CN113683016A

CN113683016A - Power transformation system based on wisdom electric power

Info

Publication number: CN113683016A
Application number: CN202110999739.8A
Authority: CN
Inventors: 李小龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-29
Filing date: 2021-08-29
Publication date: 2021-11-23

Abstract

The invention relates to the field of power transformation systems, in particular to a power transformation system based on intelligent electric power. The driving gear through the driving mechanism rotates, the threaded sleeve capable of driving the lifting mechanism is located in the lifting groove to slide, the mounting plate is finally driven to be located between the supporting rods to slide, installation of the transformer main body is facilitated, the situation that installation personnel climb to a high place is avoided, the transformer main body can be installed in a hoisting mode, operation is more convenient, and accidents which possibly occur in the installation process are reduced.

Description

Power transformation system based on wisdom electric power

Technical Field

The invention relates to the field of power transformation systems, in particular to a power transformation system based on intelligent electric power.

Background

The transformer system is composed of a series of electrical devices, powerful electric energy generated by a power station can be transmitted to power users only through a transformer substation of the transformer system, the transformer substation mainly comprises a transformer main body and a lead used for connecting the transformer, and in order to ensure the safety of the transformer, two support rods are generally utilized to enable the fixed support rods of the transformer to be higher.

Can utilize lifting device to hoist the converter usually in the converter installation, and the installer will climb the eminence and carry out manual fixed, the operation is comparatively troublesome, and at the hoist and mount in-process, the condition that the converter dropped often can appear, thereby lead to accident, and overhaul the in-process at the converter, because the equal fixedly connected with wire in converter upper end, when not having any device that can let the wire stretch out and draw back, can only be with wire and converter disconnection back, just can follow the converter and take off between the support frame, work efficiency is lower.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a power transformation system based on intelligent electric power.

The technical scheme adopted by the invention for solving the technical problems is as follows: a power transformation system based on intelligent electric power comprises a fixed base, wherein a pair of supporting rods are fixedly connected to the middle position of the upper end of the fixed base, a mounting plate is connected between the supporting rods in a sliding manner, a sliding hole is formed in the position, corresponding to the supporting rods, of the mounting plate, a group of rotating beads are rotatably connected to the side wall of the sliding hole, one side, close to the rotating beads, of each rotating bead is contacted with the outer side of each supporting rod, a fixing groove is formed in the middle position of the upper end of the mounting plate, a transformer substation is fixedly connected to the upper end of the mounting plate, corresponding to the fixing groove, of the supporting rods, a wire collecting box is fixedly connected to the upper end of each supporting rod, a wire collecting mechanism is arranged in each wire collecting box, a lifting mechanism is arranged in each supporting rod, a linkage mechanism is arranged at the joint of each supporting rod and each wire collecting box, a driving mechanism is arranged in the fixed base, and a fixing mechanism is arranged at the joint between the mounting plate and the support rod.

Specifically, the transformer substation includes the transformer main part, oil tank of transformer main part lower extreme fixedly connected with, fixed plate of oil tank lower extreme fixedly connected with, the fixed plate joint is in the fixed slot, the even a set of cooling tube of fixedly connected with in the transformer main part outside, a set of working sleeve of transformer main part upper end fixedly connected with, equal joint has a wire in the working sleeve, the wire is kept away from working sleeve one end and is all passed the collection line case.

Concretely, elevating system includes lift groove and lifting screw, the lift groove is all seted up in the bracing piece, equal swivelling joint has a lifting screw in the lift inslot, the lifting screw lower extreme all passes the lift groove and all is located unable adjustment base, first bearing of the equal fixedly connected with in lift groove both ends and the lifting screw junction, equal threaded connection has a thread bush on the lifting screw, the thread bush is close to a connecting rod of the equal fixedly connected with in one side mutually, the connecting rod is kept away from thread bush one end and is all passed the lift groove and equal fixed connection on the mounting panel, the lift groove lateral wall just all has seted up one with the corresponding position of connecting rod and has connected the spout, the equal sliding connection of connecting rod is in connecting the spout.

Concretely, actuating mechanism includes driving groove, limiting plate and driven gear, the driving groove is seted up in unable adjustment base, in the driving groove and for having a initiative pivot with driving groove intermediate position swivelling joint, driving gear of fixedly connected with in the initiative pivot, unable adjustment base upper end and with a limiting plate of the corresponding position fixedly connected with of initiative pivot, driving motor of fixedly connected with in the limiting plate, the extension is passed driving groove and fixed connection on the driving motor output in initiative pivot upper end, driven gear fixed connection just is located the driving groove at elevating system's lifting screw lower extreme, all connect through the transmission chain transmission between driving gear and the driven gear.

Specifically, admission machine constructs including insulating roller, the equal sliding connection take-up box of insulating roller, insulating roller is located the take-up box and distributes from top to bottom, a thread groove has all been seted up to insulating roller intermediate position, the insulating roller outside just is located the thread groove both sides and has all been seted up a metallic channel, the equal fixedly connected with gag lever post in insulating roller both ends, take-up box both sides just all have been seted up a spacing groove with the corresponding position of gag lever post, the equal sliding connection of insulating roller one end is kept away from to the gag lever post is in the spacing groove, a perforation has all been seted up to both ends intermediate position about the take-up box.

Specifically, the link gear includes threaded rod and initiative bevel gear, the equal swivelling joint of threaded rod just all passes the thread groove of admission machine in the admission machine, the equal threaded connection of insulating roller of threaded rod and admission machine, the threaded rod is close to bracing piece one end and all passes the admission machine and be located elevating system's elevator groove, the threaded rod is located driven bevel gear of the equal fixedly connected with of elevator inslot one end, the equal fixed connection of initiative bevel gear is on elevating system's lifting screw and the position is corresponding with the initiative bevel gear, the initiative bevel gear is connected with the equal meshing of driven bevel gear, threaded rod and the equal fixedly connected with second bearing of admission machine lateral wall junction.

The fixing mechanism comprises an extrusion groove and an inclined plate, the extrusion groove is formed in the mounting plate and located on one side, close to one side of the supporting rod, the inclined plate is fixedly connected between the wire collecting box and the fixing base, the inclined plate penetrates through the corresponding extrusion groove, the fixing groove side wall and the corresponding position of the extrusion groove are provided with a containing groove, a clamping plate is connected in the containing groove in a sliding mode, the clamping plate is far away from a connecting plate which is fixedly connected with one side, the connecting plate is far away from the middle position of one side of the clamping plate and penetrates through the containing groove and is located in the extrusion groove, and one end of the connecting plate located in the extrusion groove is in contact with the inclined plate side wall.

It is specific, accomodate groove lateral wall both ends and all seted up a flexible groove, equal sliding connection has a telescopic link in the flexible inslot, equal coupling spring of fixedly connected with between telescopic link and the flexible groove lateral wall, the telescopic link is kept away from the equal fixed connection of coupling spring one end and is on the cardboard.

The invention has the beneficial effects that:

(1) according to the invention, the driving gear of the driving mechanism rotates to drive the threaded sleeve of the lifting mechanism to slide in the lifting groove, and finally the mounting plate is driven to slide between the supporting rods, so that the transformer main body is convenient to mount, the situation that the transformer main body can be mounted only by lifting the transformer main body by mounting personnel at a high position is avoided, the operation is more convenient, and possible accidents in the mounting process are reduced.

(2) According to the invention, the threaded rod of the linkage mechanism can be driven to rotate through the rotation of the lifting screw rod, so that the insulating roller of the take-up mechanism is driven to slide in the take-up box, the lead in the take-up box can freely stretch according to the sliding of the mounting plate, and the transformer main body can still be lifted without disconnecting the connection of the lead and the wiring sleeve when the transformer main body is damaged, thereby facilitating the maintenance of the transformer main body.

(3) According to the invention, the inclined plate of the fixing mechanism can extrude the connecting plate while the mounting plate slides upwards, so that the clamping plate can extend out of the accommodating groove, and finally the fixing plate is fixed in the fixing groove, thus fixing the transformer main body is completed, the transformer main body can be conveniently detached under the condition of ensuring stable mounting of the transformer main body, and the mounting efficiency of the transformer main body is further improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of a front cut-away structure provided by the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is a schematic view of a sectional plan view of the mounting plate provided by the present invention;

FIG. 4 is an enlarged schematic view of the structure at B in FIG. 3 according to the present invention;

FIG. 5 is a schematic view of an appearance structure of an insulation roller according to the present invention;

FIG. 6 is a schematic view of a top-down cutting structure of the take-up box provided by the present invention;

FIG. 7 is a schematic view of a top-down cut-away structure of the fixing base provided by the present invention;

fig. 8 is a schematic view of the front appearance structure provided by the present invention.

In the figure: 1. a fixed base; 2. a support bar; 3. mounting a plate; 4. a lifting mechanism; 41. a lifting groove; 42. a lifting screw; 43. a threaded sleeve; 44. a connecting rod; 45. connecting the sliding chute; 46. a first bearing; 5. a drive mechanism; 51. a drive slot; 52. a limiting plate; 53. a drive motor; 54. a driving gear; 55. a driven gear; 56. a drive chain; 57. a driving rotating shaft; 6. a take-up mechanism; 61. an insulating roller; 62. a thread groove; 63. a wire guide groove; 64. a limiting groove; 65. perforating; 66. a limiting rod; 7. a linkage mechanism; 71. a threaded rod; 72. a driven bevel gear; 73. a driving bevel gear; 74. a second bearing; 8. a fixing mechanism; 81. extruding a groove; 82. a sloping plate; 83. a receiving groove; 84. clamping a plate; 85. a connecting plate; 86. a telescopic groove; 87. a telescopic rod; 88. a connecting spring; 9. a transformer substation; 91. a power converter main body; 92. an oil tank; 93. a fixing plate; 94. a radiating pipe; 95. a wiring sleeve; 96. a wire; 10. fixing grooves; 11. a wire collection box; 12. a slide hole; 13. and (5) rotating the beads.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-8, the intelligent power transformation system of the present invention comprises a fixed base 1, a pair of support rods 2 are fixedly connected to the middle position of the upper end of the fixed base 1, a mounting plate 3 is slidably connected between the support rods 2, a sliding hole 12 is formed in the mounting plate 3 and the support rods 2, a set of rotating beads 13 is rotatably connected to the side wall of the sliding hole 12, one side of the rotating bead 13 close to the supporting rod 2 contacts the outer side of the support rod 2, a fixing groove 10 is formed in the middle position of the upper end of the mounting plate 3, a transformer substation 9 is fixedly connected to the upper end of the mounting plate 3 and the fixing groove 10, a wire collection box 11 is fixedly connected between the support rods 2 and at the upper end of the support rod 2, a wire collection mechanism 6 is arranged in the wire collection box 11, and a lifting mechanism 4 is arranged in the support rod 2, the connecting part of the support rod 2 and the take-up box 11 is provided with a linkage mechanism 7, the fixed base 1 is internally provided with a driving mechanism 5, and the connecting part between the mounting plate 3 and the support rod 2 is provided with a fixing mechanism 8.

Specifically, transformer substation 9 includes transformer main part 91, oil tank 92 of transformer main part 91 lower extreme fixedly connected with, fixed plate 93 of oil tank 92 lower extreme fixedly connected with, the joint of fixed plate 93 is in fixed slot 10, a set of cooling tube 94 of the even fixedly connected with in the transformer main part 91 outside, a set of wire connection cover 95 of transformer main part 91 upper end fixedly connected with, equal joint has a wire 96 in the wire connection cover 95, wire 96 is kept away from wire connection cover 95 one end and is all passed and receive line case 11.

Specifically, the lifting mechanism 4 comprises a lifting groove 41 and a lifting screw 42, the lifting groove 41 is arranged in the support rod 2, the lifting groove 41 is connected with a lifting screw 42 in a rotating manner, the lower end of the lifting screw 42 penetrates through the lifting groove 41 and is positioned in the fixed base 1, the joint of the two ends of the lifting groove 41 and the lifting screw 42 is fixedly connected with a first bearing 46, the lifting screw 42 is connected with a threaded sleeve 43 in a threaded manner, the threaded sleeve 43 is connected with a connecting rod 44 in a fixed manner, one end of the connecting rod 44 far away from the threaded sleeve 43 penetrates through the lifting groove 41 and is fixedly connected to the mounting plate 3, the side wall of the lifting groove 41 and the position corresponding to the connecting rod 44 are provided with a connecting chute 45, the connecting rod 44 is connected in the connecting chute 45 in a sliding manner, when the lifting screw 42 rotates, the screw sleeve 43 can be positioned in the lifting groove 41 to slide, and the connecting rod 44 can be positioned in the connecting sliding groove 45 to slide, so that the mounting plate 3 is positioned between the supporting rods 2 to slide, and the automatic lifting of the transformer main body 91 is realized.

Specifically, the driving mechanism 5 includes a driving groove 51, a limiting plate 52 and a driven gear 55, the driving groove 51 is opened in the fixing base 1, a driving rotating shaft 57 is rotatably connected with the middle of the driving groove 51 in the driving groove 51, a driving gear 54 is fixedly connected to the driving rotating shaft 57, a limiting plate 52 is fixedly connected to the upper end of the fixing base 1 and the position corresponding to the driving rotating shaft 57, a driving motor 53 is fixedly connected to the limiting plate 52, the upper end of the driving rotating shaft 57 extends through the driving groove 51 and is fixedly connected to the output end of the driving motor 53, the driven gear 55 is fixedly connected to the lower end of the lifting screw 42 of the lifting mechanism 4 and is located in the driving groove 51, the driving gear 54 and the driven gear 55 are both in transmission connection through a transmission chain 56, and the output end of the driving motor 53 drives the driving rotating shaft 57 to rotate, thereby driving the driving gear 54 to rotate, and the two driven gears 55 can rotate synchronously through the transmission of the transmission chain 56, so as to realize the synchronous rotation of the two lifting screws 42.

Specifically, the take-up mechanism 6 comprises an insulating roller 61, the insulating roller 61 is slidably connected with the inside of the take-up box 11, the insulating roller 61 is located at the upper and lower parts of the inside of the take-up box 11, a thread groove 62 is formed in the middle of the insulating roller 61, a wire groove 63 is formed in the outer side of the insulating roller 61 and at two sides of the thread groove 62, two ends of the insulating roller 61 are fixedly connected with a limiting rod 66, a limiting groove 64 is formed in each of two sides of the take-up box 11 and at a position corresponding to the limiting rod 66, one end of the limiting rod 66 far away from the insulating roller 61 is slidably connected with the limiting groove 64, a through hole 65 is formed in the middle of the upper and lower parts of the take-up box 11, the linkage mechanism 7 comprises a threaded rod 71 and a driving bevel gear 73, the threaded rod 71 is rotatably connected with the inside of the take-up box 11 and penetrates through the thread groove 62 of the take-up mechanism 6, the threaded rod 71 is in threaded connection with the insulating roller 61 of the take-up mechanism 6, one end of the threaded rod 71, which is close to the support rod 2, penetrates through the take-up box 11 and is located in the lifting groove 41 of the lifting mechanism 4, one end of the threaded rod 71, which is located in the lifting groove 41, is fixedly connected with a driven bevel gear 72, the driving bevel gears 73 are fixedly connected to the lifting screw 42 of the lifting mechanism 4 and correspond to the driving bevel gears 73 in position, the driving bevel gears 73 and the driven bevel gears 72 are meshed and connected, the joints of the threaded rod 71 and the side wall of the take-up box 11 are fixedly connected with a second bearing 74, when the lifting screw 42 rotates, the driving bevel gears 73 can be driven to synchronously rotate, so that the driven bevel gears 72 can synchronously rotate along with the driving bevel gears 73, finally the threaded rod 71 is driven to rotate, the insulating roller 61 is located in the take-up box 11 to slide, and when the insulating roller 61 slides to one side, the lead 96 can extend out of the take-up box 11, when the insulating roller 61 slides to the side away from the wire, the wire 96 can be stored in the take-up box 11.

Specifically, the fixing mechanism 8 comprises an extrusion groove 81 and an inclined plate 82, the extrusion groove 81 is arranged on the mounting plate 3 and is positioned at one side close to the support rod 2, the inclined plate 82 is fixedly connected between the wire collection box 11 and the fixing base 1, the inclined plate 82 penetrates through the corresponding extrusion groove 81, a storage groove 83 is arranged on the side wall of the fixing groove 10 and is positioned at the position corresponding to the extrusion groove 81, a snap-gauge 84 is connected in the storage groove 83 in a sliding manner, a connecting plate 85 is fixedly connected at one side far away from the snap-gauge 84, the connecting plate 85 penetrates through the storage groove 83 and is positioned in the extrusion groove 81 at the middle position far away from one side of the snap-gauge 84, one end of the connecting plate 85 positioned in the extrusion groove 81 is contacted with the side wall of the inclined plate 82, two telescopic grooves 86 are arranged at two ends of the side wall of the storage groove 83, and a telescopic rod 87 is connected in the telescopic groove 86 in a sliding manner, a connecting spring 88 is fixedly connected between the telescopic rod 87 and the side wall of the telescopic groove 86, one end of the telescopic rod 87 far away from the connecting spring 88 is fixedly connected to the clamping plate 84, during the ascending process of the mounting plate 3, the inclined surface of the inclined plate 82 pushes the connecting plate 85 to slide towards the side close to the fixed plate 93, thereby driving the clamping plate 84 to slide in the accommodating groove 83, finally causing one end of the clamping plate 84 far away from the connecting plate 85 to extend out of the accommodating groove 83 and be clamped at the upper end of the fixing plate 93, causing the fixing plate 93 to be fixed in the fixing groove 10, in the process, the telescopic rod 87 slides in the telescopic slot 86 and stretches the connecting spring 88, so that the connecting spring 88 pulls the telescopic rod 87 to return during the descending process of the mounting plate 3, thereby, the chucking plate 84 is accommodated in the accommodating groove 83, the chucking plate 84 is disconnected from the fixing plate 93, and the transformer body 91 is easily detached from the upper end of the mounting plate 3.

When the device is used, firstly, the whole device is connected with an external power supply, then the transformer substation 9 is placed at the upper end of the mounting plate 3, the fixing plate 93 is clamped in the fixing groove 10, then the lead 96 passes through the wire collecting box 11, the lead 96 is wound and connected on the outer side of the insulating roller 61, then the driving motor 53 is started, the output end of the driving motor 53 drives the driving rotating shaft 57 to rotate, so that the driving gear 54 can be driven to rotate, the two driven gears 55 can synchronously rotate through the transmission of the transmission chain 56, so that the two lifting screw rods 42 synchronously rotate, when the lifting screw rods 42 rotate, the thread sleeves 43 can slide in the lifting grooves 41, and the connecting rods 44 can slide in the connecting chutes 45, so that the mounting plate 3 can slide between the supporting rods 2, the automatic lifting of the transformer main body 91 is realized, and simultaneously, when the lifting screw rods 42 rotate, the driving bevel gears 73 can be driven to synchronously rotate, so that the driven bevel gear 72 rotates synchronously with the driving bevel gear 73 to finally drive the threaded rod 71 to rotate, the insulating roller 61 is positioned in the wire collection box 11 to slide, when the insulating roller 61 slides towards one side close to the wire collection box 11, the wire 96 can extend out of the wire collection box 11, when the insulating roller 61 slides towards one side far away from the wire collection box 11, the wire 96 can be accommodated in the wire collection box 11, meanwhile, in the process of ascending the mounting plate 3, the inclined plate 82 pushes the connecting plate 85 to slide towards one side close to the fixing plate 93, so that the clamping plate 84 can be driven to slide in the accommodating groove 83, finally, one end of the clamping plate 84, far away from the connecting plate 85, extends out of the accommodating groove 83 and is clamped at the upper end of the fixing plate 93, so that the fixing plate 93 is fixed in the fixing groove 10, in the process, the telescopic rod 87 is positioned in the telescopic groove 86 to slide and stretches the connecting spring 88, so that the connecting spring 88 pulls the telescopic rod 87 to reset in the process of descending of the mounting plate 3, thereby, the chucking plate 84 is accommodated in the accommodating groove 83, the chucking plate 84 is disconnected from the fixing plate 93, and the transformer body 91 is easily detached from the upper end of the mounting plate 3.

The invention has the beneficial effects that:

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A power transformation system based on intelligent electric power comprises a fixed base (1) and is characterized in that a pair of supporting rods (2) is fixedly connected to the middle position of the upper end of the fixed base (1), a mounting plate (3) is connected between the supporting rods (2) in a sliding mode, a sliding hole (12) is formed in the corresponding position of the mounting plate (3) and the supporting rods (2), a group of rotating beads (13) are rotatably connected to the side wall of the sliding hole (12), one side, close to the rotating beads (13), of each rotating bead is in contact with the outer side of the corresponding supporting rod (2), a fixing groove (10) is formed in the middle position of the upper end of the mounting plate (3), a transformer substation (9) is fixedly connected to the upper end of the mounting plate (3) and the position, corresponding to the fixing groove (10), a wire collection box (11) is fixedly connected between the supporting rods (2) and located at the upper end of the supporting rods (2), the wire winding machine is characterized in that a wire winding mechanism (6) is arranged in the wire winding box (11), a lifting mechanism (4) is arranged in the supporting rod (2), a linkage mechanism (7) is arranged at the joint of the supporting rod (2) and the wire winding box (11), a driving mechanism (5) is arranged in the fixed base (1), and a fixed mechanism (8) is arranged at the joint between the mounting plate (3) and the supporting rod (2).

2. A power transformation system based on intelligent power as claimed in claim 1, wherein: transformer substation (9) are including transformer main part (91), oil tank (92) of transformer main part (91) lower extreme fixedly connected with, fixed plate (93) of oil tank (92) lower extreme fixedly connected with, fixed plate (93) joint is in fixed slot (10), a set of cooling tube (94) of the even fixedly connected with in transformer main part (91) outside, a set of wire connection cover (95) of transformer main part (91) upper end fixedly connected with, equal joint has a wire (96) in wire connection cover (95), wire (96) are kept away from wire connection cover (95) one end and are all passed collection line case (11).

3. A power transformation system based on intelligent power as claimed in claim 1, wherein: the lifting mechanism (4) comprises a lifting groove (41) and a lifting screw (42), the lifting groove (41) is arranged in the support rod (2), the lifting groove (41) is internally and rotatably connected with the lifting screw (42), the lower end of the lifting screw (42) penetrates through the lifting groove (41) and is positioned in the fixed base (1), the joint of the two ends of the lifting groove (41) and the lifting screw (42) is fixedly connected with a first bearing (46), the lifting screw (42) is in threaded connection with a threaded sleeve (43), the threaded sleeve (43) is close to one side and is fixedly connected with a connecting rod (44), one end, far away from the threaded sleeve (43), of the connecting rod (44) penetrates through the lifting groove (41) and is fixedly connected to the mounting plate (3), the side wall of the lifting groove (41) and the position corresponding to the connecting rod (44) are respectively provided with a connecting chute (45), the connecting rods (44) are connected in the connecting sliding grooves (45) in a sliding mode.

4. A power transformation system based on intelligent power as claimed in claim 1, wherein: the driving mechanism (5) comprises a driving groove (51), a limiting plate (52) and a driven gear (55), the driving groove (51) is arranged in the fixed base (1), a driving rotating shaft (57) is connected in the driving groove (51) and in a rotating mode to the middle position of the driving groove (51), a driving gear (54) is fixedly connected to the driving rotating shaft (57), a limiting plate (52) is fixedly connected to the upper end of the fixed base (1) and corresponds to the driving rotating shaft (57), a driving motor (53) is fixedly connected in the limiting plate (52), the upper end of the driving rotating shaft (57) extends through the driving groove (51) and is fixedly connected to the output end of the driving motor (53), the driven gear (55) is fixedly connected to the lower end of a lifting screw (42) of the lifting mechanism (4) and is located in the driving groove (51), the driving gear (54) and the driven gear (55) are in transmission connection through a transmission chain (56).

5. A power transformation system based on intelligent power as claimed in claim 1, wherein: the wire take-up mechanism (6) comprises an insulating roller (61), the insulating roller (61) is connected with the wire take-up box (11) in a sliding mode, the insulating roller (61) is located in the wire take-up box (11) and distributed up and down, a thread groove (62) is formed in the middle of the insulating roller (61), a wire groove (63) is formed in the outer side of the insulating roller (61) and located on two sides of the thread groove (62), a limiting rod (66) is fixedly connected to two ends of the insulating roller (61), a limiting groove (64) is formed in two sides of the wire take-up box (11) and corresponds to the limiting rod (66), one end of the limiting rod (66) is far away from the insulating roller (61) and is connected with the limiting groove (64) in a sliding mode, and a through hole (65) is formed in the middle of the upper end and the lower end of the wire take-up box (11).

6. A power transformation system based on intelligent power as claimed in claim 1, wherein: the linkage mechanism (7) comprises a threaded rod (71) and a driving bevel gear (73), the threaded rods (71) are rotatably connected in the take-up box (11) and penetrate through the thread grooves (62) of the take-up mechanism (6), the threaded rod (71) is in threaded connection with the insulating roller (61) of the take-up mechanism (6), one end of the threaded rod (71) close to the support rod (2) passes through the wire collecting box (11) and is positioned in the lifting groove (41) of the lifting mechanism (4), one end of the threaded rod (71) positioned in the lifting groove (41) is fixedly connected with a driven bevel gear (72), the driving bevel gears (73) are all fixedly connected on a lifting screw rod (42) of the lifting mechanism (4) and the positions of the driving bevel gears (73) correspond to those of the driving bevel gears (73), the driving bevel gear (73) is meshed and connected with the driven bevel gear (72), and the joint of the threaded rod (71) and the side wall of the take-up box (11) is fixedly connected with a second bearing (74).

7. A power transformation system based on intelligent power as claimed in claim 1, wherein: the fixing mechanism (8) comprises extrusion grooves (81) and inclined plates (82), the extrusion grooves (81) are all arranged on the mounting plate (3) and are positioned at one side of the support rod (2) close to each other, the inclined plate (82) is fixedly connected between the wire collecting box (11) and the fixed base (1), the inclined plate (82) penetrates through the corresponding extrusion groove (81), the side wall of the fixed groove (10) and the position corresponding to the extrusion groove (81) are provided with a containing groove (83), a clamping plate (84) is connected in the accommodating groove (83) in a sliding manner, one side of the clamping plate (84) far away from each other is fixedly connected with a connecting plate (85), the middle position of one side of the connecting plate (85) far away from the clamping plate (84) passes through the accommodating groove (83) and is positioned in the extrusion groove (81), one end of the connecting plate (85) positioned in the extrusion groove (81) is contacted with the side wall of the inclined plate (82).

8. A power transformation system based on intelligent power as claimed in claim 7, wherein: accomodate groove (83) lateral wall both ends and all seted up one flexible groove (86), equal sliding connection has one telescopic link (87) in flexible groove (86), equal fixedly connected with one connecting spring (88) between telescopic link (87) and flexible groove (86) lateral wall, connecting spring (88) are kept away from in telescopic link (87) one end equal fixed connection on cardboard (84).