CN112429679B

CN112429679B - Auxiliary supporting frame for mounting of wind power generation equipment in plant area

Info

Publication number: CN112429679B
Application number: CN202011281415.2A
Authority: CN
Inventors: 吴禹凡; 高洪庆
Original assignee: Jiangsu Haidiwei Hydraulic Co ltd
Current assignee: Jiangsu Haidiwei Hydraulic Co ltd
Priority date: 2020-11-16
Filing date: 2020-11-16
Publication date: 2022-06-21
Anticipated expiration: 2040-11-16
Also published as: CN112429679A

Abstract

The invention relates to the technical field of mechanical equipment, in particular to a supporting frame for assisting in mounting of wind power generation equipment in a factory, which can effectively save physical strength and time when workers climb by driving the workers to automatically lift and move, reduce the difficulty of high-altitude operation of the workers, shorten the mounting progress of the power generation equipment, avoid the falling phenomenon when the workers climb, conveniently protect the workers and improve the safety and the practicability; including the base, the top left side and the right side of base all are provided with the lifting structure, and two sets of lifting mechanism installation directions are relative, and lifting mechanism includes first frid, second frid and third frid, and the first frid on the right side lifting mechanism is fixed on the base, and second frid slidable mounting is in the left side of first frid.

Description

Auxiliary supporting frame for mounting of wind power generation equipment in plant area

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to a supporting frame for assisting installation of factory wind power generation equipment.

Background

It is known that wind power generation mainly utilizes wind energy to promote the motor operation and thus produce electric power, current wind power generation equipment obtains very big application in the mill region, it can provide auxiliary electric power to the mill, thereby reduce the operation cost of mill, plant area power generation equipment is when installing, the workman need scramble to the power generation equipment mounted position of eminence, thereby carry out the installation and debugging work of equipment, during the workman scrambles, adopt the climbing skate to assist the climbing work usually, however, adopt this kind of equipment workman physical power consumption great, the climbing degree of difficulty is great, the cost time is longer, influence the power generation equipment installation progress, the easy emergence phenomenon of droing when the workman scrambles simultaneously, cause the tumble injury easily to the workman, lead to security and practicality relatively poor.

Disclosure of Invention

In order to solve the technical problems, the invention provides the auxiliary support frame for the installation of the wind power generation equipment in the plant area, which can effectively save the physical strength and time of workers in climbing, reduce the difficulty of high-altitude operation of the workers, shorten the installation progress of the power generation equipment, avoid the falling phenomenon of the workers in climbing, conveniently protect the workers and improve the safety and the practicability.

The invention relates to a supporting frame for assisting in mounting of factory wind power generation equipment, which comprises a base, wherein the left side and the right side of the top of the base are respectively provided with a lifting structure, the mounting directions of two groups of lifting mechanisms are opposite, each lifting mechanism comprises a first groove plate, a second groove plate and a third groove plate, the first groove plate on the right lifting mechanism is fixed on the base, the second groove plate is slidably mounted on the left side of the first groove plate, the third groove plate is slidably mounted on the left side of the second groove plate, the first groove plate, the second groove plate and the third groove plate can be mutually and slidably connected through a sliding rod and a sliding groove, the front sides of the interiors of the first groove plate, the second groove plate and the third groove plate are respectively and vertically provided with a screw rod, the bottom end and the upper side of each screw rod are respectively and rotatably provided with a first fixing plate, two groups of first fixing plates in the first groove plate are fixed on the inner wall of the first groove plate, two groups of first fixing plates in the second groove plate are fixed on the inner wall of the second groove plate, two groups of first fixing plates in a third groove plate are fixed on the inner wall of the third groove plate, the lower side of each group of lead screws is provided with a screw sleeve in a screw way, the left end of the screw sleeve on the right side is fixed on the second groove plate, the left end of the screw sleeve in the middle part is fixed on the third groove plate, the rear sides of the interiors of the first groove plate, the second groove plate and the third groove plate are vertically provided with power columns, the outer wall of each group of power columns is provided with worm teeth, the bottom end and the upper side of each group of power columns are respectively and rotatably provided with a second fixing plate, two groups of second fixing plates in the first groove plate are fixed on the inner wall of the first groove plate, two groups of second fixing plates in the second groove plate are fixed on the inner wall of the second groove plate, two groups of second fixing plates in the third groove plate are fixed on the inner wall of the third groove plate, the top end of each group of lead screws and the top end of each group of power columns are provided with belt pulleys, the positions of the six groups of belt pulleys correspond to each other, two groups of belt pulleys in corresponding positions are laid with belts and are in a synchronous belt transmission way, guide rails are vertically arranged on the rear side of the inner wall of the first groove plate and the middle part of the inner wall of the second groove plate, the guide rails on the second groove plate are positioned between a screw rod and a power column in the second groove plate, each group of guide rails is provided with a slide block in a sliding manner, each group of slide blocks is provided with a first rotating shaft in a rotating manner, the left end of the first rotating shaft in the first groove plate penetrates through the second groove plate and extends into the second groove plate, the left end of the first rotating shaft in the second groove plate penetrates through a third groove plate and extends into the third groove plate, the left ends of the two groups of first rotating shafts are respectively provided with a third fixing plate in a rotating manner, the bottoms of the two groups of third fixing plates are respectively arranged on the second groove plate and a lower second fixing plate in the third groove plate, the left sides and the right sides of the two groups of first rotating shafts are respectively meshed with the rear side worm teeth of the power column in the first groove plate and the rear side worm teeth of the power column in the second groove plate, two groups of worms on the first rotating shaft on the left side are respectively meshed with the front worm teeth of the power column in the second trough plate and the front worm teeth of the power column in the third trough plate, a lifting frame is arranged on the left lower side of the third trough plate in a sliding manner, the left side of a screw sleeve in the third trough plate is fixed on the lifting frame, the middle part of the top end of the base is transversely communicated with a power groove, a power device is arranged in the power groove, the power device is respectively connected with the bottom ends of screw rods in the first trough plate on the two groups of lifting mechanisms in a transmission manner, a lifting plate is arranged above the middle part of the base, the left side and the right side of the lifting plate are respectively connected with the two groups of lifting frames, a guardrail is arranged on the lifting plate, a mounting frame is arranged on the rear side of the top of the guardrail, a central control box is arranged on the mounting frame, and the central control box is electrically connected with the power device; the lifting mechanism works in such a way that the central control box controls the power device to be opened, the power device drives the screw rod in the first trough plate to rotate, the screw rod in the first trough plate drives the screw sleeve on the screw rod to move up and down, the screw sleeve in the first trough plate drives the second trough plate to move up and down, so that the second trough plate slides on the first trough plate, meanwhile, the screw rod in the rotating first trough plate drives the power column in the first trough plate to rotate through two groups of belt pulleys and belts in the first trough plate, the power column in the first trough plate drives the worm on the right side of the first right shaft to rotate, so as to drive the worms on the left sides of the first right shaft and the first right shaft to rotate, the worm on the right side of the first right shaft drives the power column in the second trough plate to rotate, the power column in the second trough plate drives the screw rod in the second trough plate to rotate through two groups of belt pulleys and belts in the second trough plate, meanwhile, a power column in the second trough plate drives a worm on the left side of the left first rotating shaft and a power column in the third trough plate to rotate through a worm on the right side of the left first rotating shaft, a lead screw in the second trough plate drives a screw sleeve on the lead screw to move up and down, the screw sleeve in the second trough plate drives a third trough plate to slide up and down on the second trough plate, meanwhile, the power column in a rotating state in the third trough plate drives a lead screw in the third trough plate to rotate through two groups of belt pulleys and belts in the third trough plate, the lead screw in the third trough plate drives the screw sleeve on the lead screw to move up and down, the screw sleeve in the third trough plate drives a lifting frame to slide up and down on the third trough plate, so that the second trough plate, the third trough plate and the lifting frame move up and down in a stepped manner, and when the second trough plate and the third trough plate move, the second trough plate and the third trough plate respectively drive two groups of first rotating shafts to move, two sets of worms on the right side of the first rotating shaft respectively move on a power column in the first trough plate and a power column in the second trough plate, the worms on the right side of the two sets of first rotating shafts are respectively in a meshed state with the power column in the first trough plate and the power column in the second trough plate, the two sets of first rotating shafts respectively drive two sets of sliding blocks to slide on two sets of guide rails, two sets of third fixing plates respectively support the two sets of first rotating shafts, when external wind power generation equipment needs to be installed, workers can stand on the lifting plates, guardrails can block the workers to prevent the workers from falling down, the central control box controls the power device to operate, the power device drives the two sets of lifting mechanisms to operate, lifting frames in the two sets of lifting mechanisms synchronously move upwards, the two sets of lifting frames drive the lifting plates to move upwards, the lifting plates can lift the workers and automatically drive the workers to move upwards to the installation position of the high-level power generation equipment, thereby make things convenient for the workman to carry out installation and debugging to wind power generation equipment, every first fixed plate of group and every second fixed plate of group can support rather than the lead screw and the power column that correspond respectively, carry out automatic lifting and remove through driving the workman, physical power and time when can effectively saving the workman and scramble reduce the workman high altitude construction degree of difficulty, shorten the power generation equipment installation progress, the phenomenon of falling takes place when avoiding the workman to scramble simultaneously, conveniently protect the workman, improve security and practicality.

The invention relates to a supporting frame for auxiliary installation of factory wind power generation equipment, which comprises a power device, two groups of second rotating shafts, two groups of first bevel gears, a third rotating shaft, two groups of second bevel gears, a motor and a speed reducer, wherein the two groups of second rotating shafts are respectively installed on a lower side first fixing plate in first trough plates on two groups of lifting mechanisms, the top ends of the two groups of second rotating shafts respectively penetrate through the lower side first fixing plates in the two groups of first trough plates and are respectively in transmission connection with the bottom ends of screw rods in the two groups of first trough plates, the two groups of first bevel gears are respectively installed on the two groups of second rotating shafts, the two groups of first bevel gears are both positioned in a power trough, the third rotating shafts are both rotatably installed on the inner wall of the power trough, the two groups of second bevel gears are respectively installed on the left side and the right side of the third rotating shafts, the upper sides of the two groups of second bevel gears are respectively engaged with the outer sides of the two groups of first bevel gears, the motor is arranged at the lower right side of the first right slotted plate, the speed reducer is arranged at the right side of the base, the motor and the speed reducer are mutually connected in a transmission manner, the left output end of the speed reducer penetrates through the base and is connected with the right end of the third rotating shaft in a transmission manner, and the motor is electrically connected with the central control box; the motor is opened in the control of well accuse case control, and the motor can drive the reduction gear operation, and the reduction gear drives the rotation of third pivot, and the third pivot drives the lead screw rotation in two sets of first frills respectively through two sets of second bevel gears, two sets of first bevel gears and two sets of second pivots to drive equipment operation, through the positive and negative rotation of control motor, steerable lifting plate reciprocates.

The auxiliary supporting frame for mounting the wind power generation equipment in the plant area further comprises two groups of telescopic shields, the bottoms of the two groups of telescopic shields are respectively mounted on the two groups of lifting frames, and the tops of the two groups of telescopic shields are respectively mounted on the upper sides of the two groups of third trough plates; when two sets of lifting frames reciprocate, two sets of lifting frames drive two sets of flexible guard shields respectively and carry out concertina movement, through setting up two sets of flexible guard shields, can conveniently keep apart the equipment in two sets of third frids and shelter from, prevent that its operation from causing the injury to the workman, improve practicality and reliability.

The auxiliary supporting frame for the installation of the factory wind power generation equipment also comprises two groups of cambered plates, wherein the two groups of cambered plates are respectively transversely installed on the front side and the rear side of the top of the base; through setting up two sets of bows, can conveniently lift two sets of second frid, two sets of third frid and the board of lifting when equipment is idle, prevent that equipment from idle for a long time, the board of lifting causes equipment fatigue damage to equipment long-time suppression, improves the practicality.

The auxiliary supporting frame for the installation of the plant wind power generation equipment further comprises a first contact switch, the first contact switch is installed on the base, the top of the first contact switch is in contact with the bottom of the lifting plate, and the first contact switch is electrically connected with the central control box; when initial position when lifting board downstream, the board of lifting contacts with first contact switch top, and first contact switch is with contact signal transmission to well accuse incasement, and well accuse case control closes the motor, through setting up first contact switch, can conveniently fix a position and spacing lifting board downstream position, prevents that equipment from colliding the harm, improves the practicality.

The auxiliary supporting frame for mounting the plant wind power generation equipment further comprises two groups of fourth fixing plates and two groups of second contact switches, wherein the two groups of fourth fixing plates are respectively mounted on the outer side walls of the two groups of second groove plates; when the swivel nut in two sets of first frid moved up, the swivel nut in two sets of first frids can be respectively with two sets of second contact switch contacts, two sets of second contact switch can be with contact signal transmission to well accuse incasement, well accuse case control closes the motor, through setting up two sets of fourth fixed plates and two sets of second contact switch, can conveniently carry on spacingly to the swivel nut rebound position in two sets of first frids, thereby carry on spacingly to the board rebound position that lifts, prevent that equipment internals from colliding, improve the practicality.

According to the auxiliary support frame for mounting the plant wind power generation equipment, a plurality of groups of stabilizing sleeves are uniformly and rotatably arranged on the third rotating shaft, stabilizing plates are arranged at the bottoms of the stabilizing sleeves, and the bottoms of the stabilizing plates are fixed at the bottom of the inner wall of the power groove; through setting up the stable cover of multiunit and multiunit steadying plate, can conveniently support and fix the third pivot, stability and fastness when improving the third pivot rotation improve the practicality.

The auxiliary supporting frame for mounting the plant wind power generation equipment also comprises four groups of self-locking universal wheels, wherein the four groups of self-locking universal wheels are uniformly mounted at the bottom of the base; through setting up four auto-lock universal wheels of group, can conveniently remove equipment to make things convenient for equipment to shift work place, improve practicality and reliability.

Compared with the prior art, the invention has the beneficial effects that: the lifting mechanism works in such a way that the central control box controls the power device to be opened, the power device drives the screw rod in the first groove plate to rotate, the screw sleeve in the first groove plate drives the screw sleeve on the screw rod to move up and down, the screw sleeve in the first groove plate drives the second groove plate to move up and down, so that the second groove plate slides on the first groove plate, meanwhile, the screw rod in the first groove plate in a rotating state drives the power column in the first groove plate to rotate through two groups of belt pulleys and belts in the first groove plate, the power column in the first groove plate drives the worm on the right side of the first right shaft to rotate, so as to drive the worm on the left sides of the first right shaft and the first right shaft to rotate, the worm on the left side of the first right shaft drives the power column in the second groove plate to rotate, the power column in the second groove plate drives the screw rod in the second groove plate to rotate through two groups of belt pulleys and belts in the second groove plate, meanwhile, a power column in the second groove plate drives a worm on the left side of the first rotating shaft on the left side and a power column in the third groove plate to rotate through a worm on the right side of the first rotating shaft on the left side, a lead screw in the second groove plate drives a screw sleeve on the lead screw to move up and down, the screw sleeve in the second groove plate drives a third groove plate to slide up and down on the second groove plate, meanwhile, the power column in a rotating state in the third groove plate drives a lead screw in the third groove plate to rotate through two groups of belt pulleys and belts in the third groove plate, the lead screw in the third groove plate drives the screw sleeve on the lead screw to move up and down, the screw sleeve in the third groove plate drives a lifting frame to slide up and down on the third groove plate, so that the second groove plate, the third groove plate and the lifting frame move up and down in a stepped manner, when the second groove plate and the third groove plate move, the second groove plate and the third groove plate drive the first rotating shafts to move respectively, two sets of worms on the right side of the first rotating shaft respectively move on a power column in the first trough plate and a power column in the second trough plate, the worms on the right side of the two sets of first rotating shafts are respectively in a meshed state with the power column in the first trough plate and the power column in the second trough plate, the two sets of first rotating shafts respectively drive two sets of sliding blocks to slide on two sets of guide rails, two sets of third fixing plates respectively support the two sets of first rotating shafts, when external wind power generation equipment needs to be installed, workers can stand on the lifting plates, guardrails can block the workers to prevent the workers from falling down, the central control box controls the power device to operate, the power device drives the two sets of lifting mechanisms to operate, lifting frames in the two sets of lifting mechanisms synchronously move upwards, the two sets of lifting frames drive the lifting plates to move upwards, the lifting plates can lift the workers and automatically drive the workers to move upwards to the installation position of the high-level power generation equipment, thereby make things convenient for the workman to carry out installation and debugging to wind power generation equipment, every first fixed plate of group and every second fixed plate of group can support rather than the lead screw and the power column that correspond respectively, carry out automatic lifting and remove through driving the workman, physical power and time when can effectively saving the workman and scramble reduce the workman high altitude construction degree of difficulty, shorten the power generation equipment installation progress, the phenomenon of falling takes place when avoiding the workman to scramble simultaneously, conveniently protect the workman, improve security and practicality.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic top right oblique view of the present invention;

FIG. 3 is a front oblique view of the interior of the first slot plate of FIG. 1;

FIG. 4 is a rear side oblique view of the interior of the first slot plate of FIG. 1;

FIG. 5 is a schematic top view of the base of FIG. 1;

FIG. 6 is an enlarged schematic view of the motor of FIG. 3;

FIG. 7 is an enlarged schematic view of the pulley of FIG. 3;

FIG. 8 is an enlarged view of the worm of FIG. 4;

in the drawings, the reference numbers: 1. a base; 2. a first slot plate; 3. a second slot plate; 4. a third slot plate; 5. a lead screw; 6. a first fixing plate; 7. a threaded sleeve; 8. a power column; 9. a second fixing plate; 10. a belt pulley; 11. a belt; 12. a guide rail; 13. a slider; 14. a first rotating shaft; 15. a third fixing plate; 16. a worm; 17. a lifting frame; 18. a lifting plate; 19. a guardrail; 20. a mounting frame; 21. a central control box; 22. a second rotating shaft; 23. a first bevel gear; 24. a third rotating shaft; 25. a second bevel gear; 26. a motor; 27. a speed reducer; 28. a telescopic shield; 29. an arcuate plate; 30. a first contact switch; 31. a fourth fixing plate; 32. a second contact switch; 33. a stabilizing sleeve; 34. a stabilizing plate; 35. self-locking universal wheel.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

As shown in fig. 1 to 8, when the auxiliary supporting frame for installation of factory wind power generation equipment of the present invention works, the lifting mechanism works in a manner that the central control box 21 controls to turn on the power device, the power device drives the screw 5 in the first slot plate 2 to rotate, the screw 5 in the first slot plate 2 drives the screw sleeve 7 thereon to move up and down, the screw sleeve 7 in the first slot plate 2 drives the second slot plate 3 to move up and down, so that the second slot plate 3 slides on the first slot plate 2, meanwhile, the screw 5 in the first slot plate 2 in a rotating state drives the power column 8 in the first slot plate 2 to rotate through two sets of belt pulleys 10 and belts 11 in the first slot plate 2, the power column 8 in the first slot plate 2 drives the worm 16 on the right side of the first right rotating shaft 14 to rotate, so as to drive the first right rotating shaft 14 and the worm 16 on the left side of the first right rotating shaft 14 to rotate, the worm 16 on the left side of the right first rotating shaft 14 drives the power column 8 in the second trough plate 3 to rotate, the power column 8 in the second trough plate 3 drives the screw 5 in the second trough plate 3 to rotate through two sets of belt pulleys 10 and belts 11 in the second trough plate 3, meanwhile, the power column 8 in the second trough plate 3 drives the worm 16 on the left side of the left first rotating shaft 14 and the power column 8 in the third trough plate 4 to rotate through the worm 16 on the right side of the left first rotating shaft 14, the screw 5 in the second trough plate 3 drives the screw sleeve 7 thereon to move up and down, the screw sleeve 7 in the second trough plate 3 drives the third trough plate 4 to slide up and down on the second trough plate 3, meanwhile, the power column 8 in a rotating state in the third trough plate 4 drives the screw 5 in the third trough plate 4 to rotate through two sets of belt pulleys 10 and belts 11 in the third trough plate 4, the screw sleeve 5 in the third trough plate 4 drives the screw sleeve 7 thereon to move up and down, the screw sleeve 7 in the third slot plate 4 drives the lifting frame 17 to slide up and down on the third slot plate 4, so that the second slot plate 3, the third slot plate 4 and the lifting frame 17 move up and down in a ladder shape, when the second slot plate 3 and the third slot plate 4 move, the second slot plate 3 and the third slot plate 4 respectively drive two groups of first rotating shafts 14 to move, the worms 16 on the right sides of the two groups of first rotating shafts 14 respectively move on the power columns 8 in the first slot plate 2 and the power columns 8 in the second slot plate 3, the worms 16 on the right sides of the two groups of first rotating shafts 14 respectively are in a meshed state with the power columns 8 in the first slot plate 2 and the power columns 8 in the second slot plate 3, meanwhile, the two groups of first rotating shafts 14 respectively drive the two groups of sliders 13 to slide on the two groups of guide rails 12, the two groups of third fixing plates 15 respectively support the two groups of first rotating shafts 14, when external wind power generation equipment needs to be installed, the workman can stand on lifting plate 18, guardrail 19 can block the workman, prevent that the workman from taking place to fall the phenomenon, well accuse case 21 control power device operation, power device drives two sets of lifting mechanism operation, lifting frame 17 in two sets of lifting mechanism moves upwards in step, two sets of lifting frame 17 drive lifting plate 18 rebound, lifting plate 18 can lift the workman and automatically drive the power generating equipment mounted position of workman rebound to the eminence, thereby make things convenient for the workman to carry out the installation and debugging to wind power generating equipment, every first fixed plate of group 6 and every second fixed plate of group 9 can support rather than corresponding lead screw 5 and power column 8 respectively.

The main functions realized by the invention are as follows: the worker is driven to automatically lift and move, so that the physical strength and time of the worker in climbing can be effectively saved, the difficulty of high-altitude operation of the worker is reduced, the installation progress of power generation equipment is shortened, meanwhile, the falling phenomenon of the worker in climbing is avoided, and the worker is protected conveniently; the power device works in a mode that the central control box 21 controls the motor 26 to be turned on, the motor 26 can drive the speed reducer 27 to run, the speed reducer 27 drives the third rotating shaft 24 to rotate, the third rotating shaft 24 respectively drives the screw rods 5 in the two groups of first trough plates 2 to rotate through the two groups of second bevel gears 25, the two groups of first bevel gears 23 and the two groups of second rotating shafts 22, so that the equipment is driven to run, and the lifting plates 18 can be controlled to move up and down by controlling the forward and reverse rotation of the motor 26; when the two groups of lifting frames 17 move up and down, the two groups of lifting frames 17 respectively drive the two groups of telescopic shields 28 to perform telescopic motion, and the equipment in the two groups of third trough plates 4 can be conveniently isolated and shielded by arranging the two groups of telescopic shields 28, so that the equipment is prevented from causing injury to workers during operation; by arranging the two groups of the cambered plates 29, the two groups of the second groove plates 3, the two groups of the third groove plates 4 and the lifting plates 18 can be lifted conveniently when the equipment is idle, so that the equipment is prevented from being idle for a long time, and the lifting plates 18 press the equipment for a long time to cause fatigue damage to the equipment; when the lifting plate 18 moves downwards, at the initial position, the lifting plate 18 is in contact with the top of the first contact switch 30, the first contact switch 30 transmits a contact signal into the central control box 21, the central control box 21 controls the motor 26 to be turned off, and the downward movement position of the lifting plate 18 can be conveniently positioned and limited by arranging the first contact switch 30, so that the equipment is prevented from being damaged by collision; when the screw sleeves 7 in the two groups of first trough plates 2 move upwards, the screw sleeves 7 in the two groups of first trough plates 2 can be respectively contacted with the two groups of second contact switches 32, the two groups of second contact switches 32 can transmit contact signals into the central control box 21, the central control box 21 controls the motor 26 to be turned off, and the upward moving positions of the screw sleeves 7 in the two groups of first trough plates 2 can be conveniently limited by arranging the two groups of fourth fixing plates 31 and the two groups of second contact switches 32, so that the upward moving positions of the lifting plates 18 are limited, and the collision of internal components of the equipment is prevented; by arranging a plurality of groups of stabilizing sleeves 33 and a plurality of groups of stabilizing plates 34, the third rotating shaft 24 can be conveniently supported and fixed, and the stability and firmness of the third rotating shaft 24 during rotation are improved; through setting up four auto-lock universal wheels 35 of group, can conveniently remove equipment to make things convenient for equipment to shift work place, improve practicality and reliability.

The auxiliary support frame for mounting the factory wind power generation equipment is implemented in a common mechanical mode in an installation mode, a connection mode or a setting mode as long as the beneficial effects of the support frame can be achieved; the center control box 21, the telescopic shield 28, the first contact switch 30, and the second contact switch 32 are commercially available.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims

1. The supporting frame for assisting in mounting of the wind power generation equipment in the plant area is characterized by comprising a base (1), lifting structures are arranged on the left side and the right side of the top of the base (1), the mounting directions of two groups of lifting mechanisms are opposite, each lifting mechanism comprises a first groove plate (2), a second groove plate (3) and a third groove plate (4), the first groove plates (2) on the right lifting mechanisms are fixed on the base (1), the second groove plates (3) are slidably mounted on the left side of the first groove plates (2), the third groove plates (4) are slidably mounted on the left side of the second groove plates (3), the first groove plates (2), the second groove plates (3) and the third groove plates (4) can be slidably connected with each other through sliding rods and sliding grooves, the front sides inside the first groove plates (2), the second groove plates (3) and the third groove plates (4) are vertically provided with lead screws (5), and a first fixing plate (6) is rotatably arranged at the bottom end and the upper side of each group of each lead screw (5), two groups of first fixing plates (6) in the first trough plate (2) are fixed on the inner wall of the first trough plate (2), two groups of first fixing plates (6) in the second trough plate (3) are fixed on the inner wall of the second trough plate (3), two groups of first fixing plates (6) in the third trough plate (4) are fixed on the inner wall of the third trough plate (4), the lower side of each group of lead screws (5) is provided with screw sleeves (7) in a screw way, the left end of the right screw sleeve (7) is fixed on the second trough plate (3), the left end of the middle screw sleeve (7) is fixed on the third trough plate (4), the rear sides in the first trough plate (2), the second trough plate (3) and the third trough plate (4) are vertically provided with power columns (8), the outer walls of the power columns (8) are provided with worm teeth, the bottom ends and the upper sides of each group of power columns (8) are rotatably provided with second fixing plates (9), the second fixing plates (9) in the first trough plate (2) are fixed on the inner walls of the second trough plate (9), two groups of second fixing plates (9) in the second groove plate (3) are fixed on the inner wall of the second groove plate (3), two groups of second fixing plates (9) in the third groove plate (4) are fixed on the inner wall of the third groove plate (4), belt pulleys (10) are arranged at the top end of each group of lead screws (5) and the top end of each group of power columns (8), the positions of the six groups of belt pulleys (10) correspond to each other in pairs, belts (11) are laid on the two groups of belt pulleys (10) at the corresponding positions and are synchronously transmitted through the belts (11), guide rails (12) are vertically arranged at the rear side of the inner wall of the first groove plate (2) and the middle part of the inner wall of the second groove plate (3), the guide rails (12) on the second groove plate (3) are positioned between the lead screws (5) and the power columns (8) in the second groove plate (3), slide blocks (13) are arranged on each group of guide rails (12) in a sliding mode, and a first rotating shaft (14) is arranged on each group of slide blocks (13), the left end of a first rotating shaft (14) in a first groove plate (2) penetrates through a second groove plate (3) and extends into the second groove plate (3), the left end of the first rotating shaft (14) in the second groove plate (3) penetrates through a third groove plate (4) and extends into the third groove plate (4), the left ends of two groups of first rotating shafts (14) are rotatably provided with third fixing plates (15), the bottoms of the two groups of third fixing plates (15) are respectively installed on lower second fixing plates (9) in the second groove plate (3) and the third groove plate (4), the left side and the right side of the two groups of first rotating shafts (14) are respectively provided with worms (16), the two groups of worms (16) on the right first rotating shaft (14) are respectively meshed with rear side worm teeth of a power column (8) in the first groove plate (2) and rear side teeth of the power column (8) in the second groove plate (3), and the two groups of worms (16) on the left first rotating shaft are respectively meshed with front side teeth of the second groove plate (3) and worm column (8) in the third groove plate (3) (4) Interior power post (8) front side worm gear meshing, the lower side of the left side of third frid (4) slides and is provided with lifting frame (17), swivel nut (7) left side in third frid (4) is fixed on lifting frame (17), base (1) top middle part transversely communicates and is provided with the power groove, the power inslot is provided with power device, power device is connected with lead screw (5) bottom transmission in first frid (2) on two sets of lifting mechanism respectively, the middle part top of base (1) is provided with lifting plate (18), the left side and the right side of lifting plate (18) are connected with two sets of lifting frame (17) respectively, be provided with guardrail (19) on lifting plate (18), the top rear side of guardrail (19) is provided with mounting bracket (20), be provided with well accuse case (21) on mounting bracket (20), well accuse case (21) is connected with power device electricity.

2. The auxiliary supporting frame for the installation of factory wind power generation equipment according to claim 1, wherein the power device comprises two sets of second rotating shafts (22), two sets of first bevel gears (23), a third rotating shaft (24), two sets of second bevel gears (25), a motor (26) and a reducer (27), the two sets of second rotating shafts (22) are respectively installed on the lower first fixing plates (6) in the first slot plates (2) on the two sets of lifting mechanisms, the top ends of the two sets of second rotating shafts (22) respectively penetrate through the lower first fixing plates (6) in the two sets of first slot plates (2) and are respectively in transmission connection with the bottom ends of the screw rods (5) in the two sets of first slot plates (2), the two sets of first bevel gears (23) are respectively installed on the two sets of second rotating shafts (22), the two sets of first bevel gears (23) are both located in the power slots, the third rotating shaft (24) is located in the power slots, the left side and the right side of third pivot (24) are all rotated and are installed on the inner wall of power groove, install the left side and the right side at third pivot (24) respectively two sets of second bevel gears (25), the upside of two sets of second bevel gears (25) meshes with the outside of two sets of first bevel gear (23) respectively, motor (26) are installed in the first frid (2) right side downside in right side, reduction gear (27) are installed on the right side of base (1), motor (26) and reduction gear (27) interconnect transmission are connected, the left side output of reduction gear (27) passes base (1) and is connected with the right-hand member transmission of third pivot (24), motor (26) are connected with well accuse case (21) electricity.

3. The auxiliary supporting frame for the installation of the factory wind power generation equipment according to claim 2, characterized by further comprising two sets of telescopic shields (28), wherein the bottoms of the two sets of telescopic shields (28) are respectively installed on the two sets of lifting frames (17), and the tops of the two sets of telescopic shields (28) are respectively installed on the upper sides of the two sets of third slot plates (4).

4. The supporting frame for assisting in installing the wind power generation equipment in the factory floor according to claim 3, further comprising two sets of the arched plates (29), wherein the two sets of the arched plates (29) are respectively installed on the front side and the rear side of the top of the base (1) in the transverse direction, the left side and the right side of the top ends of the two sets of the arched plates (29) are respectively contacted with the bottoms of the two sets of the second trough plates (3) and the two sets of the third trough plates (4), and the middle parts of the top ends of the two sets of the arched plates (29) are respectively contacted with the bottoms of the lifting plates (18).

5. A support frame for auxiliary installation of wind power plants on a factory floor according to claim 4, further comprising a first contact switch (30), wherein the first contact switch (30) is installed on the base (1), the top of the first contact switch (30) is in contact with the bottom of the lifting plate (18), and the first contact switch (30) is electrically connected with the central control box (21).

6. The auxiliary support frame for installing factory wind power equipment according to claim 5, further comprising two sets of fourth fixing plates (31) and two sets of second contact switches (32), wherein the two sets of fourth fixing plates (31) are respectively installed on the outer side walls of the two sets of second groove plates (3), the two sets of second contact switches (32) are respectively installed on the two sets of fourth fixing plates (31), the positions of the two sets of second contact switches (32) respectively correspond to the positions of the screw sleeves (7) in the two sets of first groove plates (2), and the two sets of second contact switches (32) are electrically connected with the central control box (21).

7. A supporting frame for auxiliary installation of factory wind power generation equipment according to claim 6, characterized in that a plurality of groups of stabilizing sleeves (33) are uniformly and rotatably arranged on the third rotating shaft (24), a stabilizing plate (34) is arranged at the bottom of each group of stabilizing sleeves (33), and the bottom of each group of stabilizing plates (34) is fixed at the bottom of the inner wall of the power groove.

8. The auxiliary support frame for the installation of factory wind power generation equipment according to claim 7, further comprising four sets of self-locking universal wheels (35), wherein the four sets of self-locking universal wheels (35) are uniformly installed at the bottom of the base (1).