CN110329914B - Modular install photovoltaic power plant corollary equipment fast - Google Patents

Abstract

The invention discloses a combined type photovoltaic power station rapid installation supporting device which comprises a hoisting frame, wherein a movable main cavity is arranged in the hoisting frame, a transmission mechanism is arranged in the movable main cavity, the transmission mechanism comprises a transmission motor, a forward output shaft of the transmission motor is fixedly connected with a transmission main rod, a transmission main bevel gear and a transmission main electromagnet are fixedly arranged on the transmission main rod, the transmission main bevel gear is meshed with a transmission auxiliary bevel gear, a locking wheel in the locking mechanism controls the movement of a limiting thread block, the limiting thread block drives a clamping block to move, the limiting block is clamped by the clamping block, so that the hoisting machine is not deviated from the moving position when moving back and forth, the transmission motor in the transmission mechanism controls the transmission main rod to rotate by transmitting the main electromagnet, the transmission auxiliary rod is controlled to rotate by the transmission auxiliary electromagnet, so that the hoisting machine can be selected to move back and forth, left and right, or simultaneously.

Description

Modular install photovoltaic power plant corollary equipment fast

Technical Field

The invention relates to the technical field of photovoltaic panel assembly, in particular to a combined type photovoltaic power station corollary device capable of being installed quickly.

Background

The photovoltaic panel is an important photovoltaic power station corollary device, and needs to be assembled quickly during production, at present, hoisting devices adopted in the photovoltaic panel assembling process are generally transversely arranged on a workshop guide rail, and the potential danger of separating from a moving position exists in the operation process, so that a hoisting machine can fall off, and the life and health are damaged; in addition, the existing hoisting machine is driven by different motors in the front-back left-right moving process, so that the whole device is complicated in motor and difficult to maintain, and the use cost is greatly increased.

Disclosure of Invention

The invention aims to provide a combined type photovoltaic power station corollary device capable of being installed quickly, which is used for overcoming the defects in the prior art.

The combined type rapid-installation photovoltaic power station corollary equipment comprises a hoisting frame, wherein a movable main cavity is arranged in the hoisting frame, a transmission mechanism is arranged in the movable main cavity, the transmission mechanism comprises a transmission motor, a forward output shaft of the transmission motor is fixedly connected with a transmission main rod, a transmission main bevel gear and a transmission main electromagnet are fixedly installed on the transmission main rod, the transmission main bevel gear is meshed with a transmission auxiliary bevel gear, a movable transmission cavity is arranged on the left side of the movable main cavity, a movable transmission main gear and a movable transmission auxiliary gear are arranged in the movable transmission cavity, a movable moving mechanism is arranged on the rear side of the transmission mechanism, the moving mechanism comprises a movable auxiliary rod and a movable lead screw, a movable main wheel is fixedly installed on the movable lead screw, the movable lead screw is provided with a movable main bevel gear and a gravity moving box, a gravity mechanism is arranged on the right side of the moving mechanism, the gravity mechanism comprises a, the gravity motor is output shaft fixed connection gravity motor pole left, fixed mounting gravity master gear on the gravity motor pole, still be equipped with gravity wheel and gravity logical chamber in the gravity mechanism, the gravity takes turns to around having acted as go-between, the gravity mechanism below is equipped with hoist mechanism, hoist mechanism includes wire winding auxiliary block and lifting block, is equipped with lifting wheel and hook on the lifting block, is equipped with wire winding auxiliary wheel in the wire winding auxiliary block, the drive mechanism below is equipped with locking mechanical system, locking mechanical system includes locking wheel and restriction piece, and fixed mounting locking main threaded rod is taken turns to in the locking, is equipped with the draw-in groove in the restriction piece, locking mechanical system still includes the restriction screw thread chamber, restriction screw thread intracavity sliding fit installation restriction screw thread piece and fixture block.

A further technical scheme is that the transmission mechanism comprises a movable transmission cavity arranged on the left side of the movable main cavity, a sliding main fixed block is arranged below the hoisting frame, motor slide rails are fixedly installed on the top end face of the sliding main fixed block in a bilateral symmetry mode, a transmission box is installed on the motor slide rails in a sliding fit mode, a transmission main cavity is arranged in the transmission box, a transmission auxiliary cavity is arranged on the rear side of the transmission main cavity, a transmission main rod penetrates through the front inner wall of the transmission auxiliary cavity in a rear end face fixed mode of a backward output shaft of the transmission motor, a pair of transmission main limiting blocks are fixedly installed on the transmission main rod, a transmission main electromagnet is fixedly installed on the rear side of the transmission main limiting blocks on the transmission main rod, a transmission main bevel gear is fixedly installed on the rear end face of the transmission main rod, and the movable main rod penetrates through the transmission auxiliary cavity and the right inner wall of the movable transmission cavity, remove to be located on the mobile jib the vice secondary bevel gear of transmission auxiliary cavity internal fixation transmission, the vice bevel gear of transmission with the meshing of transmission main bevel gear, remove the main cavity right side be equipped with the transmission auxiliary cavity of transmission main cavity intercommunication, normal running fit installation transmission auxiliary rod between the side inner wall around the transmission auxiliary cavity, the vice stopper of a pair of transmission of fixed mounting on the transmission auxiliary rod, be located on the transmission auxiliary rod the vice electro-magnet of the vice stopper rear side fixed mounting transmission, be located on the transmission auxiliary rod the vice bevel gear of the vice electro-magnet rear side fixed mounting removal of transmission, transmission main stopper with transmission cooperation installation driving belt between the vice stopper of transmission.

A further technical scheme is that the moving mechanism comprises a moving transmission main gear fixedly installed on the left end face of the moving main rod, a moving auxiliary rod which is arranged in the inner wall of the right side of the moving main rod and penetrates through the inner wall of the right side of the moving transmission cavity in a rotating and matching manner is arranged on the rear side of the moving main rod, a moving transmission auxiliary gear is fixedly installed on the left end face of the moving auxiliary rod and moves a transmission chain in a transmission and matching manner, a moving main wheel is fixedly installed on the moving main rod and the moving auxiliary rod in a bilateral symmetry manner, a moving main groove with an upward opening is symmetrically arranged on the top end face of the sliding main fixed block in a bilateral symmetry manner, the moving main wheel is installed in a sliding and matching manner with the moving main groove, a gravity cavity with an upward opening is arranged on the right side of the moving main rod, and a moving lead screw which penetrates through the transmission auxiliary cavity, remove lead screw left side terminal surface fixed mounting and remove main bevel gear, remove main bevel gear with remove vice bevel gear meshing, fixed mounting removes the slide bar between the inner wall of the left and right sides of gravity chamber, the gravity intracavity be equipped with remove lead screw thread fit and with remove slide bar sliding fit's gravity removal case, gravity chamber right side is equipped with the vice chamber of removal that the opening is decurrent, remove the vice chamber and control symmetrical normal running fit installation removal auxiliary rod around in the inner wall of the left and right sides of chamber, around remove on the auxiliary rod bilateral symmetry fixed mounting and remove the auxiliary wheel, it is equipped with the vice fixed block of slip to remove vice chamber below, the vice fixed block top terminal surface bilateral symmetry of slip is equipped with the ascending vice groove of removal of opening, remove the vice groove with remove the vice wheel sliding fit installation.

The technical scheme is further characterized in that the locking mechanism comprises a limiting block fixedly installed on the end face of the bottom of the hoisting frame, the end face of the top of the sliding main fixing block is positioned on the left side of the left moving main groove and is provided with a limiting groove locking auxiliary gear with an upward opening, the limiting block and the limiting groove locking auxiliary gear are installed in a sliding fit manner, the left side and the right side of the limiting groove locking auxiliary gear are provided with locking transmission cavities, a limiting thread cavity is symmetrically arranged between the left locking transmission cavity and the right locking transmission cavity in a left-right manner, a limiting thread block and a clamping block are installed in the limiting thread cavity in a sliding fit manner, a limiting spring is fixedly installed between the limiting thread block and the clamping block, a limiting thread hole with an opposite opening is arranged in the left limiting thread block, a locking main threaded rod penetrating through the end face of the left side of the, the locking main threaded rod is fixedly provided with a locking wheel on the left end face, the locking main threaded rod is installed with the left limiting threaded hole in a thread fit manner, a locking main gear is fixedly installed on the locking main threaded rod, a locking transmission rod is installed between the left locking transmission cavity and the right locking transmission cavity in a rotating fit manner, locking auxiliary gears are fixedly installed on the left end faces and the right side of the locking transmission rod in a thread fit manner, a locking main chain is installed between the locking main gear and the left locking auxiliary gear in a transmission fit manner, a locking auxiliary threaded rod is installed between the right limiting threaded cavity and the right locking transmission cavity in a transmission fit manner, the locking auxiliary threaded rod is installed with the right limiting threaded hole in a thread fit manner, a limiting groove locking auxiliary gear is fixedly installed on the right end face of the locking auxiliary threaded rod, and a locking auxiliary chain is installed, the limiting block is characterized in that clamping grooves are formed in the end faces of the left side and the right side of the limiting block, and the clamping grooves are in sliding fit with the clamping blocks.

A further technical scheme, the gravity mechanism comprises a gravity main fixed block fixedly installed on the top end face of the gravity movable box, a gravity fixed cavity is arranged in the gravity main fixed block, the top end face of the gravity movable box is located on the right side of the gravity main fixed block, a gravity motor rod penetrating through the inner wall of the gravity fixed cavity at the right side is fixedly installed on the left end face of an output shaft of the gravity motor to the left, a gravity main gear is fixedly installed on the left end face of the gravity motor rod, the top end face of the gravity movable box is located on the right side of the gravity main fixed block, a gravity rotating rod penetrating through the inner wall of the gravity fixed cavity at the right side is installed in a rotating and matching manner on the left end face of the gravity auxiliary fixed block, a gravity fixed cavity is fixedly installed on the left end face of the rotating rod, and a gravity chain is installed between the gravity fixed cavity, the gravity wheel is fixedly installed on the gravity rotating rod in a bilateral symmetry mode, a pull line is wound on the gravity wheel, a through moving cavity is formed in the bottom wall of the gravity cavity, and the gravity moving box is located on the gravity wheel, below the gravity wheel, the gravity moving box is provided with a gravity through cavity communicated with the through moving cavity.

A further technical proposal is that the lifting mechanism comprises a winding auxiliary block fixedly arranged on the bottom end face of the gravity shifting box, a winding auxiliary cavity is arranged in the winding auxiliary block, a winding auxiliary rod is fixedly arranged between the left and right inner walls of the winding auxiliary cavity, a winding auxiliary wheel is arranged on the winding auxiliary rod in a rotating fit manner, a lifting block is arranged below the winding auxiliary block, a lifting cavity with an upward opening is arranged in the lifting block, a lifting rod is arranged between the left and right inner walls of the lifting cavity in a rotating fit manner, a lifting wheel is fixedly arranged on the lifting rod, left and right stay wires are wound on the winding auxiliary wheel after bypassing the lifting wheel and are fixedly arranged on the bottom wall of the winding auxiliary cavity, a hook is fixedly arranged on the bottom end face of the lifting block, and the sliding main fixing block and the sliding auxiliary fixing block are fixed on a fixing device fixing platform in a, and a device fixing rod is fixedly arranged between the left device fixing table and the right device fixing table.

The invention has the beneficial effects that: the invention has simple structure and convenient operation, the locking wheel in the locking mechanism controls and limits the movement of the thread block, the thread block is limited to drive the fixture block to move, the limiting block is clamped by the fixture block, the hoisting machine is ensured not to deviate from the moving position when moving back and forth, the safety of operators is ensured, the transmission motor in the transmission mechanism controls the transmission main rod to rotate by transmitting the main electromagnet, the transmission auxiliary rod to rotate by transmitting the auxiliary electromagnet, the hoisting machine can be selected to move back and forth or left and right or move simultaneously, one motor is used for controlling, the maintenance is convenient, and the invention is worthy of popularization.

Drawings

FIG. 1 is a schematic structural view of the present invention;

3 FIG. 32 3 is 3 a 3 schematic 3 sectional 3 view 3 taken 3 along 3 line 3 A 3- 3 A 3 in 3 FIG. 31 3; 3

FIG. 3 is an enlarged schematic view at B of FIG. 1;

fig. 4 is an enlarged schematic view at C in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1-4, a combined type fast-installation photovoltaic power station supporting device according to an embodiment of the present invention includes a hoisting frame 15, a moving main cavity 16 is disposed in the hoisting frame 15, a transmission mechanism is disposed in the moving main cavity 16, the transmission mechanism includes a transmission motor 38, a forward output shaft of the transmission motor 38 is fixedly connected to a transmission main rod 34, a transmission main bevel gear 19 and a transmission main electromagnet 35 are fixedly mounted on the transmission main rod 34, the transmission main bevel gear 19 is engaged with a transmission auxiliary bevel gear 18, a moving transmission cavity 12 is disposed on the left side of the moving main cavity 16, a moving transmission main gear 11 and a moving transmission auxiliary gear 31 are disposed in the moving transmission cavity 12, a moving mechanism is disposed on the rear side of the transmission mechanism, the moving mechanism includes a moving auxiliary rod 30 and a moving screw rod 45, a moving main wheel 17 is fixedly mounted on the moving screw rod 45, a moving main bevel gear 44 and a gravity moving box 46 are disposed on the moving, the right side of the moving mechanism is provided with a gravity mechanism which comprises a gravity motor 51, the left output shaft of the gravity motor 51 is fixedly connected with a gravity motor rod 50, a gravity main gear 49 is fixedly arranged on the gravity motor rod 50, a gravity wheel 56 and a gravity through cavity 55 are also arranged in the gravity mechanism, a pull wire 82 is wound on the gravity wheel 56, a lifting mechanism is arranged below the gravity mechanism, the lifting mechanism comprises a winding auxiliary block 77 and a lifting block 80, a lifting wheel 78 and a hook 81 are arranged on the lifting block 80, a winding auxiliary wheel 83 is arranged in the winding auxiliary block 77, a locking mechanism is arranged below the transmission mechanism, the locking mechanism comprises a locking wheel 62 and a limiting block 74, the locking wheel 62 is fixedly provided with a locking main threaded rod 61, the limiting block 74 is internally provided with a clamping groove 72, the locking mechanism further comprises a limiting thread cavity 68, and a limiting thread block 70 and a clamping block 73 are arranged in the limiting thread cavity 68 in a sliding fit mode.

Beneficially or exemplarily, the transmission mechanism includes a movable transmission cavity 12 disposed on the left side of the movable main cavity 16, a movable main fixing block 29 is disposed below the hoisting frame 15, a motor sliding rail 28 is fixedly mounted on the top end face of the movable main fixing block 29 in a bilateral symmetry manner, a transmission box 39 is mounted on the motor sliding rail 28 in a sliding fit manner, a transmission main cavity 36 is disposed in the transmission box 39, a transmission auxiliary cavity 33 is disposed on the rear side of the transmission main cavity 36, a transmission main rod 34 is fixedly mounted on the rear end face of a backward output shaft of the transmission motor 38 and penetrates through the front inner wall of the transmission auxiliary cavity 33, a pair of transmission main limiting blocks 37 is fixedly mounted on the transmission main rod 34, a transmission main electromagnet 35 is fixedly mounted on the rear side of the transmission main limiting blocks 37, a transmission main bevel gear 19 is fixedly mounted on the rear end face of the transmission main rod 34, and a transmission auxiliary cavity 33 and the movable transmission main cavity are rotatably mounted in a fit manner in the The movable main rod 20 of the inner wall on the right side of the cavity 12, the movable main rod 20 is located on the transmission auxiliary cavity 33, the transmission auxiliary bevel gear 18 is fixedly installed in the transmission auxiliary cavity 33, the transmission auxiliary bevel gear 18 is meshed with the transmission main bevel gear 19, the right side of the movable main cavity 16 is provided with a transmission auxiliary cavity 85 communicated with the transmission main cavity 36, a transmission auxiliary rod 42 is installed in a rotating fit mode between the inner walls on the front side and the rear side of the transmission auxiliary cavity 85, a pair of transmission auxiliary limit blocks 41 are fixedly installed on the transmission auxiliary rod 42, a transmission auxiliary electromagnet 43 is fixedly installed on the rear side of the transmission auxiliary limit blocks 41 on the transmission auxiliary rod 42, a transmission auxiliary bevel gear 60 is fixedly installed on the rear side of the transmission auxiliary electromagnet 43 on the transmission auxiliary rod 42, a transmission belt 40 is installed in a transmission fit mode between the transmission main limit blocks 37 and the transmission auxiliary limit blocks 41, so that the transmission, the transmission main rod 34 rotates to drive the transmission main limiting block 37 and the transmission main bevel gear 19 to rotate, the transmission main bevel gear 19 drives the movable main rod 20 to rotate by being meshed with the transmission auxiliary bevel gear 18, the transmission main limiting block 37 drives the transmission auxiliary limiting block 41 to rotate through the transmission belt 40, the transmission auxiliary limiting block 41 rotates to drive the transmission auxiliary rod 42 to rotate, the transmission auxiliary rod 42 rotates to drive the movable auxiliary bevel gear 60 to rotate, and the transmission main electromagnet 35 and the transmission auxiliary electromagnet 43 are used for respectively controlling the transmission auxiliary electromagnet 43 and the transmission main rod 34 to rotate.

Advantageously or exemplarily, the moving mechanism includes a moving transmission main gear 11 fixedly installed on a left side end surface of the moving main gear 20, a moving auxiliary gear 30 rotatably installed in a right side inner wall of the moving main gear 16 and penetrating through a right side inner wall of the moving transmission cavity 12 at a rear side of the moving main gear 20 in a matching manner, a moving transmission auxiliary gear 31 fixedly installed on a left side end surface of the moving auxiliary gear 30, a moving transmission chain 32 installed in a transmission manner between the moving transmission auxiliary gear 31 and the moving transmission main gear 11, moving main wheels 17 fixedly installed on the moving main gear 20 and the moving auxiliary gear 30 in a bilateral symmetry manner, a moving main slot 27 with an upward opening is symmetrically arranged on a top end surface of the sliding main fixing block 29 in a bilateral symmetry manner, the moving main wheel 17 is installed in a sliding manner with the moving main slot 27, a gravity cavity 21 with an upward opening is arranged on a right side of the moving main gear, the movable screw rod 45 penetrating through the transmission auxiliary cavity 85 is installed on the inner wall of the right side of the gravity cavity 21 in a rotating fit mode, the movable main bevel gear 44 is fixedly installed on the left side end face of the movable screw rod 45, the movable main bevel gear 44 is meshed with the movable auxiliary bevel gear 60, the movable sliding rod 53 is fixedly installed between the inner walls of the left side and the right side of the gravity cavity 21, a gravity moving box 46 which is in threaded fit with the movable screw rod 45 and in sliding fit with the movable sliding rod 53 is arranged in the gravity cavity 21, a movable auxiliary cavity 22 with a downward opening is arranged on the right side of the gravity cavity 21, the movable auxiliary rod 23 is installed in the inner walls of the left side and the right side of the movable auxiliary cavity 22 in a rotating fit mode in a front-back symmetric mode, movable auxiliary wheels 24 are fixedly installed on the movable auxiliary rod 23 in a front-back symmetric mode, a sliding auxiliary fixing block 26 is arranged below the movable auxiliary cavity, the movable auxiliary groove 25 is installed in sliding fit with the movable auxiliary wheel 24, so that the transmission main bevel gear 19 rotates to drive the transmission auxiliary bevel gear 18 to rotate, the transmission auxiliary bevel gear 18 rotates to drive the movable main rod 20 to rotate, the movable main rod 20 rotates to drive the movable transmission main gear 11 to rotate, the movable transmission main gear 11 drives the movable transmission auxiliary gear 31 and the movable auxiliary rod 30 to rotate through the movable transmission chain 32, the movable main wheel 17 rotates, the transmission box 39 moves on the motor slide rail 28, the movable main wheel 17 moves on the movable main groove 27, the movable auxiliary wheel 24 moves on the movable auxiliary groove 25, the movable auxiliary bevel gear 60 drives the movable screw rod 45 to rotate through meshing with the movable main bevel gear 44, and the movable screw rod 45 rotates to drive the gravity movable box 46 to move left and right.

Beneficially or exemplarily, the locking mechanism comprises a limiting block 74 fixedly installed on the bottom end face of the hoisting frame 15, the top end face of the main sliding fixing block 29 located on the left side of the main moving groove 27 on the left side is provided with a limiting groove locking auxiliary gear 75 with an upward opening, the limiting block 74 is installed in sliding fit with the limiting groove locking auxiliary gear 75, the left side and the right side of the limiting groove locking auxiliary gear 75 are provided with locking transmission cavities 67, a limiting thread cavity 68 is symmetrically arranged between the left side and the right side of the locking transmission cavity 67, a limiting thread block 70 and a clamping block 73 are installed in the limiting thread cavity 68 in sliding fit, a limiting spring 71 is fixedly installed between the limiting thread block 70 and the clamping block 73, a limiting thread hole 69 with an opposite opening is arranged in the left limiting thread block 70, and a locking main threaded rod penetrating through the left end face of the main sliding fixing block 29 is installed between the locking transmission cavity 67 on the left side and the 61, lock main threaded rod 61 left side terminal surface fixed mounting locking wheel 62, lock main threaded rod 61 and left restriction screw hole 69 screw-thread fit installation, fixed mounting locks master gear 66 on the locking main threaded rod 61, controls it installs locking transmission pole 65 to lock between the transmission chamber 67 to rotate the cooperation, lock transmission pole 65 left and right sides terminal surface fixed mounting locking pinion 64, lock master gear 66 and left transmission cooperation installation locking main chain 63 between the locking pinion 64, right side restriction screw hole 68 and right side transmission cooperation installation locking pinion 86 between the locking transmission chamber 67, locking pinion 86 and right side restriction screw hole 69 screw-thread fit installation, locking pinion 86 right side terminal surface fixed mounting restriction groove locking auxiliary gear 75, restriction groove locking auxiliary gear 75 and right side transmission cooperation installation locking pinion 86 between the locking pinion 64 The limiting block 74 is provided with a locking groove 72 on the end surface of the left side and the right side, the locking groove 72 is in sliding fit with the locking block 73, so that the locking wheel 62 is rotated, the locking main threaded rod 61 is rotated to drive the locking main gear 66 to rotate, the locking main gear 66 drives the locking transmission rod 65 to rotate through the locking main chain 63, the limiting groove locking auxiliary gear 75 is rotated through the transmission of the locking auxiliary chain 76, the limiting groove locking auxiliary gear 75 is rotated to drive the locking auxiliary threaded rod 86 to rotate, the left limiting threaded block 70 and the right limiting threaded block 70 are close to each other, the locking block 73 is also close to each other, and the limiting block 74 is clamped through.

Beneficially or exemplarily, the gravity mechanism comprises a gravity main fixing block 47 fixedly installed on the top end surface of the gravity moving box 46, a gravity fixing cavity 48 is arranged in the gravity main fixing block 47, the top end surface of the gravity moving box 46 is located on a right side of the gravity main fixing block 47, a left side end surface of an output shaft of the gravity motor 51 to the left is fixedly installed and penetrates through a gravity motor rod 50 on the right side inner wall of the gravity fixing cavity 48, a left side end surface of the gravity motor rod 50 is fixedly installed on a gravity main gear 49, a top end surface of the gravity moving box 46 is located on a right side fixedly installed gravity auxiliary fixing block 54 of the gravity main fixing block 47, a gravity rotating rod 57 penetrating through the right side inner wall of the gravity fixing cavity 48 is rotatably installed in a left side end surface of the gravity auxiliary fixing block 54 in a matching manner, the left side end surface of the gravity rotating, the fixed chamber of gravity 48 with transmission fit installation gravity chain 59 between the gravity main gear 49, bilateral symmetry fixed mounting gravity wheel 56 on the gravity dwang 57, around having the acting as go-between 82 on the gravity wheel 56, the gravity chamber 21 diapire is equipped with the removal that runs through and leads to the chamber 52, the gravity removes and lies in on the case 46 the gravity wheel 56 below be equipped with remove the gravity that leads to the chamber 52 and communicate and lead to the chamber 55 to the gravity motor 51 starts, drives the rotation of gravity motor pole 50, and the rotation of gravity motor pole 50 drives the rotation of gravity main gear 49, and the gravity main gear 49 drives the rotation of gravity pinion 58 through gravity chain 59, and the rotation of gravity pinion 58 drives the rotation of gravity dwang 57, 82 pulling photovoltaic panels act as go-between.

Beneficially or exemplarily, the lifting mechanism comprises a winding auxiliary block 77 fixedly mounted on the bottom end surface of the gravity shifting box 46, a winding auxiliary cavity 87 is arranged in the winding auxiliary block 77, a winding auxiliary rod 84 is fixedly mounted between the left and right inner walls of the winding auxiliary cavity 87, a winding auxiliary wheel 83 is rotatably mounted on the winding auxiliary rod 84 in a matching manner, a lifting block 80 is arranged below the winding auxiliary block 77, a lifting cavity 88 with an upward opening is arranged in the lifting block 80, a lifting rod 79 is rotatably mounted between the left and right inner walls of the lifting cavity 88 in a matching manner, a lifting wheel 78 is fixedly mounted on the lifting rod 79, a left and a right pull wires 82 are wound on the winding auxiliary wheel 83 after passing through the lifting wheel 78 and are fixedly mounted on the bottom wall of the winding auxiliary cavity 87, a hook 81 is fixedly mounted on the bottom end surface of the lifting block 80, a sliding main fixing block 29 and a fixing device fixing table 13 which is bilaterally symmetrical to the bottom end surface of, and a device fixing rod 14 is fixedly installed between the left device fixing platform and the right device fixing platform 13, so that when the photovoltaic panel is pulled, the stay wire 82 moves upwards, the lifting block 80 is driven to move upwards through the lifting wheel 78, the length of the stay wire 82 between the winding auxiliary wheel 83 and the bottom wall of the winding auxiliary cavity 87 is unchanged, when the photovoltaic panel is released, the stay wire 82 moves downwards, and the lifting block 80 is driven to move downwards through the lifting wheel 78.

When the lifting frame 15 moves back and forth, the transmission main electromagnet 35 is closed, the transmission main bevel gear 19 rotates, the transmission auxiliary bevel gear 18 rotates, the movable main gear 20 rotates, the transmission main limiting block 37 rotates, the transmission auxiliary limiting block 41 rotates, the transmission auxiliary rod 42 rotates, the movable auxiliary bevel gear 60 rotates, when the lifting frame 15 moves back and forth, the transmission main electromagnet 35 is closed, the transmission main bevel gear 19 rotates, the transmission auxiliary bevel gear 18 rotates, the movable main rod 20 rotates, the movable transmission main gear 11 drives the movable transmission auxiliary gear 31 and the movable auxiliary rod 30 to rotate through the movable transmission chain 32, so that the movable main wheel 17 rotates, the transmission case 39 moves on the motor slide rail 28, the movable main wheel 17 moves on the movable main groove 27, the movable auxiliary wheel 24 moves on the movable auxiliary groove 25, when the gravity movement case 46 moves left and right, the transmission auxiliary electromagnet 43 is closed, the movable auxiliary bevel gear 60 drives the movable screw rod 45 to rotate by meshing with the movable main bevel gear 44, the movable screw rod 45 drives the gravity movement case 46 to move left and right, the locking wheel 62 is rotated, the locking main threaded rod 61 rotates to drive the locking main gear 66 to rotate, the locking main gear 66 drives the locking transmission rod 65 to rotate by the locking main chain 63, the limiting groove locking auxiliary gear 75 rotates by transmission of the locking auxiliary chain 76, the limiting groove locking auxiliary gear 75 rotates to drive the locking auxiliary threaded rod 86 to rotate, the left and right limiting threaded blocks 70 approach, the fixture blocks 73 approach, the limiting blocks 74 are clamped by the clamping grooves 72, the lifting frame 15 is ensured not to deviate from the sliding position, the gravity motor 51 is started to drive the gravity motor rod 50 to rotate, the gravity motor rod 50 rotates to drive the gravity main gear 49 to rotate, the gravity main gear 49 drives the gravity pinion 58 to rotate through the gravity chain 59, the gravity pinion 58 rotates to drive the gravity rotating rod 57 to rotate, the pull wire 82 pulls the photovoltaic panel, the pull wire 82 moves upwards, the lifting block 80 is driven to move upwards through the lifting wheel 78, the length of the pull wire 82 between the winding auxiliary wheel 83 and the bottom wall of the winding auxiliary cavity 87 is unchanged, when the photovoltaic panel is released, the pull wire 82 moves downwards, and the lifting block 80 is driven to move downwards through the lifting wheel 78.

The invention has the beneficial effects that: the invention has simple structure and convenient operation, the locking wheel in the locking mechanism controls and limits the movement of the thread block, the thread block is limited to drive the fixture block to move, the limiting block is clamped by the fixture block, the hoisting machine is ensured not to deviate from the moving position when moving back and forth, the safety of operators is ensured, the transmission motor in the transmission mechanism controls the transmission main rod to rotate by transmitting the main electromagnet, the transmission auxiliary rod to rotate by transmitting the auxiliary electromagnet, the hoisting machine can be selected to move back and forth or left and right or move simultaneously, one motor is used for controlling, the maintenance is convenient, and the invention is worthy of popularization.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims (1)

1. The utility model provides a modular install photovoltaic power plant corollary equipment fast, includes hoist and mount frame, its characterized in that: the lifting frame is internally provided with a movable main cavity, the movable main cavity is internally provided with a transmission mechanism, the transmission mechanism comprises a transmission motor, a forward output shaft of the transmission motor is fixedly connected with a transmission main rod, the transmission main rod is fixedly provided with a transmission main bevel gear and a transmission main electromagnet, the transmission main bevel gear is meshed with a transmission auxiliary bevel gear, the left side of the movable main cavity is provided with a movable transmission cavity, the movable transmission cavity is internally provided with a movable transmission main gear and a movable transmission auxiliary gear, the rear side of the transmission mechanism is provided with a movable moving mechanism, the moving mechanism comprises a movable auxiliary rod and a movable lead screw, the movable main gear is fixedly arranged on the movable lead screw, the movable main bevel gear and a gravity moving box are arranged on the movable lead screw, the right side of the moving mechanism is provided with a gravity mechanism, the gravity mechanism comprises a gravity motor, the left output shaft of the gravity motor is fixedly connected with a gravity motor rod, the gravity mechanism is also internally provided with a gravity wheel and a gravity through cavity, the gravity wheel is wound with a pull wire, a lifting mechanism is arranged below the gravity mechanism and comprises a winding auxiliary block and a lifting block, the lifting block is provided with a lifting wheel and a hook, the winding auxiliary block is internally provided with a winding auxiliary wheel, a locking mechanism is arranged below the transmission mechanism and comprises a locking wheel and a limiting block, a locking main threaded rod is fixedly arranged on the locking wheel, a clamping groove is arranged in the limiting block, the locking mechanism also comprises a limiting thread cavity, and a limiting thread block and a clamping block are arranged in the limiting thread cavity in a sliding fit manner;

the transmission mechanism comprises a movable transmission cavity arranged on the left side of the movable main cavity, a sliding main fixed block is arranged below the hoisting frame, motor slide rails are fixedly arranged on the top end face of the sliding main fixed block in a bilateral symmetry mode, a transmission box is arranged on the motor slide rails in a sliding fit mode, a transmission main cavity is arranged in the transmission box, a transmission auxiliary cavity is arranged on the rear side of the transmission main cavity, the rear end face of a backward output shaft of the transmission motor is fixedly arranged and penetrates through a transmission main rod on the front inner wall of the transmission auxiliary cavity, a pair of transmission main limit blocks are fixedly arranged on the transmission main rod, a transmission main electromagnet is fixedly arranged on the rear side of the transmission main limit block on the transmission main rod, a transmission main bevel gear is fixedly arranged on the rear end face of the transmission main rod, and the movable main rod penetrating through the transmission auxiliary cavity and the inner wall of the right side, a transmission auxiliary bevel gear is fixedly installed in the transmission auxiliary cavity on the movable main rod, the transmission auxiliary bevel gear is meshed with the transmission main bevel gear, a transmission auxiliary cavity communicated with the transmission main cavity is arranged on the right side of the movable main cavity, a transmission auxiliary rod is installed between the inner walls of the front side and the rear side of the transmission auxiliary cavity in a rotating fit mode, a pair of transmission auxiliary limiting blocks are fixedly installed on the transmission auxiliary rod, a transmission auxiliary electromagnet is fixedly installed on the transmission auxiliary rod and is located behind the transmission auxiliary limiting blocks, a movable auxiliary bevel gear is fixedly installed on the transmission auxiliary rod and is located behind the transmission auxiliary electromagnet, and a transmission belt is installed between the transmission main limiting blocks and the transmission auxiliary limiting blocks in a transmission fit mode;

the moving mechanism comprises a moving transmission main gear fixedly installed on the left end face of the moving main rod, the moving transmission main gear is positioned in the right inner wall of the moving main cavity, the moving transmission main rod is installed at the rear side in a rotating and matching mode and penetrates through a moving auxiliary rod of the right inner wall of the moving transmission cavity, the moving transmission auxiliary gear is installed and moved by a transmission matching mode between the moving transmission main gear and the moving transmission auxiliary gear, a moving main rod and a moving main wheel are installed and moved by a fixed and symmetrical mode on the moving auxiliary rod, the left and right symmetrical mode on the top end face of the sliding main fixed block is provided with a moving main groove with an upward opening, the moving main wheel is installed by a sliding and matching mode with the moving main groove, the moving main cavity is provided with a gravity cavity with an upward opening on the right side, and a moving lead screw penetrating through the moving auxiliary cavity is, a movable main bevel gear is fixedly installed on the left end face of the movable screw rod, the movable main bevel gear is meshed with the movable auxiliary bevel gear, a movable sliding rod is fixedly installed between the left inner wall and the right inner wall of the gravity cavity, a gravity movable box which is in threaded fit with the movable screw rod and is in sliding fit with the movable sliding rod is arranged in the gravity cavity, a movable auxiliary cavity with a downward opening is arranged on the right side of the gravity cavity, movable auxiliary rods are symmetrically installed in the left inner wall and the right inner wall of the movable auxiliary cavity in a front-back rotating fit mode, movable auxiliary wheels are symmetrically and fixedly installed on the front-back movable auxiliary rods in a left-right mode, a sliding auxiliary fixed block is arranged below the movable auxiliary cavity, movable auxiliary grooves with upward openings are symmetrically arranged on the left-right end face of the tops of the sliding auxiliary fixed;

the locking mechanism comprises a limiting block fixedly installed on the end face of the bottom of the hoisting frame, the end face of the top of the sliding main fixing block is positioned on the left side of the left moving main groove and is provided with a limiting groove locking auxiliary gear with an upward opening, the limiting block and the limiting groove locking auxiliary gear are installed in a sliding fit manner, the left side and the right side of the limiting groove locking auxiliary gear are provided with locking transmission cavities, a limiting thread cavity is symmetrically arranged between the left locking transmission cavity and the right locking transmission cavity in a left-right manner, a limiting thread block and a clamping block are installed in the limiting thread cavity in a sliding fit manner, a limiting spring is fixedly installed between the limiting thread block and the clamping block, a limiting thread hole with an opposite opening is arranged in the left limiting thread block, and a locking main threaded rod penetrating through the end face of the left side of the sliding, the locking main threaded rod is fixedly provided with a locking wheel on the left end face, the locking main threaded rod is installed with the left limiting threaded hole in a thread fit manner, a locking main gear is fixedly installed on the locking main threaded rod, a locking transmission rod is installed between the left locking transmission cavity and the right locking transmission cavity in a rotating fit manner, locking auxiliary gears are fixedly installed on the left end faces and the right side of the locking transmission rod in a thread fit manner, a locking main chain is installed between the locking main gear and the left locking auxiliary gear in a transmission fit manner, a locking auxiliary threaded rod is installed between the right limiting threaded cavity and the right locking transmission cavity in a transmission fit manner, the locking auxiliary threaded rod is installed with the right limiting threaded hole in a thread fit manner, a limiting groove locking auxiliary gear is fixedly installed on the right end face of the locking auxiliary threaded rod, and a locking auxiliary chain is installed, the end surfaces of the left side and the right side of the limiting block are provided with clamping grooves, and the clamping grooves are in sliding fit with the clamping blocks;

the gravity mechanism comprises a gravity main fixing block fixedly installed on the top end face of the gravity moving box, a gravity fixing cavity is arranged in the gravity main fixing block, the top end face of the gravity moving box is located on a gravity main fixing block right side fixedly installed gravity motor, the left end face of an output shaft of the gravity motor to the left is fixedly installed and penetrates through a gravity motor rod on the inner wall of the gravity fixing cavity right side, a gravity main gear is fixedly installed on the left end face of the gravity motor rod, the top end face of the gravity moving box is located on a gravity main fixing block right side fixedly installed gravity auxiliary fixing block, a gravity rotating rod penetrating through the inner wall of the gravity fixing cavity right side is installed in a gravity auxiliary fixing block left end face in a rotating fit manner, a gravity fixing cavity is fixedly installed on the gravity rotating rod left end face, and a gravity chain is installed between the gravity fixing cavity, gravity wheels are symmetrically and fixedly installed on the gravity rotating rod from left to right, pull wires are wound on the gravity wheels, a penetrating moving through cavity is formed in the bottom wall of the gravity cavity, and a gravity through cavity communicated with the moving through cavity is formed below the gravity wheels on the gravity moving box;

the lifting mechanism comprises a winding auxiliary block fixedly arranged on the end surface of the bottom of the gravity moving box, a winding auxiliary cavity is arranged in the winding auxiliary block, a winding auxiliary rod is fixedly arranged between the inner walls of the left side and the right side of the winding auxiliary cavity, a winding auxiliary wheel is arranged on the winding auxiliary rod in a rotating fit manner, a lifting block is arranged below the winding auxiliary block, a lifting cavity with an upward opening is arranged in the lifting block, a lifting rod is arranged between the inner walls of the left side and the right side of the lifting cavity in a rotating fit manner, a lifting wheel is fixedly arranged on the lifting rod, the left and the right stay wires wind around the lifting wheel, then wind around the auxiliary winding wheel and are fixedly arranged on the bottom wall of the auxiliary winding cavity, the lifting block bottom end face is fixedly provided with a hook, the sliding main fixing block and the sliding auxiliary fixing block bottom end face are fixedly provided with device fixing tables in bilateral symmetry, and a device fixing rod is fixedly arranged between the device fixing tables.

Images