CN112879733B

CN112879733B - Support structure of frame stretching device for inverter processing

Info

Publication number: CN112879733B
Application number: CN202110028671.9A
Authority: CN
Inventors: 蓝信义; 钟兴炳; 钟媛
Original assignee: Zhuhai Nanzi Electric System Engineering Co ltd
Current assignee: Zhuhai Nanzi Electric System Engineering Co ltd
Priority date: 2021-01-11
Filing date: 2021-01-11
Publication date: 2022-09-13
Anticipated expiration: 2041-01-11
Also published as: CN112879733A

Abstract

The invention discloses a supporting structure of a frame body stretching device for inverter processing, which comprises a first top plate and a rotary clamping mechanism, wherein a rotating mechanism is arranged at the upper end of a supporting frame, a first cylinder drives a rotating rod to move towards the upper end through a bearing, so that the height of the stretching device is driven by a turntable to change, and meanwhile, a motor is electrified to work to drive a second belt pulley to rotate, so that the second belt pulley drives a first belt pulley and the rotating rod to rotate through a belt, the angle of the stretching device is driven by the turntable to change, and the advantage of quickly adjusting the height and the angle of the stretching device is achieved; through having set up fixed establishment in the support frame upper end, the second cylinder contracts, accepts the board through first board and the second and drive first clamp splice respectively and move towards the front end and the second clamp splice moves towards the rear end, makes first clamp splice and second clamp splice upper end riser closely laminate with the drawing mechanism lateral wall, has reached and can install fixed advantage to drawing device fast.

Description

Support structure of frame stretching device for inverter processing

Technical Field

The invention relates to the field related to inverter processing, in particular to a support structure of a frame stretching device for inverter processing.

Background

In the present day that the traditional energy is increasingly exhausted, the photovoltaic is taken as a representative of clean energy, and is certainly pursued by Chinese enterprises, the photovoltaic inverter is taken as a bridge of a photovoltaic system, although the cost is low, the frame body is required to be stretched in the manufacturing process of the transformer frame body, which is of great importance.

Just need use the framework stretching device of dc-to-ac converter processing at this time, often add bearing structure in framework stretching device upper end, present bearing structure is general simple structure, is difficult for installing the dismantlement to stretching device fast to difficult quick adjustment stretching device's angle and height make and influence machining efficiency.

Disclosure of Invention

Therefore, in order to solve the above-mentioned disadvantages, the present invention provides a support structure of a frame stretching device for inverter processing.

The invention is realized in such a way that a supporting structure of a frame body stretching device for inverter processing is constructed, the device comprises a supporting frame, a first roller, a second roller, a first top plate and a rotary clamping mechanism, the first roller is arranged at the left end of the bottom of the supporting frame, the second roller is arranged at the right end of the bottom of the supporting frame, the rotary clamping mechanism comprises a rotating mechanism, a bottom plate, a supporting rod, a second top plate and a fixing mechanism, the rotating mechanism is fixedly connected with the upper end inside the supporting frame, the rotating mechanism is connected with the bottom of the bottom plate through bolts, the supporting rods are oppositely arranged at four corners of the top of the bottom plate, the supporting rod is fixedly connected with the bottom of the second top plate, and the fixing mechanism is fixedly arranged at the bottom of the second top plate.

Preferably, the support frame right-hand member is provided with control panel, the button is installed to the control panel upper end, the support frame rear end is fixed with the power wire, support frame and first roof bottom fixed connection.

Preferably, slewing mechanism includes mount, first cylinder, bearing, dwang, carousel, pressure spring, first belt pulley, belt, second belt pulley and motor, the inside upper end bolted connection of mount top and support frame, the mount passes through screw and first cylinder upper end locking and fixes, first cylinder imbeds in the bearing lower extreme, the bearing upper end is provided with the dwang, the dwang rotates with the carousel lower extreme to be connected, the pressure spring has been cup jointed on the dwang, first belt pulley rotates along with the dwang is synchronous, first belt pulley passes through the belt and is connected with the transmission of second belt pulley inside wall, the second belt pulley is connected with the motor output to motor upper end and mount bolted connection, the carousel rotates with bottom plate bottom is synchronous, the motor is connected with the control panel electricity.

Preferably, the fixing mechanism comprises a guide rail, a first slide block, a first clamping block, a first bearing plate, a second cylinder, a bearing seat, a second bearing plate, a second clamping block, a stabilizing mechanism, a clamping plate mechanism and a second slide block, the top of the guide rail is connected with a second top plate through a bolt, the guide rail is in sliding fit with the bottom of the first slide block, the first slide block is fixedly connected with the front end of the top of the first clamping block, the first slide block is fixedly connected with the left end of the first bearing plate, the first bearing plate is connected with the rear end of the second cylinder through a bolt, the second cylinder is embedded and installed at the rear end of the bearing seat, the bearing seat is locked and fixed with the rear end of the second bearing plate through a bolt, the second bearing plate is fixedly connected with the right end of the second slide block, the second slide block slides along the upper end of the guide rail, the bottom of the second slide block is connected with the second clamping block through a bolt, the stabilizing mechanism is installed at the front end of the first clamping block and the rear end of the second clamping block, and a clamping plate mechanism is arranged at the upper end of the second clamping block.

Preferably, the stabilizing mechanism comprises a fixed block, a swing rod, a connecting piece, a pressing rod, a buffer spring and a sliding sleeve, the fixed block is fixed with the front end of the first clamping block, one end of the swing rod is rotatably connected with the top of the fixed block through a hinge shaft, the other end of the swing rod is movably connected with the rear end of the connecting piece, the connecting piece is fixed with the left end of the pressing rod, the pressing rod is elastically connected with the inner right end of the sliding sleeve through the buffer spring, the pressing rod is in sliding fit with the inner side of the sliding sleeve, and the top of the sliding sleeve is in screw connection with the second top plate.

Preferably, splint mechanism includes riser, recess, reset spring, movable frame and activity pearl, riser rear end and first clamp splice fixed connection, the riser upper end is seted up flutedly, the recess passes through reset spring and movable frame rear end elastic connection, the movable frame is embedded in the recess inboard, activity pearl and the inboard swing joint of movable frame.

Preferably, the number of the grooves is six, and the grooves are distributed at equal intervals along the front ends of the vertical plates.

Preferably, six recess upper ends all are provided with reset spring, movable frame and activity pearl to movable frame adopts clearance fit's mode to imbed in the recess inboard.

Preferably, the number of the swing rods is two, the swing rods are arranged oppositely along the front side and the rear side of the upper end of the connecting piece, and the upper ends of the swing rods are provided with fixing blocks.

Preferably, the number of the first clamping blocks and the number of the second clamping blocks are two, and the first clamping blocks and the second clamping blocks are oppositely arranged along the left side and the right side of the upper end of the first bearing plate and the upper end of the second bearing plate respectively.

Preferably, the bearing seat is made of alloy steel and has high hardness.

Preferably, the first bearing plate and the second bearing plate are made of carbon steel, and corrosion resistance is high.

The invention has the following advantages: the invention provides a support structure of a frame stretching device for inverter processing through improvement, compared with the same type of equipment, the support structure has the following improvements:

the method has the advantages that: according to the support structure of the frame body stretching device for processing the inverter, the rotating mechanism is arranged at the upper end of the support frame, the first air cylinder drives the rotating rod to move towards the upper end through the bearing, so that the turntable drives the height of the stretching device at the upper end of the second top plate to change, meanwhile, the motor is electrified to work to drive the second belt pulley to rotate, the second belt pulley drives the first belt pulley and the rotating rod to rotate through the belt, the turntable drives the angle of the stretching device at the upper end of the second top plate to change, and the advantage that the height and the angle of the stretching device can be quickly adjusted is achieved.

The method has the advantages that: according to the support structure of the frame body stretching device for processing the inverter, the fixing mechanism is arranged at the upper end of the support frame, the second air cylinder contracts, the first bearing plate and the second bearing plate respectively drive the first clamping block to move towards the front end and the second clamping block to move towards the rear end, and the first clamping block and the second clamping block can move at the upper end of the guide rail through the first sliding block and the second sliding block, so that vertical plates at the upper ends of the first clamping block and the second clamping block are tightly attached to the side wall of the stretching mechanism, and the advantage that the stretching device can be rapidly installed and fixed is achieved.

The method has the advantages that: according to the support structure of the frame body stretching device for processing the inverter, the upper end of the fixing mechanism is provided with the stabilizing mechanism, when the first clamping block and the second clamping block move, the swinging rod can swing, the swinging rod drives the pressing rod to press the buffer spring to deform and contract through the connecting piece, and therefore the swinging rod can stably support the first clamping block and the second clamping block, and the advantage that the first clamping block and the second clamping block can stably move is achieved.

The advantages are that: according to the support structure of the frame body stretching device for processing the inverter, the clamping plate mechanism is arranged at the upper end of the fixing mechanism, when the vertical plate clamps the side wall of the stretching device, the movable beads are tightly attached to the side wall of the stretching mechanism, the fixing stability of the stretching device is improved, the movable beads can deform and shrink due to the fact that the movable frame needs to fix the return spring, the vibration force at the upper end of the stretching device is absorbed, and the advantage that the stretching mechanism can be stably fixed is achieved.

Drawings

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

FIG. 2 is a side view of the rotary clamping mechanism of the present invention;

FIG. 3 is a schematic side view of the rotating mechanism of the present invention;

FIG. 4 is a schematic cross-sectional view of the rotating mechanism of the present invention;

FIG. 5 is a schematic side view of the securing mechanism of the present invention;

FIG. 6 is a schematic top view of the securing mechanism of the present invention;

FIG. 7 is a cross-sectional view of the securing mechanism of the present invention;

fig. 8 is a side view of the clamping mechanism of the present invention.

Wherein: a support frame-1, a first roller-2, a second roller-3, a control panel-4, a button-5, a power supply lead-6, a first top plate-7, a rotary clamping mechanism-8, a rotating mechanism-81, a bottom plate-82, a support rod-83, a second top plate-84, a fixing mechanism-85, a fixing frame-811, a first cylinder-812, a bearing-813, a rotating rod-814, a rotating disc-815, a pressure spring-816, a first belt pulley-817, a belt-818, a second belt pulley-819, a motor-8110, a guide rail-851, a first slide block-852, a first clamping block-853, a first bearing plate-854, a second cylinder-855, a bearing-856, a second bearing plate-857, a second clamping block-858, a first cylinder-855, a bearing seat-856, a second bearing plate-857, a second clamping block-858, A stabilizing mechanism-859, a clamping plate mechanism-8510, a second sliding block-8511, a fixed block-8591, a swinging rod-8592, a connecting piece-8593, a pressure rod-8594, a buffer spring-8595, a sliding sleeve-8596, a vertical plate-85101, a groove-85102, a return spring-85103, a movable frame-85104 and a movable bead-85105.

Detailed Description

The present invention will be described in detail below with reference to fig. 1 to 8, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1, the present invention provides a support structure of a frame stretching device for inverter processing, which includes a support frame 1, a first roller 2, a second roller 3, a first top plate 7 and a rotary clamping mechanism 8, wherein the first roller 2 is disposed at a left end of a bottom of the support frame 1, the second roller 3 is disposed at a right end of the bottom of the support frame 1, a control panel 4 is disposed at a right end of the support frame 1, a button 5 is disposed at an upper end of the control panel 4, a power lead 6 is fixed at a rear end of the support frame 1, and the support frame 1 is fixedly connected to a bottom of the first top plate 7.

Referring to fig. 2, the present invention provides a support structure of a frame stretching device for inverter processing by improving, wherein a rotary clamping mechanism 8 includes a rotating mechanism 81, a bottom plate 82, a support rod 83, a second top plate 84 and a fixing mechanism 85, the rotating mechanism 81 is fixedly connected with the upper end inside the support frame 1, the rotating mechanism 81 is bolted with the bottom of the bottom plate 82, the support rod 83 is oppositely arranged at four corners of the top of the bottom plate 82, the support rod 83 is fixedly connected with the bottom of the second top plate 84, and the fixing mechanism 85 is fixedly installed at the bottom of the second top plate 84.

Referring to fig. 3 and 4, the invention provides a support structure of a frame stretching device for inverter processing by improvement, a rotating mechanism 81 includes a fixing frame 811, a first cylinder 812, a bearing 813, a rotating rod 814, a rotating disk 815, a pressure spring 816, a first belt pulley 817, a belt 818, a second belt pulley 819 and a motor 8110, the top of the fixing frame 811 is connected with an upper end bolt inside the support frame 1, the fixing frame 811 is locked and fixed to the upper end of the first cylinder 812 by a screw, the first cylinder 812 is embedded in the lower end of the bearing 813, the upper end of the bearing 813 is provided with the rotating rod 814, the rotating rod 814 is rotatably connected to the lower end of the rotating disk 815, the upper end of the rotating rod 814 is sleeved with the pressure spring 816, the first belt pulley 817 rotates synchronously with the rotating rod 814, the first belt 817 is rotatably connected to the inner side wall of the second belt 819 by the belt 818, so as to facilitate the rotation of the second belt 819, the second belt pulley 819 is connected to the output end of the motor 8110, the upper end of the motor 8110 is connected to the fixing frame 811 through a bolt, the rotating disc 815 rotates synchronously with the bottom of the bottom plate 82, and the motor 8110 is electrically connected to the control panel 4.

Referring to fig. 5 and 6, the present invention provides a support structure of a frame body stretching device for inverter processing by improving, a fixing mechanism 85 includes a guide rail 851, a first slide block 852, a first clamping block 853, a first receiving plate 854, a second air cylinder 855, a receiving seat 856, a second receiving plate 857, a second clamping block 858, a stabilizing mechanism 859, a clamping plate mechanism 8510 and a second slide block 8511, a top portion of the guide rail 851 is bolted to the second top plate 84, the guide rail 851 is in sliding fit with a bottom portion of the first slide block 852, the first slide block 852 is fixedly connected to a top portion of the first clamping block 853, the first slide block 852 is fixedly connected to a left end of the first receiving plate 854, the first receiving plate 854 is bolted to a rear end of the second air cylinder 855, the second air cylinder 855 is inserted into and mounted to a rear end of the receiving seat 856, the receiving seat 856 is locked to a rear end of the second receiving plate 857 by a screw, the second receiving plate 857 is fixedly connected to a right end of the second slide block 8511, and second slider 8511 slides along guide rail 851 upper end, second slider 8511 bottom and second clamp splice 858 bolted connection, firm mechanism 859 is installed in first clamp splice 853 front end and second clamp splice 858 rear end, splint mechanism 8510 is installed to second clamp splice 858 upper end, first clamp splice 853 and second clamp splice 858 all are provided with two, and first clamp splice 853 and second clamp splice 858 are respectively along first accepting board 854 and the relative setting in second accepting board 857 upper end left and right sides, do benefit to and play the effect that drives first clamp splice 853 and second clamp splice 858 and move, it is the alloy steel material to accept the seat, the hardness is high, first accepting board 854 and second accepting board 857 are the carbon steel material, corrosion resistance is strong.

Referring to fig. 7, the present invention provides a support structure of a frame stretching device for inverter processing by improving, wherein a fixing mechanism 859 includes a fixing block 8591, a swing rod 8592, a connecting piece 8593, a pressing rod 8594, a buffer spring 8595 and a sliding sleeve 8596, the fixing block 8591 is fixed to the front end of a first clamping block 853, one end of the swing rod 8592 is rotatably connected to the top of the fixing block 8591 through a hinge axis, the other end of the swinging rod 8592 is movably connected with the rear end of the connecting piece 8593, the connecting piece 8593 is fixed with the left end of the pressure lever 8594, the pressure lever 8594 is elastically connected with the right end inside the sliding sleeve 8596 through a buffer spring 8595, the pressure lever 8594 is in sliding fit with the inner side of the sliding sleeve 8596, the top of the sliding sleeve 8596 is in screw connection with the second top plate 84, the number of the swinging rods 8592 is two, and swing rod 8592 sets up along connection piece 8593 upper end front and back both sides relative, and swing rod 8592 upper end all is provided with fixed block 8591, does benefit to and plays the effect that drives first clamp splice 853 and second clamp splice 858 and move.

Referring to fig. 8, the present invention provides a support structure of a frame stretching device for inverter processing by improving a structure of the support structure, wherein a clamping mechanism 8510 includes a vertical plate 85101, a groove 85102, a return spring 85103, a movable frame 85104 and a movable bead 85105, rear ends of the vertical plate 85101 are fixedly connected to a first clamping block 853, an upper end of the vertical plate 85101 is provided with a groove 85102, the groove 85102 is elastically connected to a rear end of a movable frame 85104 through the return spring 85103, the movable frame 85104 is embedded inside the groove 85102, the movable bead 85105 is movably connected to an inside of the movable frame 85104, the groove 85102 has six vertical plates, the grooves 85102 are equidistantly distributed along a front end of the groove 85101, upper ends of the six grooves 85102 are provided with the return springs 85103, the movable frame 85104 and the movable bead 85105, and the movable frame 85104 is embedded inside the groove 85102 in a clearance fit manner, so as to facilitate smooth movement of the movable frame 85104.

Example two:

the invention provides a support structure of a frame stretching device for inverter processing by improving, wherein a first belt pulley 817 and a second belt pulley 819 have the same size, the first belt pulley 817 and the second belt pulley 819 are distributed in parallel, a rotating rod 814 penetrates through the inner side of the first belt pulley 817, and the rotating rod 814 is in sliding fit with the inner side of the first belt pulley 817, so that the functions of driving a rotating disc 815 to rotate and adjusting the height are facilitated.

The invention provides a supporting structure of a frame stretching device for processing an inverter through improvement, and the working principle is as follows;

firstly, before use, a support structure of a frame body stretching device for processing an inverter is horizontally placed, so that a first roller 2 and a second roller 3 fixedly support the structure;

secondly, when in use, an external power supply is connected through a power lead 6 to supply power to the device, then the stretching mechanism is placed at the upper end of the second top plate 84, and then a button 5 at the upper end of the control panel 4 is installed to start the structure;

thirdly, the second cylinder 855 contracts to drive the first clamping block 853 to move towards the front end and the second clamping block 858 to move towards the rear end respectively through the first bearing plate 854 and the second bearing plate 857, and the first clamping block 853 and the second clamping block 858 can move on the upper end of the guide rail 851 through the first sliding block 852 and the second sliding block 8511 to enable vertical plates 85101 on the upper ends of the first clamping block 853 and the second clamping block 858 to be tightly attached to the side wall of the stretching mechanism;

fourthly, when the first clamping block 853 and the second clamping block 858 move, the swinging rod 8592 can swing, the swinging rod 8592 drives the pressure rod 8594 to press the buffer spring 8595 to deform and contract through the connecting piece 8593, so that the swinging rod 8592 can stably support the first clamping block 853 and the second clamping block 858, the first clamping block 853 and the second clamping block 858 can stably move, meanwhile, when the vertical plate 85101 clamps the side wall of the stretching device, the movable beads 85105 can be tightly attached to the side wall of the stretching mechanism, the fixing stability of the stretching device is improved, the movable beads 85105 can fix the return spring 85103 through the movable frame 85104 to deform and contract, the vibration force at the upper end of the stretching device is absorbed, and the stretching mechanism can be stably fixed;

fifth, and through set up slewing mechanism 81 in support frame 1 upper end, first cylinder 812 drives dwang 814 through bearing 813 and moves towards the upper end, thereby make carousel 815 drive second roof 84 upper end stretching device's height change, simultaneously the circular telegram of motor 8110 works, it rotates to drive second belt pulley 819, make second belt pulley 891 drive first belt pulley 817 and dwang 814 through belt 818 and rotate, it changes to make carousel 815 drive second roof 84 upper end stretching device angle, can quick adjustment stretching device height and angle, high convenience and rapidness in use.

The invention provides a supporting structure of a frame stretching device for processing an inverter by improvement, a rotating mechanism 81 is arranged at the upper end of a supporting frame 1, a first air cylinder 812 drives a rotating rod 814 to move upwards through a bearing 813, so that a rotating disc 815 drives the height of the stretching device at the upper end of a second top plate 84 to change, meanwhile, a motor 8110 is electrified to work to drive a second belt pulley 819 to rotate, the second belt pulley 891 drives a first belt pulley 817 and the rotating rod 814 to rotate through a belt 818, the rotating disc 815 drives the angle of the stretching device at the upper end of the second top plate 84 to change, and the advantage of quickly adjusting the height and the angle of the stretching device is achieved; the fixing mechanism 85 is arranged at the upper end of the support frame 1, the second air cylinder 855 contracts, the first bearing plate 854 and the second bearing plate 857 respectively drive the first clamping block 853 to move towards the front end and the second clamping block 858 to move towards the rear end, and the first clamping block 853 and the second clamping block 858 can move on the guide rail 851 through the first sliding block 852 and the second sliding block 8511, so that vertical plates 85101 at the upper ends of the first clamping block 853 and the second clamping block 858 are tightly attached to the side wall of the stretching mechanism, and the advantage that the stretching device can be quickly installed and fixed is achieved; by arranging the stabilizing mechanism 859 at the upper end of the fixing mechanism 85, when the first clamping block 853 and the second clamping block 858 move, the swinging rod 8592 can swing, the swinging rod 8592 drives the pressure rod 8594 to press the buffer spring 8595 to deform and contract through the connecting piece 8593, so that the swinging rod 8592 can stably support the first clamping block 853 and the second clamping block 858, and the advantage of stably moving the first clamping block 853 and the second clamping block 858 is achieved; through having set up splint mechanism 8510 in fixed establishment 85 upper end, when riser 85101 is to the clamping of drawing device lateral wall, can make activity pearl 85105 closely laminate with the drawing mechanism lateral wall, increase the fixed steadiness of drawing device to activity pearl 85105 can be through activity frame 85104 will decide reset spring 85103 and produce the deformation shrink, absorbs drawing device upper end vibrational force, has reached the advantage that can make the steady fixed of drawing mechanism.

The basic principles and main features of the present invention and the advantages of the present invention are shown and described above, and the standard parts used in the present invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, the specific connection mode of each part adopts the conventional means of bolt, rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A supporting structure of a frame stretching device for inverter processing comprises a supporting frame (1), a first roller (2), a second roller (3) and a first top plate (7), wherein the first roller (2) is arranged at the left end of the bottom of the supporting frame (1), and the second roller (3) is arranged at the right end of the bottom of the supporting frame (1);

the method is characterized in that: the clamping device is characterized by further comprising a rotary clamping mechanism (8), wherein the rotary clamping mechanism (8) comprises a rotating mechanism (81), a bottom plate (82), a supporting rod (83), a second top plate (84) and a fixing mechanism (85), the rotating mechanism (81) is fixedly connected with the upper end inside the supporting frame (1), the rotating mechanism (81) is connected with the bottom of the bottom plate (82) through bolts, the supporting rod (83) is oppositely arranged at four corners of the top of the bottom plate (82), the supporting rod (83) is fixedly connected with the bottom of the second top plate (84), the fixing mechanism (85) is fixedly installed at the bottom of the second top plate (84), a control panel (4) is arranged at the right end of the supporting frame (1), a button (5) is installed at the upper end of the control panel (4), a power lead (6) is fixedly arranged at the rear end of the supporting frame (1), the supporting frame (1) is fixedly connected with the bottom of the first top plate (7), the rotating mechanism (81) comprises a fixing frame (811), a first air cylinder (812), a bearing (813), a rotating rod (814), a rotating disc (815), a pressure spring (816), a first belt pulley (817), a belt (818), a second belt pulley (819) and a motor (8110), wherein the top of the fixing frame (811) is connected with an upper end bolt inside the supporting frame (1), the fixing frame (811) is fixed to the upper end of the first air cylinder (812) through a screw in a locking manner, the first air cylinder (812) is embedded into the lower end of the bearing (813), the upper end of the bearing (813) is provided with the rotating rod (814), the rotating rod (814) is connected with the lower end of the rotating disc (815) in a rotating manner, the pressure spring (816) is sleeved at the upper end of the rotating rod (814), the first belt pulley (817) rotates synchronously along with the rotating rod (814), and the first belt pulley (817) is connected with the inner side wall of the second belt pulley (819) through the belt (818), the second belt pulley (819) is connected with an output end of the motor (8110), the upper end of the motor (8110) is in bolt connection with the fixing frame (811), the rotary table (815) rotates synchronously with the bottom of the base plate (82), the motor (8110) is electrically connected with the control panel (4), the fixing mechanism (85) comprises a guide rail (851), a first sliding block (852), a first clamping block (853), a first bearing plate (854), a second cylinder (855), a bearing seat (856), a second bearing plate (857), a second clamping block (858), a stabilizing mechanism (859), a clamping plate mechanism (8510) and a second sliding block (8511), the top of the guide rail (851) is in bolt connection with the second top plate (84), the guide rail (851) is in sliding fit with the bottom of the first sliding block (852), the first sliding block (852) is fixedly connected with the front end of the top of the first clamping block (853), and the first sliding block (852) is fixedly connected with the left end of the first bearing plate (854), the first bearing plate (854) is connected with the rear end of a second cylinder (855) through a bolt, the second cylinder (855) is embedded and installed at the rear end of a bearing seat (856), the bearing seat (856) is locked and fixed with the rear end of a second bearing plate (857) through a screw, the second bearing plate (857) is fixedly connected with the right end of a second sliding block (8511), the second sliding block (8511) slides along the upper end of a guide rail (851), the bottom of the second sliding block (8511) is connected with a second clamping block (858) through a bolt, a stabilizing mechanism (859) is installed at the front end of a first clamping block (853) and the rear end of a second clamping block (858), a clamping mechanism (8510) is installed at the upper end of the second clamping block (858), the stabilizing mechanism (859) comprises a fixing block (8591), a swinging rod (8592), a connecting sheet (8593), a pressing rod (8594), a buffer spring (8595) and a sliding sleeve (8596), the fixing block (8591) is fixed with the front clamping block (853), swing rod (8592) one end is connected through hinge pin and fixed block (8591) top rotation to swing rod (8592) other end and connection piece (8593) rear end swing joint, connection piece (8593) are fixed with depression bar (8594) left end, depression bar (8594) pass through buffer spring (8595) and slide sleeve (8596) inside right-hand member elastic connection, depression bar (8594) and slide sleeve (8596) inboard sliding fit, slide sleeve (8596) top and second roof (84) screwed connection.

2. The support structure of a frame stretching device for inverter processing according to claim 1, characterized in that: splint mechanism (8510) include riser (85101), recess (85102), reset spring (85103), activity frame (85104) and activity pearl (85105), riser (85101) rear end and first clamp splice (853) fixed connection, recess (85102) are seted up to riser (85101) upper end, recess (85102) are through reset spring (85103) and activity frame (85104) rear end elastic connection, activity frame (85104) are embedded in recess (85102) inboard, activity pearl (85105) and activity frame (85104) inboard swing joint.

3. The support structure of the frame stretching device for inverter processing according to claim 2, characterized in that: the grooves (85102) are provided with six in total, and the grooves (85102) are distributed at equal intervals along the front ends of the risers (85101).

4. The support structure of the frame stretching device for inverter processing according to claim 2, characterized in that: six recess (85102) upper end all is provided with reset spring (85103), activity frame (85104) and activity pearl (85105), and activity frame (85104) adopt clearance fit's mode to imbed in recess (85102) inboard.

5. The support structure of a frame stretching device for inverter processing according to claim 1, characterized in that: the number of the swing rods (8592) is two, the swing rods (8592) are oppositely arranged along the front side and the rear side of the upper end of the connecting sheet (8593), and fixing blocks (8591) are arranged at the upper ends of the swing rods (8592).

6. The support structure of a frame stretching device for inverter processing according to claim 1, characterized in that: first clamp splice (853) and second clamp splice (858) all are provided with two to first clamp splice (853) and second clamp splice (858) are respectively along first accepting board (854) and second accepting board (857) upper end left and right sides relative setting.