the clamping support 31 is clamped on the iron tower rack 1001 after telescopic sliding.
The hoist 3 is connected to the two support control members 21 by means of bolts, so that the four clamping slide members 2001 can be pressed against the iron tower 1001, so that the lifting platform 2 can be driven to ascend and descend by the synchronous rotation of the driving rotating wheel 2003, two support rods 3002 are provided, which can slide in a telescopic manner synchronously, and can further drive the hook 3001 to slide after the pull rope 3003 slides, therefore, the hook 3001 is hooked on the iron tower accessory for assembly operation, the problem that the iron tower accessory cannot be hoisted by large-scale hoisting equipment is further avoided, the assembly efficiency of the iron tower is greatly improved, and the clamping bracket 31 can be clamped on the iron tower 1001 after telescopic sliding, therefore, the hoisting machine 3 can be fixed, the problem that the hoisting machine 3 is poor in stability in the operation process is solved, and the installation efficiency of the iron tower is improved.
As shown in fig. 2 and 3, a first bevel gear 2005 correspondingly engaged and connected with each other is disposed at each end of two adjacent first rotating shafts 2004, and a motor for driving the first rotating shafts 2004 to rotate is disposed on the stiffening sliding member 2001.
The first bevel gears 2005 are correspondingly engaged to enable the first rotating shafts 2004 to synchronously rotate, so that the driving rotating wheels 2003 can synchronously rotate, the first rotating shafts 2004 are driven to rotate by the motor, and the lifting of the lifting platform 2 is controlled.
As shown in fig. 4, a first rotating hole 2101 for supporting the connection rotating member 2006 to rotate is arranged in the support control member 21, the connection rotating member 2006 is arranged in a cylindrical shape, a support rotating member 2010 is arranged at one end of the connection rotating member 2006, a support rotating groove 2104 for supporting the support rotating member 2010 to rotate is arranged in the support control member 21, a control rotating member 2009 is respectively arranged at the other end of the connection rotating member 2006, a first sliding chamber 2007 arranged in a square shape is arranged in the connection rotating member 2006, a square slider sliding in the first sliding chamber 2007 is respectively arranged at the end of the first rotating shaft 2004, a first spring 2008 for pressing the square slider to slide is respectively arranged in the first sliding chamber 2007, a first rotating groove 2102 for supporting the control rotating member 2001 to rotate is arranged in the support control member 21, a row of locking grooves 2017 with equal intervals are formed in the first rotating shaft 2004, a positioning shaft 2013 which can slide in a telescopic mode is arranged on the control rotating component 2009, the positioning shaft 2013 corresponds to the locking grooves 2017, the electromagnet 2103 is arranged in the first rotating groove 2102, and a plurality of electromagnets 2103 are arranged;
a second sliding cavity 2014 is arranged in the control rotating part 2009, a first sliding block 2016 sliding in the second sliding cavity 2014 is arranged at the end part of the positioning shaft 2013, a second spring 2015 used for elastically pressing the first sliding block 2016 to slide is arranged in the second sliding cavity 2014, and the electromagnet 2103 is repelled correspondingly to the first sliding block 2016 after being electrified.
A first rotating hole 2101 is arranged in the supporting control member 21, the connecting rotating member 2006 is supported to rotate through the first rotating hole 2101, a supporting rotating member 2010 is arranged at one end of the connecting rotating member 2006, the supporting rotating member 2010 is arranged in the supporting rotating member 2010, a supporting rotating groove 2104 which supports the supporting rotating member 2010 to rotate is arranged in the supporting control member 21, a controlling rotating member 2009 is arranged at the other end of the connecting rotating member 2006, the controlling rotating member 2009 is arranged in a circular ring shape, a first sliding chamber 2007 which is arranged in a square shape is arranged in the connecting rotating member 2006, a square slider which slides in the first sliding chamber 2007 is arranged at the end of the first rotating shaft 2004, a first spring 2008 is arranged in the first sliding chamber 2007, the square slider is tensioned through the first spring 2008, and the first rotating shaft 2004 can be pulled to slide, so that the clamping slide member 2001 can be pressed against the iron tower 1001, a first rotary groove 2102 for supporting the rotation of the control rotary member 2001 is provided in the support control member 21, locking grooves 2017 are arranged on the first rotating shaft 2004 at equal intervals, a positioning shaft 2013 which can slide telescopically is arranged on the control rotating component 2009, after the positioning shaft 2013 is clamped in the locking groove 2017 after sliding, the sliding of the first rotating shaft 2004 can be further limited, a plurality of electromagnets 2103 are arranged in the first rotating groove 2102, so as to control the telescopic sliding of the positioning shaft 2013 after the electromagnet 2103 is electrified, the telescopic sliding of the first rotating shaft 2004 can be controlled, so that the lifting platform 2 can be controlled after the telescopic sliding of the first rotating shaft 2004 is limited, and the random vertical sliding of the lifting platform is prevented;
the electromagnet 2103 is electrified and then correspondingly repelled from the first slider 2016, so that the positioning shaft 2013 is pushed to slide, and meanwhile, the second spring 2015 can be used for suppressing the first slider 2016 to slide, so that the positioning shaft 2013 is reset.
As shown in fig. 4 and 5, the supporting and rotating member 2010 is provided with a pair of square interfaces 2011, four end surfaces of the pair of interfaces 2011 are provided with a locking hole 2012, the pair of square members 22 are connected in a snap-fit manner in the pair of interfaces 2011, and a pair of connectors 2201 is disposed at a central position of the pair of square members 22.
Support and be provided with a butt joint 2011 on the rotating member 2010 respectively, butt joint 2011 is square setting respectively, is provided with a locking hole 2012 respectively on four terminal surfaces of butt joint 2011, and butt joint parts 22 is square setting, and when the in-process that carries out the butt joint to lift platform 2 needs, the joint parts 2201 is provided with in butt joint parts 2011 in the central point that butt joint parts 22's central point puts.
A third sliding cavity 2203 is respectively arranged at two ends of the butt joint part 22, a locking shaft 2202 which slides in the third sliding cavity 2203 is respectively arranged on four end surfaces of the butt joint part 22, the end parts of the locking shaft 2202 are respectively provided with a first ball-shaped member 2204, the third sliding cavities 2203 are respectively provided with a third spring 2205 which presses the first ball-shaped member 2204 to slide, a fourth sliding cavity 2208 is arranged in the butt joint 2201, a first sliding shaft 2206 sliding in the butt joint part 22 is respectively arranged at two sides of the fourth sliding cavity 2208, one end of the first sliding shaft 2206 is respectively provided with a first pressing member 2207, the first pressing members 2207 are respectively arranged on four first spherical members 2204, the other end of the litigation first sliding shaft 2206 is respectively provided with a second spherical member 2209 sliding in the fourth sliding cavity 2208, a fourth spring 2210 for elastically pressing the second spherical element 2209 to slide is respectively arranged in the fourth sliding cavity 2208;
the butt joint 2201 is provided with a threaded hole 2214, a control rotating shaft 2211 in meshed connection is arranged in the threaded hole 2214, one end of the control rotating shaft 2211 is provided with a second pressing part 2212 which presses the second spherical element 2209 to slide, and the other end of the control rotating shaft 2211 is provided with a square groove 2213.
A third sliding cavity 2203 is respectively arranged at two ends of the butt joint part 22, the third sliding cavity 2203 is arranged in a square shape, four end faces of the butt joint part 22 are respectively provided with a locking shaft 2202 capable of sliding telescopically, the end parts of the locking shaft 2202 are respectively provided with a first spherical member 2204, the first spherical member 2204 slides in the third sliding cavity 2203, the third sliding cavity 2203 is respectively provided with a third spring 2205 capable of elastically pressing the first spherical member 2205 to slide, the butt joint head 2201 is internally provided with a fourth sliding cavity 2208, two sides of the fourth sliding cavity 2208 are respectively provided with a sliding first sliding shaft 2206, one end of the first sliding shaft 2206 is respectively provided with a first pressing member 2207, the first pressing members 2207 are respectively arranged in a conical shape, the first spherical members 2204 are respectively pressed on the first sliding members 2207, and the first pressing members 2207 can be driven to slide by the first sliding shaft 2206 in the sliding process, the first pressing member 2207 can press the first spherical member 2204 to slide, so that the locking shaft 2208 can be pressed to telescopically slide, the locking shaft 2208 is telescopically clamped in the locking hole 2012, so that the two supporting and rotating members 2010 can be connected together through the abutting member 22, so that the two supporting and rotating members 2010 can synchronously rotate, the control rotating shaft 2211 can be controlled to telescopically slide after being engaged with the threaded hole 2214 through the control rotating shaft 2211, so that the second pressing member 2212 can slide, the second pressing member 2212 is arranged in a conical shape, so that the second spherical member 2209 can be pressed to slide, so that the first pressing member 2207 can be controlled to slide, and the first pressing member 2207 can be reset after the fourth spring 2210 presses the second spherical member 2209.
As shown in fig. 6 to 8, a right-angled groove is formed in the limiting component 2303, two sides of the limiting component 2303 are respectively provided with a second rotating shaft 2305 for supporting the extrusion slide block 2304 to swing, the extrusion slide block 2304 is respectively covered with friction heads, the extrusion slide block 2304 is respectively provided with an arc-shaped telescopic slide shaft 2309, a first supporting slide slot 2310 for supporting the telescopic slide shaft 2309 to slide is formed in the limiting component 2303, a second air bag 2311 is formed in the limiting component 2303, the telescopic slide shafts 2309 are respectively connected to the second air bag 2311, and a second air pipe 2312 connected to the second air bag 2311 is formed in the limiting component 2303;
two sides of the limiting component 2303 are respectively provided with a first air bag 2307, the top pressure heads 2306 are respectively connected to the first air bags 2307, a first air pipe 2308 connected with the first air bags 2307 is arranged in the limiting component 2303, and the first air pipe 2308 is correspondingly communicated with the second air pipe 2312.
The position-limiting parts 2303 are respectively provided with a right-angled groove, both sides of the position-limiting parts 2303 are respectively provided with a swinging extrusion slide block 2304, the extrusion slide block 2304 is supported by the second rotating shaft 2305, thereby ensuring that the second air cell 2311 is inflated and expanded by the second air tube 2312 after the normal swing of the pressing slide 2304 is achieved, and further can press against the telescopic sliding shaft 2309 to slide, so that the extrusion sliding block 2304 can be pressed against the swing of the extrusion sliding block 2309 through the telescopic sliding shaft 2309, the extrusion sliding block 2304 is pressed on the iron tower 1001 after swinging, while the first airbag 2307 is inflated by the first air tube 2308, and then the first air bag 2307 can be expanded to press against the pressing head 2306 to slide, so that the pressing head 2306 can be pressed on the iron tower 1001, therefore, the intelligent pedal 23 can be limited, and the operation safety of workers is further guaranteed.
As shown in fig. 6 to 8, the bottom of the smart pedal 23 is provided with a fifth spring 2302 for tensioning the swing rod 2301 to swing, the smart pedal 23 is provided with a control component 2313, the control component 2313 is provided with a second supporting sliding groove 2315 for supporting the pedal 2314 to slide, the pedal 2315 is provided with a sealing slider 2318, the sealing slider 2318 is provided with a communication hole 2319, the control component 2313 is provided with a connecting air hole 2320, the control component 2313 is provided with a sealing cavity 2317 for supporting the sealing slider 2318 to slide, after the sealing slider 2318 slides, the connecting air hole 2320 and the communication hole 2319 are correspondingly communicated, and one end of the connecting air hole 2320 is correspondingly communicated with the first air pipe 2308 and the second air pipe 2312, a sixth spring 2316 for biasing the pedal 2314 to slide is disposed in the second supporting sliding groove 2315.
The sealing slide block 2318 is driven to slide after the pedal 2314 is stepped, the connecting air hole 2320 can be communicated through the communicating hole 2319, so that the flowing of air is controlled, the first air pipe 2308 and the second air pipe 2312 are inflated, the swinging of the extrusion slide block 2304 and the telescopic sliding of the jacking head 2306 can be controlled, the stability of the intelligent pedal 23 can be controlled, the pedal 2314 is pressed through the fifth spring 2302 in an elastic mode to reset, the pedal 2314 can be controlled after being stepped, and the safety of construction workers can be guaranteed.
As shown in fig. 1 and 9, two sides of the hoisting machine 3 are respectively connected to the support control component 21 through a bolt, a motor-driven driving gear 3005 is provided in the hoisting machine 3, a tooth space engaged with and connected to the driving gear 3005 is provided at the bottom of the supporting rod 3002, one end of the supporting rod 3002 is provided with a rotating support wheel 3007, the other end of the supporting rod 3002 is provided with a rotation rope support wheel 3004, the rope 3003 slides on the rope support wheel 3004, a motor-driven rope pulley 3006 is provided in the hoisting machine 3, and the rope 3006 is connected to the rope pulley 3006.
As shown in fig. 1 and 9, a threaded rod 3102 driven by a second motor 3103 is arranged in the elevator 3, a sliding top press plate 3101 is arranged in the elevator 2, the clamping brackets 31 are respectively connected to two ends of the top press plate 3101, and a threaded hole which is correspondingly engaged with the threaded rod 3102 is arranged on the top press plate 3101.
After the driving gear 3005 is driven to rotate by a motor, tooth sockets which are correspondingly meshed and connected with the driving gear 3005 are arranged at the bottom of the supporting rod 3002, so that the telescopic sliding of the supporting rod 3002 can be controlled, the pulling rope wheel 3007 can be used for supporting the pulling rope 3003, the sliding of the pulling rope 3003 is guaranteed, meanwhile, the pulling rope wheel 3006 can be driven to slide by the rotation of the motor, the threaded rod 3102 is driven to rotate by the second motor 3103, the top pressing disc 3101 is provided with threaded holes which are correspondingly meshed and connected with the threaded rod 3102, so that the top pressing disc 3101 can be pushed to slide, the clamping bracket 31 is pushed to slide, and after the clamping bracket 31 is clamped on the iron tower 1001, the lifting machine 3 can be supported and fixed, and the stability of the lifting machine 3 is guaranteed.
The working principle of the invention is as follows: the iron tower 1001 is fixedly arranged on the fixed base 1, the lifting platform 2 comprises four clamping sliding components 2001, the clamping components 2001 are respectively arranged in an L shape, two sides of the clamping components 2001 are respectively provided with a rotating first rotating shaft 2004, the end parts of the first rotating shafts 2004 are respectively provided with a supporting control component 21, when the lifting platform 2 needs to be spliced, the lifting machine 3 is arranged between the two supporting control components 21, the two supporting control components 21 are connected together through the lifting machine 3, the clamping sliding components 2001 are respectively provided with a rotating driving rotating wheel 2003, when the driving rotating wheel 2003 is tightly pressed on the iron tower 1001, the clamping sliding components 2001 can be lifted, the lifting of the lifting platform 2 can be controlled, the lifting machine 3 can be driven to slide, and the problem that large-scale hoisting equipment cannot work in a narrow space is avoided, the installation efficiency of the iron tower is greatly improved;
a telescopic sliding support rod 3002 is arranged on the elevator 3, and the stay cord 3003 can be supported by the support rod 3002, so that the normal hoisting operation of the iron tower part can be ensured;
the support control components 21 are internally provided with a rotary connecting rotating component 2006 respectively, the first rotating shafts 2004 stretch and slide in the connecting rotating component 2006 respectively, when the two support control components 21 are connected, the two connecting rotating components 2006 can be correspondingly connected through one butting component 22, so that the first rotating shafts 2004 can synchronously rotate, the driving rotating wheels 2003 can synchronously rotate, and the lifting platform 2 can be lifted;
the clamping sliding parts 2001 are respectively provided with a standing platform 2002, the standing platforms 2002 are respectively provided with an intelligent pedal 23, the bottoms of the intelligent pedals 23 are respectively provided with a swinging limiting part 2303, the limiting parts 2303 can slide on the iron tower frame 1001, the limiting parts 2303 are respectively provided with a swinging extrusion sliding block 2304, the swinging of the extrusion sliding blocks 2304 can be pressed on the iron tower frame 1001, and then the standing platform 2002 can be supported, so that the stability of the standing platform 2002 can be ensured, and the normal operation of workers can be ensured.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.
Claims (8)
1. The utility model provides an electric power iron tower installation device, is provided with four including unable adjustment base (1), iron tower frame (1001), and superpose fixedly and set up unable adjustment base (1) is last, its characterized in that: comprises a lifting platform (2) and an automatic hoisting device;
the lifting platform (2) comprises a clamping sliding component (2001), a supporting control component (21), a butt joint component (22) and a standing platform (2002);
the number of the clamping sliding components (2001) is 4, the clamping sliding components (2001) are arranged in an L shape, two ends of each clamping sliding component (2001) are provided with a rotating first rotating shaft (2004), each first rotating shaft (2004) is provided with a driving rotating wheel (2003) rotating on the stiffening sliding component (2001), each end of each first rotating shaft (2004) is provided with a supporting control component (21), each first rotating shaft (2004) rotates in the supporting control component (21), each supporting control component (21) is internally provided with a self-rotating connecting rotating component (2006), each first rotating shaft (2004) slides in the connecting rotating component (2006), each connecting rotating component (2006) drives the first rotating shaft (2004) to rotate, and each butt joint component (22) is arranged between each two adjacent connecting rotating components (2006) to correspond to each other The supporting control component (21) is respectively provided with an electromagnet (2103) for controlling the first rotating shaft (2004) to slide;
an intelligent pedal (23) is arranged on the standing platform (2002), the standing platform (2002) is fixedly connected to the stiffening sliding component (2001) respectively, a swinging swing rod (2301) is arranged at the bottom of the intelligent pedal (23) respectively, a limiting component (2303) is arranged at the end of the swing rod (2301) respectively, a swinging extrusion sliding block (2304) is arranged at each of two ends of the limiting component (2303), jacking needles (2306) which can slide in a telescopic manner are arranged on each of two sides of the limiting component (2303), a pedal (2314) is arranged on the intelligent pedal (23) respectively, and the sliding of the pedal (2314) controls the swinging of the jacking needles (2306) and the extrusion sliding block (2304);
the automatic hoisting device comprises a hoisting machine (3), a clamping support (31) and a support rod (3002);
the lifting machine (3) is arranged between the two support control components (21), the clamping support (31) is provided with two parts which can slide on the lifting machine (3) in a telescopic manner, the supporting rod (3002) slides in the lifting machine (3) in a telescopic manner, the supporting rod (3002) is provided with a pull rope (3003) which can slide in a telescopic manner, and the end part of the pull rope (3003) is provided with a hook (3001);
the driving rotating wheel (2003) is pressed on the iron tower frame (1001) to rotate, and the clamping support (31) is clamped on the iron tower frame (1001) after telescopic sliding.
2. The electric power iron tower installation device according to claim 1, wherein: the end parts of two adjacent first rotating shafts (2004) are respectively provided with a first bevel gear (2005) which is correspondingly meshed and connected, and the stiffening sliding component (2001) is provided with a motor which drives the first rotating shafts (2004) to rotate.
3. The electric power iron tower installation device according to claim 1, wherein: a first rotating hole (2101) for supporting the connection rotating component (2006) to rotate is arranged in the support control component (21), the connection rotating component (2006) is arranged in a cylindrical shape, one end of the connection rotating component (2006) is provided with a support rotating component (2010), a support rotating groove (2104) for supporting the support rotating component (2010) to rotate is arranged in the support control component (21), the other end of the connection rotating component (2006) is respectively provided with a control rotating component (2009), a first sliding cavity (2007) which is arranged in a square shape is arranged in the connection rotating component (2006), the end part of the first rotating shaft (2004) is respectively provided with a square sliding block which slides in the first sliding cavity (2007), and first springs (2008) which elastically press the square sliding block to slide are respectively arranged in the first sliding cavity (2007), a first rotary groove (2102) for supporting the control rotating component (2001) to rotate is arranged in the support control component (21), a row of locking grooves (2017) with equal intervals are formed in the first rotary shaft (2004), a positioning shaft (2013) capable of sliding in a telescopic mode is arranged on the control rotating component (2009), the positioning shaft (2013) corresponds to the locking grooves (2017), the electromagnet (2103) is arranged in the first rotary groove (2102), and a plurality of electromagnets (2103) are arranged;
be provided with a second sliding chamber (2014) in control rotating member (2009), the tip of location axle (2013) is provided with one and is in sliding first slider (2016) that slides in chamber (2014) in the second, be provided with a suppress in sliding chamber (2014) in the second first slider (2016) gliding second spring (2015), electro-magnet (2103) circular telegram back with first slider (2016) is corresponding to repel.
4. The electric power iron tower installation device according to claim 1, wherein: the supporting and rotating component (2010) is provided with a butt joint port (2011) which is arranged in a square shape, four end faces of the butt joint port (2011) are respectively provided with a locking hole (2012), the butt joint component (22) is arranged in a square shape, two ends of the butt joint component (22) are respectively clamped in the butt joint port (2011), and a butt joint head (2201) is arranged at the central position of the butt joint component (22);
two ends of the butt joint component (22) are respectively provided with a third sliding cavity (2203), four end faces of the butt joint component (22) are respectively provided with a locking shaft (2202) which slides in the third sliding cavity (2203), the end part of the locking shaft (2202) is respectively provided with a first spherical part (2204), the third sliding cavity (2203) is respectively provided with a third spring (2205) which elastically presses the first spherical part (2204) to slide, the butt joint head (2201) is internally provided with a fourth sliding cavity (2208), two sides of the fourth sliding cavity (2208) are respectively provided with a first sliding shaft (2206) which slides in the butt joint component (22), one end of the first sliding shaft (2206) is respectively provided with a first jacking part (2207), the first jacking parts (2207) are respectively arranged on the four first spherical parts (2204), and the other end of the first sliding shaft (2206) is respectively provided with a second sliding shaft (2208) which slides in the fourth sliding cavity (2208) The ball-shaped parts (2209), a fourth spring (2210) which is used for elastically pressing the second ball-shaped part (2209) to slide is respectively arranged in the fourth sliding cavity (2208);
the butt joint (2201) is provided with a threaded hole (2214), the threaded hole (2214) is internally provided with a control rotating shaft (2211) which is connected in a meshed mode, one end of the control rotating shaft (2211) is provided with a second jacking component (2212) which jacks the second spherical piece (2209) to slide, and the other end of the control rotating shaft (2211) is provided with a square groove (2213).
5. The electric power iron tower installation device according to claim 1, wherein: a right-angled groove is formed in the limiting component (2303), two sides of the limiting component (2303) are respectively provided with a second rotating shaft (2305) for supporting the extrusion sliding block (2304) to swing, friction heads are respectively distributed on the extrusion sliding block (2304), the extrusion sliding block (2304) is respectively provided with an arc-shaped telescopic sliding shaft (2309), a first supporting sliding groove (2310) for supporting the telescopic sliding shaft (2309) to slide is arranged in the limiting component (2303), a second air bag (2311) is arranged in the limiting component (2303), the telescopic sliding shaft (2309) is respectively connected to the second air bag (2311), and a second air pipe (2312) connected to the second air bag (2311) is arranged in the limiting component (2303);
two sides of the limiting component (2303) are respectively provided with a first air bag (2307), the jacking heads (2306) are respectively connected to the first air bags (2307), a first air pipe (2308) connected with the first air bags (2307) is arranged in the limiting component (2303), and the first air pipe (2308) is correspondingly communicated with the second air pipe (2312).
6. The electric power iron tower installation device according to claim 1, wherein: the bottom of the intelligent pedal (23) is provided with a fifth spring (2302) for tensioning the swinging rod (2301) to swing, the bottom of the intelligent pedal (23) is provided with a control component (2313), the control component (2313) is provided with a second supporting sliding groove (2315) for supporting the pedal (2314) to slide, the pedal (2315) is provided with a sealing slide block (2318), the sealing slide block (2318) is provided with a communication hole (2319), the control component (2313) is provided with a connecting air hole (2320), the control component (2313) is provided with a sealing cavity (2317) for supporting the sealing slide block (2318) to slide, and the connecting air hole (2320) is correspondingly communicated with the communication hole (2319) after the sealing slide block (2318) slides, one end of the connecting air hole (2320) is correspondingly communicated with the first air pipe (2308) and the second air pipe (2312), and a sixth spring (2316) for elastically pressing the pedal (2314) to slide is arranged in the second supporting sliding groove (2315).
7. The electric power iron tower installation device according to claim 1, wherein: the both sides of lifting machine 3 are respectively through a bolted connection on supporting control part (21), be provided with a motor drive's drive gear (3005) in lifting machine (3), the bottom of bracing piece (3002) be provided with the tooth's socket that the corresponding meshing of drive gear (3005) is connected, the one end of bracing piece (3002) is provided with a pivoted and supports runner (3007), the other end of bracing piece (3002) is provided with stay cord supporting wheel (3004) of a rotation, stay cord (3003) are in slide on stay cord supporting wheel (3004), be provided with a motor drive's rope pulley (3006) in lifting machine (3), stay cord (3006) are connected on rope pulley (3006).
8. The electric power iron tower installation device according to claim 1, wherein: the lifting machine is characterized in that a threaded rod (3102) driven by a second motor (3103) is arranged in the lifting machine (3), a sliding pressing plate (3101) is arranged in the lifting machine (2), the clamping support (31) is respectively connected to two ends of the pressing plate (3101), and a threaded hole which is correspondingly meshed and connected with the threaded rod (3102) is arranged on the pressing plate (3101).
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Cited By (1)
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CN115263066A (en) * | 2022-09-27 | 2022-11-01 | 国网辽宁省电力有限公司 | Electric power iron tower |
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CN115263066B (en) * | 2022-09-27 | 2022-12-09 | 国网辽宁省电力有限公司 | Electric power iron tower |
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