CN111900650A

CN111900650A - Distributed intelligent voltage generation device and use method

Info

Publication number: CN111900650A
Application number: CN202010645543.4A
Authority: CN
Inventors: 王志成; 邱恒清; 邹进; 谢国强
Original assignee: State Grid Corp of China SGCC; Electric Power Research Institute of State Grid Jiangxi Electric Power Co Ltd
Current assignee: State Grid Corp of China SGCC; Electric Power Research Institute of State Grid Jiangxi Electric Power Co Ltd
Priority date: 2020-07-07
Filing date: 2020-07-07
Publication date: 2020-11-06
Anticipated expiration: 2040-07-07
Also published as: CN111900650B

Abstract

A voltage generation device for distributed intelligence comprises a connecting top plate (1), a positioning connecting rod (2), a current generator (3) and a base (4). The pulley block comprises a base, a plurality of pulleys, a supporting plate (6) and a positioning fixing rod (11), wherein the pulleys are symmetrically distributed at the bottom of the base, the supporting plate (6) is fixedly connected at the middle part of the base, a current generator is fixedly connected at one side of the top of the supporting plate, the voltage generator (7) is fixedly connected at one side of the top of the supporting plate, which is positioned at one side of the current generator, the positioning fixing rod (11) is fixedly connected at one side of the top of the supporting plate, a plurality of forming insulating support columns (10); through the setting of connecting arc board, connecting the bottom plate, improved voltage generator's functionality, through the cooperation of connecting arc board, connecting the bottom plate and using, can be fixed in the top of connecting the bottom plate with the insulating pillar of shaping, be convenient for to the installation and the detection of the insulating pillar of shaping, reduced complexity, the repeatability of bolt installation.

Description

Distributed intelligent voltage generation device and use method

Technical Field

The invention relates to a distributed intelligent voltage generating device and a using method thereof, belonging to the technical field of power supply.

Background

With the rapid development of national economy, power users have made higher requirements on power supply reliability and power supply quality, which requires power supply enterprises to continuously improve power supply reliability. Because the fault indicator has the functions of quickly searching and positioning the fault of the distribution line, the fault indicator is more and more widely applied to the distribution system. Fault indicator technology is a means of effectively indicating the location of a fault in a distribution line that has developed in recent years. The short-circuit fault indicator is arranged at the branch point, the user inlet wire and the like, so that the fault branch and the fault section can be quickly determined by the indication of the indicator, the time for searching the fault point is greatly reduced, the fault can be quickly eliminated, and the normal power supply can be recovered.

The existing voltage generation device has a certain problem when in use, because the insulating pillar of shaping is comparatively complicated when the installation, because the insulating pillar of shaping needs to be installed and detect according to the user demand, current mounting method is mostly through the bolt fastening, make the insulating pillar of shaping and metal direct contact, certain potential safety hazard has been brought, must just can detect it with the help of the instrument simultaneously and dismantle, work is comparatively loaded down with trivial details, it is complicated, and the base passes through the pulley and slides, in the use, the base is the point contact with ground, stability is relatively poor, potential safety hazard has been increased for constructor, the problem of work efficiency has been reduced.

Disclosure of Invention

The invention aims to solve the problems that the existing voltage generating device provided by the background technology has certain problems in use, and the problems comprise that the formed insulating support is complex in installation, the formed insulating support needs to be installed and detected according to use requirements, and the existing installation method is mostly fixed by bolts, so that the formed insulating support is in direct contact with metal, and certain potential safety hazards are brought.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a distributed intelligent voltage generation device, includes base 4 the bottom symmetric distribution of base 4 has a plurality of pulleys, the middle part fixedly connected with backup pad 6 of base 4, top one side fixedly connected with current generator 3 of backup pad 6, the top of backup pad 6 is located one side fixedly connected with voltage generator 7 of current generator 3, the top of backup pad 6 is located one side fixedly connected with location dead lever 11 of voltage generator 7, the surface mounting of voltage generator 7 has a plurality of shaping insulation support posts 10.

The surface of the voltage generator 7 is fixedly connected with a connecting arc plate 12, connecting holes 20 are formed in the connecting arc plate 12 close to the edges of two sides, fastening bolts 21 are arranged inside the connecting holes 20, and the connecting arc plate 12 is fixed on the surface of the voltage generator 7 through the two fastening bolts 21; the connecting arc plate 12 is fixedly connected with a connecting bottom plate 18 in the middle of one side of the connecting hole 20, the top of the connecting bottom plate 18 is slidably connected with a positioning sliding plate 14, two positioning sliding blocks 22 are symmetrically distributed at the bottom of the positioning sliding plate 14, the top surface of the connecting bottom plate 18 is provided with a positioning adjusting groove 13 matched with the positioning slide block 22 for use, the middle of the bottom of the positioning slide plate 14 is fixedly connected with an adjusting slide column 25, the adjusting slide column 25 is positioned inside the connecting bottom plate 18, the top of the connecting bottom plate 18 is provided with an adjusting slide rail 16 used in cooperation with the adjusting slide column 25, the surface of the adjusting sliding column 25 is rotatably connected with a connecting rotating shaft 23, the middle part of the connecting rotating shaft 23 is fixedly connected with a connecting screw rod 24, the surface of the side wall of the connecting bottom plate 18 is provided with an adjusting screw hole 19 matched with a connecting screw rod 24, one end of the connecting screw rod 24, which is far away from the connecting rotating shaft 23, is connected with the adjusting bolt 15;

the bottom of base 4 is connected with a plurality of connection foundation posts 33 through elevating system, elevating system is including the drain pan 30 that resets, the inside of the drain pan 30 that resets is provided with loose gear 27, the tooth's socket 29 that uses with the cooperation of loose gear 27 is seted up to the inner wall of the drain pan 30 that resets, the first location runner 5 of one end fixedly connected with of loose gear 27, the solid fixed ring 26 of lateral wall fixedly connected with of base 4, just first location runner 5 passes solid fixed ring 26, the bottom fixedly connected with connecting pillar 31 of drain pan 30 that resets, connect the bottom 33 and be located the bottom of connecting pillar 31, the one end fixedly connected with that first location runner 5 was kept away from to loose gear 27 resets connecting rod 28.

The radian of the connecting arc plate 12 is larger than forty degrees, and the connecting arc plate 12 and the voltage generator 7 are the same circle center.

The shape and size of the positioning adjusting groove 13 are consistent with those of the positioning slide block 22, and the two are in clearance fit.

The cross section of the adjusting sliding column 25 is rectangular, the width of the adjusting sliding column 25 is consistent with that of the adjusting sliding rail 16, and the length of the adjusting sliding column 25 is consistent with that of the adjusting sliding rail 16.

One side fixedly connected with inoxidizing coating 17 of location slide 14, just the area of inoxidizing coating 17 is unanimous with the area size of location slide 14.

The material of inoxidizing coating 17 is insulating material, and the thickness of inoxidizing coating 17 is greater than 3 millimeters.

The number of the connecting bottom columns 33 and the number of the lifting mechanisms are four, the lifting mechanisms are of the same structure, the number of the movable gears 27 is also four, and the two opposite movable gears 27 are symmetrically distributed with the central point of the reset connecting rod 28.

The equal fixedly connected with wearing layer 32 in bottom of connecting bottom pillar 33, just wearing layer 32's material is the rubber material.

The top of backup pad 6 one side fixedly connected with location connecting rod 2, the top fixedly connected with of current generator 3, voltage generator 7, location dead lever 11 connects roof 1 the position of backup pad 6 is close to edge fixedly connected with main control cabinet 9.

A method for using a distributed intelligent voltage generating device, the method comprising the steps of:

the method comprises the following steps: firstly, a plurality of connecting arc plates 12 and a connecting bottom plate 18 are installed and fixed, the inner walls of the connecting arc plates 12 are tightly attached to the outer wall of a voltage generator 7, and then fastening bolts 21 are aligned to the positions of connecting holes 20, so that the connecting arc plates 12 are installed and fixed;

step two: then, the molded insulating support columns 10 are placed at the top of the connecting base plate 18, then the adjusting bolts 15 are rotated, so that the connecting screw rods 24 and the adjusting screw holes 19 rotate through threads to push the positioning sliding plates 14, the positioning sliding plates 14 play a clamping and fixing role on the molded insulating support columns 10, and the molded insulating support columns 10 are fixed on a voltage generating device;

step three: the first positioning rotating wheel 5 and the second positioning rotating wheel 8 are rotated, so that the movable gear 27 is driven to rotate by the rotation of the first positioning rotating wheel 5 and the second positioning rotating wheel 8, the reset bottom shell 30 slides to the bottom through the rotation of the movable gear 27, and the wear-resistant layer 32 slides to the ground, so that the stability of the voltage generating device is improved;

step four: then, the operating voltage generating device is adjusted, four insulating pillars are formed by four corners of the positioning connecting rod 2, the current generator 3, the voltage generator 7 and the positioning fixing rod 11, and then the formed insulating pillars 10 are fixed on the four insulating pillars, so that the formed insulating pillars 10 are fixed on a horizontal insulating crosspiece and a vertical insulating pillar, and fixing and measuring of the multi-stage main capacitor are completed.

The voltage generating device has the beneficial effects that the functionality of the voltage generating device is improved through the arrangement of the connecting arc plate and the connecting bottom plate; through the cooperation of connecting arc board, connecting the bottom plate and using, can be fixed in the top of connecting the bottom plate with the insulating pillar of shaping, the constructor of being convenient for has reduced complexity, the repeatability of bolt installation to the installation and the detection of the insulating pillar of shaping, and what insulating pillar of shaping, connection arc board adopted simultaneously is insulating material, the effectual potential safety hazard that has reduced the work degree of difficulty, has guaranteed the smooth progress of work.

The positioning sliding plate and the adjusting bolt are arranged, so that the practicability of the connecting bottom plate is further improved, the positioning sliding plate and the adjusting bolt are matched for use, the formed insulating support column at the top of the connecting bottom plate can be fixed, the operation is simple and convenient, the flexibility is higher, the displacement adjustment of the positioning sliding plate is convenient, the stability is higher when the formed insulating support column is fixed, the time is saved, and the fixing and the separation of the formed insulating support column are convenient.

The voltage generating device has the advantages that the stability of the voltage generating device is improved through the arrangement of the connecting support column and the wear-resistant layer, the contact area between the voltage generating device and the ground can be increased through the wear-resistant layer when the voltage generating device operates through the matching use of the connecting support column and the wear-resistant layer, so that the stability is improved, meanwhile, the wear-resistant layer is simple to adjust and quick to use, the potential safety hazard is reduced, and the working efficiency of constructors is improved.

Drawings

FIG. 1 is a schematic structural diagram of an intelligent voltage generator according to the present invention;

FIG. 2 is a top cross-sectional view of the structural locating fixing rod and connecting arc plate of the present invention;

FIG. 3 is a perspective view of a structural connecting arc plate and a connecting base plate of the present invention;

FIG. 4 is a side cross-sectional view of the structural connecting baseplate and connecting screw of the present invention;

FIG. 5 is a top cross-sectional view of the structural base and loose gear of the present invention;

FIG. 6 is a side cross-sectional view of the structural backing and connecting bottom pillar of the present invention.

In the figure: 1 is a connecting top plate; 2 is a positioning connecting rod; 3 is a current generator; 4 is a base; 5 is a first positioning wheel; 6 is a support plate; 7 is a voltage generator; 8 is a second positioning wheel; 9 is a main console; 10 is a shaped insulating support; 11 is a positioning fixing rod; 12 is a connecting arc plate; 13 is a positioning adjustment groove; 14 is a positioning slide plate; 15 is an adjusting bolt; 16 is an adjusting slide rail; 17 is a protective layer; 18 is a connection base plate; 19 is an adjusting screw hole; 20 is a connecting hole; 21 is a fastening bolt; 22 is a positioning slide block; 23 is a connecting rotating shaft; 24 is a connecting screw; 25 is an adjustment slide; 26 is a retaining ring; 27 is a loose gear; 28 is a reset connecting rod; 29 is a gullet; 30 is a reset bottom case; 31 is a connecting strut; 32 is a wear layer; 33 is a connecting bottom pillar.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1 to 6, the present embodiment provides a technical solution: a distributed intelligent voltage generation device comprises a base 4, a plurality of pulleys are symmetrically distributed at the bottom of the base 4, a supporting plate 6 is fixedly connected at the middle part of the base 4, a current generator 3 is fixedly connected at one side of the top part of the supporting plate 6, a voltage generator 7 is fixedly connected at one side of the top part of the supporting plate 6, a positioning fixing rod 11 is fixedly connected at one side of the top part of the supporting plate 6, a plurality of formed insulating struts 10 are installed on the surface of the voltage generator 7, a connecting arc plate 12 is fixedly connected at the surface of the voltage generator 7, connecting holes 20 are respectively formed at the connecting arc plate 12 close to the edges of two sides, fastening bolts 21 are arranged inside the connecting holes 20, the connecting arc plate 12 is fixed on the surface of the voltage generator 7 through two fastening bolts 21, a connecting bottom plate 18 is fixedly connected at the middle part of one side of the connecting hole 20 of, the connecting bottom plate 18 is used for fixing the formed insulating support column 10, the top of the connecting bottom plate 18 is slidably connected with a positioning sliding plate 14, the positioning sliding plate 14 is used for limiting and clamping the formed insulating support column 10, two positioning sliding blocks 22 are symmetrically distributed at the bottom of the positioning sliding plate 14, a positioning adjusting groove 13 matched with the positioning sliding blocks 22 for use is formed in the surface of the top of the connecting bottom plate 18, the positioning sliding blocks 22 can slide in the positioning adjusting groove 13 and are used for achieving a sliding effect on the positioning sliding plate 14, so that the positioning sliding plate 14 slides on the top of the connecting bottom plate 18, the positioning sliding plate 14 cannot be separated from the connecting bottom plate 18, an adjusting sliding column 25 is fixedly connected to the middle of the bottom of the positioning sliding plate 14, the adjusting sliding column 25 is located inside the connecting bottom plate 18, the top of the connecting bottom plate 18 is provided with an adjusting sliding rail 16 matched with the adjusting sliding column 25 for use, and the surface of the, the middle part of the connecting rotating shaft 23 is fixedly connected with a connecting screw rod 24, the outer ring of the connecting rotating shaft 23 is connected with an adjusting sliding column 25, the inner ring of the adjusting sliding column 25 is connected with the connecting screw rod 24, the surface of the side wall of the connecting bottom plate 18 is provided with an adjusting screw hole 19 matched with the connecting screw rod 24 for use, one end of the connecting screw rod 24 far away from the connecting rotating shaft 23 is connected with an adjusting bolt 15, when in use, the connecting arc plate 12 and the connecting bottom plate 18 are fixed on the side wall of the voltage generator 7 through a fastening bolt 21, then the formed insulating support column 10 is placed at the top of the connecting bottom plate 18, then the adjusting bolt 15 is rotated, the rotating of the adjusting bolt 15 drives the connecting screw rod 24 to rotate, so that the connecting screw rod 24 and the adjusting screw hole 19 rotate through threads, thereby the displacement of the connecting screw rod 24 is changed, the adjusting sliding column 25 and the positioning sliding plate 14 are pushed, the adjusting sliding column 25 slides to one side of the connecting arc plate 12, so that the formed insulating support column 10 is fixed on the top of the connecting bottom plate 18, the use is simple and convenient, meanwhile, the formed insulating support column 10 can be rapidly placed and installed, and the stability of the formed insulating support column 10 is improved;

the bottom of the base 4 is connected with a plurality of connecting bottom posts 33 through a lifting mechanism, the lifting mechanism is used for achieving the effect of adjusting the connecting bottom posts 33 up and down, the lifting mechanism comprises a reset bottom shell 30, a movable gear 27 is arranged inside the reset bottom shell 30, a tooth groove 29 matched with the movable gear 27 for use is arranged on the inner wall of the reset bottom shell 30, the movable gear 27 can be continuously meshed and separated from the tooth groove 29 when rotating, the movable gear 27 only can rotate and can not change displacement, the continuous meshing and separation of the movable gear 27 and the tooth groove 29 can enable the reset bottom shell 30 to slide up and down for adjustment, one end of the movable gear 27 is fixedly connected with a first positioning rotating wheel 5, the rotation of the first positioning rotating wheel 5 can drive the movable gear 27 to rotate together, the outer side wall of the base 4 is fixedly connected with a fixing ring 26, the first positioning rotating wheel 5 penetrates through the fixing ring 26, the inner wall of the fixing ring 26 is provided with an internal thread, the first positioning wheel 5 can drive the movable gear 27 to rotate when rotating, meanwhile, the first positioning wheel 5 and the fixing ring 26 can achieve a fixing effect through the threaded rotation, the bottom of the resetting bottom shell 30 is fixedly connected with the connecting pillar 31, the connecting bottom pillar 33 is positioned at the bottom of the connecting pillar 31, one end of the movable gear 27 far away from the first positioning wheel 5 is fixedly connected with the resetting connecting rod 28, referring to fig. 5, when the rotating of the first positioning wheel 5 drives the movable gear 27 to rotate, the movable gear 27 can drive the movable gear 27 on the opposite side to rotate together through the resetting connecting rod 28, when the voltage generating device is used, when the first positioning wheel 5 rotates clockwise, the continuous meshing separation of the movable gear 27 and the tooth groove 29 can enable the resetting bottom shell 30 to slide up and down for adjustment, so that the resetting bottom shell 30 slides to the, thereby make and connect sill pillar 33 and ground contact, the area of contact on voltage generating device and ground has been increased, voltage generating device's stability has been increased, first location runner 5 simultaneously, second location runner 8 clockwise rotation drives loose gear 27 rotatory back, loose gear 27 drives relative loose gear 27 through the connecting rod 28 that resets and rotates, thereby make a plurality of drain pans 30 that reset slide to the bottom simultaneously, make a plurality of connection sill pillars 33 and ground contact, the area of contact on voltage generating device and ground has been increased, voltage generating device's stability has been increased.

The radian of the connecting arc plate 12 is larger than forty degrees, and the connecting arc plate 12 and the voltage generator 7 are in the same circle center, so that the stability of the fixed connecting arc plate 12 is higher.

The shape and size of the positioning adjustment groove 13 are consistent with those of the positioning slide block 22, and the positioning slide block 22 is in clearance fit with the positioning adjustment groove 13 for use, so that the positioning slide block 22 can slide in the positioning adjustment groove 13 conveniently.

The cross section of the adjusting sliding column 25 is rectangular, the width of the adjusting sliding column 25 is consistent with that of the adjusting sliding rail 16, and the length of the adjusting sliding column 25 is consistent with that of the adjusting sliding rail 16, so that the adjusting sliding column 25 can slide in the adjusting sliding rail 16 conveniently.

One side fixedly connected with inoxidizing coating 17 of location slide 14, and the area of inoxidizing coating 17 is unanimous with the area size of location slide 14, and the material of inoxidizing coating 17 is insulating material, and the thickness of inoxidizing coating 17 is greater than three millimeters for reduce the electricity transmission when location slide 14 passes through inoxidizing coating 17 and article contact, it is safer to fix.

The number of connecting bottom posts 33, elevating system is four, and elevating system is equivalent structure, and the number of loose gear 27 also is four, and two relative loose gear 27 are with 28 central points symmetric distributions of connecting rod that reset for a plurality of connecting after the bottom posts 33 are fixed more stable.

The equal fixedly connected with wearing layer 32 in bottom of connecting foundation column 33, and the material of wearing layer 32 is the rubber material for the frictional force of connecting foundation column 33 and ground is great, has further improved stability.

The top of backup pad 6 one side fixedly connected with location connecting rod 2, the top fixedly connected with of current generator 3, voltage generator 7, location dead lever 11 connects roof 1, and the position of backup pad 6 is close to edge fixedly connected with main control cabinet 9.

The application method for the distributed intelligent voltage generation device comprises the following steps:

the method comprises the following steps: firstly, the plurality of connecting arc plates 12 and the connecting bottom plate 18 are fixedly installed, the inner walls of the connecting arc plates 12 are tightly attached to the outer wall of the voltage generator 7, and then the fastening bolts 21 are aligned to the positions of the connecting holes 20, so that the connecting arc plates 12 are fixedly installed.

Step two: next, the insulating pillars 10 are placed on top of the connecting base plate 18, and then the adjusting bolt 15 is rotated, so that the connecting screw 24 and the adjusting screw hole 19 push the positioning slide plate 14 through screw rotation, so that the positioning slide plate 14 performs a clamping and fixing function on the insulating pillars 10, thereby fixing the insulating pillars 10 to the voltage generating device.

Step three: rotatory first location runner 5, second location runner 8 for the rotation of first location runner 5, second location runner 8 drives loose gear 27 rotatory, makes the rotation that resets drain pan 30 through loose gear 27 slide to the bottom, makes wearing layer 32 slide to ground, thereby has increased voltage generating device's stability.

The working principle and the using flow of the embodiment are as follows: in the device of the embodiment, the connecting arc plate 12 and the connecting bottom plate 18 are fixed on the side wall of the voltage generator 7 through the fastening bolt 21, then the molded insulating support 10 is placed on the top of the connecting bottom plate 18, then the adjusting bolt 15 is rotated, so that the rotation of the adjusting bolt 15 drives the connecting screw rod 24 to rotate, so that the connecting screw rod 24 and the adjusting screw hole 19 rotate through threads, thereby changing the displacement of the connecting screw rod 24, pushing the adjusting sliding column 25 and the positioning sliding plate 14 to one side, the connecting rotating shaft 23 ensures that the connecting screw rod 24 can not drive the adjusting sliding column 25 to rotate together when rotating, the adjusting sliding column 25 can slide to one side of the connecting arc plate 12, thereby fixing the shaped insulating support post 10 on the top of the connecting bottom plate 18, the use is simple and convenient, meanwhile, the formed insulating support column 10 can be rapidly placed and installed, so that the stability of the formed insulating support column 10 is improved; when voltage generation device uses, when clockwise rotating first location runner 5, the continuous interlock separation of loose gear 27 and tooth's socket 29 can make the drain pan 30 that resets slide from top to bottom and adjust, make the drain pan 30 that resets slide to the bottom, thereby make and connect bottom column 33 and ground contact, the area of contact on voltage generation device and ground has been increased, voltage generation device's stability has been increased, first location runner 5 simultaneously, second location runner 8 clockwise rotation drives loose gear 27 rotatory back, loose gear 27 drives relative loose gear 27 rotation through the connecting rod 28 that resets, thereby make a plurality of drain pans 30 that reset slide to the bottom simultaneously, make a plurality of connection bottom columns 33 and ground contact, the area of contact on voltage generation device and ground has been increased, voltage generation device's stability has been increased.

Claims

1. A distributed intelligent voltage generation device comprises a base (4), a plurality of pulleys, a supporting plate (6), a current generator (3), a voltage generator (7), a positioning fixing rod (11) and a plurality of formed insulating struts (10);

the device is characterized in that the surface of the voltage generator (7) is fixedly connected with a connecting arc plate (12); connecting holes (20) are formed in the connecting arc plates (12) close to the edges of the two sides, fastening bolts (21) are arranged inside the connecting holes (20), and the connecting arc plates (12) are fixed on the surface of the voltage generator (7) through the two fastening bolts (21); the middle part of one side of the connecting arc plate (12) positioned at the connecting hole (20) is fixedly connected with a connecting bottom plate (18), the top of the connecting bottom plate (18) is connected with a positioning sliding plate (14) in a sliding manner, and two positioning sliding blocks (22) are symmetrically distributed at the bottom of the positioning sliding plate (14); the top surface of the connecting bottom plate (18) is provided with a positioning adjusting groove (13) matched with the positioning sliding block (22) for use; an adjusting sliding column (25) is fixedly connected to the middle of the bottom of the positioning sliding plate (14), and the adjusting sliding column (25) is located inside the connecting bottom plate (18); the top of the connecting bottom plate (18) is provided with an adjusting slide rail (16) which is matched with the adjusting slide column (25) for use; the surface of the adjusting sliding column (25) is rotatably connected with a connecting rotating shaft (23); the middle part of the connecting rotating shaft (23) is fixedly connected with a connecting screw rod (24); the side wall surface of the connecting bottom plate (18) is provided with an adjusting screw hole (19) matched with the connecting screw rod (24) for use; one end of the connecting screw rod (24) far away from the connecting rotating shaft (23) is connected with the adjusting bolt (15);

the bottom of the base (4) is connected with a plurality of connecting bottom columns (33) through a lifting mechanism; the lifting mechanism comprises a reset bottom shell (30), and a movable gear (27) is arranged in the reset bottom shell (30); the inner wall of the reset bottom shell (30) is provided with a tooth groove (29) matched with the movable gear (27) for use; one end of the movable gear (27) is fixedly connected with a first positioning rotating wheel (5), and the outer side wall of the base (4) is fixedly connected with a fixed ring (26); the first positioning rotating wheel (5) penetrates through the fixing ring (26); the bottom of the reset bottom shell (30) is fixedly connected with a connecting support column (31), and the connecting bottom column (33) is positioned at the bottom of the connecting support column (31); one end of the movable gear (27) far away from the first positioning rotating wheel (5) is fixedly connected with a reset connecting rod (28).

2. The distributed intelligent voltage generation device according to claim 1, wherein the radian of the connecting arc plate (12) is greater than forty degrees, and the connecting arc plate (12) and the voltage generator (7) are in the same circle center.

3. The distributed intelligent voltage generation device as claimed in claim 1, wherein the positioning adjustment groove (13) is identical to the positioning slider (22) in shape and size, and the two are in clearance fit.

4. The distributed intelligent voltage generation device according to claim 1, wherein the cross section of the adjusting sliding column (25) is rectangular, the width of the adjusting sliding column (25) is consistent with the width of the adjusting sliding rail (16), and the length of the adjusting sliding column (25) is consistent with the length of the adjusting sliding rail (16).

5. A distributed intelligent voltage generation apparatus according to claim 1, wherein: one side fixedly connected with inoxidizing coating (17) of location slide (14), just the area of inoxidizing coating (17) is unanimous with the area size of location slide (14).

6. A device for distributed intelligent voltage generation according to claim 5, wherein the material of the protective layer (17) is an insulating material, and the thickness of the protective layer (17) is greater than 3 mm.

7. The distributed intelligent voltage generation device according to claim 1, wherein the number of the connecting bottom pillars (33) and the number of the lifting mechanisms are four, the lifting mechanisms are all of the same structure, the number of the movable gears (27) is also four, and the two opposite movable gears (27) are symmetrically distributed around the central point of the reset connecting rod (28).

8. The distributed intelligent voltage generator as claimed in claim 1, wherein the bottom of each connecting bottom pillar (33) is fixedly connected with a wear-resistant layer (32), and the wear-resistant layer (32) is made of rubber.

9. The distributed intelligent voltage generation device as claimed in claim 1, wherein a positioning connecting rod (2) is fixedly connected to one side of the top of the supporting plate (6), a connecting top plate (1) is fixedly connected to the tops of the current generator (3), the voltage generator (7) and the positioning fixing rod (11), and a main control console (9) is fixedly connected to the position, close to the edge, of the supporting plate (6).

10. A using method for a distributed intelligent voltage generating device is characterized by comprising the following steps:

the method comprises the following steps: firstly, a plurality of connecting arc plates (12) and a connecting bottom plate (18) are installed and fixed, the inner walls of the connecting arc plates (12) are tightly attached to the outer wall of a voltage generator (7), and then fastening bolts (21) are aligned to the positions of connecting holes (20), so that the connecting arc plates (12) are installed and fixed;

step two: then, placing the molded insulating support columns (10) on the top of the connecting bottom plate (18), and then rotating the adjusting bolts (15) to enable the connecting screw rods (24) and the adjusting screw holes (19) to rotate through threads to push the positioning sliding plates (14), so that the positioning sliding plates (14) play a clamping and fixing role on the molded insulating support columns (10), and further fixing the molded insulating support columns (10) on the voltage generating device;

step three: the first positioning rotating wheel (5) and the second positioning rotating wheel (8) are rotated, so that the movable gear (27) is driven to rotate by the rotation of the first positioning rotating wheel (5) and the second positioning rotating wheel (8), the reset bottom shell (30) slides to the bottom through the rotation of the movable gear (27), the wear-resistant layer (32) slides to the ground, and the stability of the voltage generating device is improved;

step four: and then adjusting the operating voltage generating device to enable four corners of the positioning connecting rod (2), the current generator (3), the voltage generator (7) and the positioning fixing rod (11) to form four insulating pillars, and then fixing the formed insulating pillars (10) on the four insulating pillars, so that the formed insulating pillars (10) are fixed on a horizontal insulating crosspiece and a vertical insulating pillar, and fixing and measuring of the multistage main capacitor are completed.