CN117174437B - Transformer with grounding lead protection mechanism and use method thereof - Google Patents

Abstract

The transformer with the grounding lead protection mechanism and the application method thereof belong to the technical field of transformers, and in order to solve the problems that the disassembly of bolts is easy to cause potholes on the surface of a supporting column body, if the transformer cannot be continuously filled, the assembly and disassembly of the transformer for many times is easy to cause the subsequent fixing bolts to not find the installation point, and the supporting column body is made of most cement materials, even if the potholes on the surface of the supporting column body are filled, the combination effect is deficient, and the installation bolts are easy to loosen; according to the invention, the elasticity of the first reset spring and the second reset spring is utilized, the auxiliary locking block is sprung into the auxiliary notch, the movable inserted rod extends outwards along with the auxiliary notch, one end of the movable inserted rod is led into the locking hole, and the locking mechanism is fixed on the upper surface of the second ring body, so that the installation position of the grounding lead piece is fixed; the rounded outer end surfaces of the rounded strip-shaped blocks are favorable for sliding away from each other, so that the exposed grounding lead pieces can be protected, and the external force is prevented from being involved.

Description

Transformer with grounding lead protection mechanism and use method thereof

Technical Field

The invention relates to the technical field of transformers, in particular to a transformer with a grounding lead protection mechanism and a using method thereof.

Background

The transformer is a device for converting alternating voltage, current and impedance, when the primary coil is electrified with alternating current, the iron core generates alternating magnetic flux to induce voltage in the secondary coil, the transformer consists of the iron core and the coil, the coil is provided with two or more windings, wherein the windings connected with a power supply are called primary coils, the other windings are called secondary coils, in the generator, no matter the coils move through a magnetic field or a fixed coil, electric potential can be induced in the coils, the values of the magnetic flux are unchanged, but the quantity of the magnetic flux intersected with the coils changes, and the transformer is a device for converting voltage, current and impedance by utilizing the electromagnetic mutual inductance effect, which is the principle of mutual induction.

When the transformer is installed outdoors, the transformer is mostly installed on the surface of an outdoor supporting column body, the grounding lead is laid downwards along the height of the column body until the grounding lead is connected into the ground, the prior art only fixes the installation platform on the surface of the supporting column body through a plurality of bolts, and then the transformer is installed on the platform, but the subsequent transformer is disassembled and assembled, the disassembly of the bolts easily causes potholes on the surface of the supporting column body, if the potholes cannot be continuously filled, the subsequent fixing bolts cannot be easily found out due to the assembly and disassembly of the multiple transformers, the supporting column body is manufactured by using most cement materials, even if the potholes on the surface of the supporting column body are filled, the combination effect is poor, the installation bolts are easily loosened, and the outdoor grounding lead is directly exposed, and when the transformer is pulled by external force, the line body is easily broken due to pulling.

In order to solve the problems, the prior device is improved, and a transformer with a grounding lead protection mechanism and a using method thereof are provided.

Disclosure of Invention

The invention aims to provide a transformer with a grounding lead protection mechanism and a use method thereof, which solve the problems that in the prior art, when the transformer is installed outdoors, most of the transformer is installed on the surface of an outdoor supporting column, grounding leads are laid down along the height of the column until the transformer is connected to an underground grounding electrode, the prior art only fixes an installation platform on the surface of the supporting column through a plurality of bolts, and then the transformer is installed on the platform, but the subsequent transformer is disassembled and assembled, the bolts are easy to cause potholes on the surface of the supporting column, if the subsequent fixing bolts cannot be continuously filled, the subsequent fixing bolts cannot find installation points due to the assembly and disassembly of the transformer for many times, the potholes on the surface of the supporting column are manufactured due to the most of cement materials, even if the supporting column is filled, the combination effect is poor, the installation bolts are easy to loose, the outdoor grounding leads are directly exposed, and the wire body is easy to break due to pulling when the external force is pulled.

In order to achieve the above purpose, the present invention provides the following technical solutions: the transformer with the grounding lead protection mechanism comprises a transformer body and supporting columns arranged on two sides of the transformer body, wherein the two groups of supporting columns are arranged, the surfaces of the two groups of supporting columns are sleeved with mounting platforms, the transformer body is arranged on the surfaces of the mounting platforms, the surfaces of the supporting columns are sleeved with first fixed sleeving rings, the first fixed sleeving rings are arranged at the lower ends of the mounting platforms, the bottom ends of the supporting columns are sleeved with second fixed sleeving rings, the surface of the transformer body is provided with grounding lead pieces, fixed long adhesive strips are arranged between the first fixed sleeving rings and the second fixed sleeving rings and are attached to the surfaces of the supporting columns, the grounding lead pieces are connected with the first fixed sleeving rings, the second fixed sleeving rings and the fixed long adhesive strips, the first fixed sleeving rings comprise first ring bodies sleeved on the surfaces of the supporting columns and first annular containing grooves formed in the first ring bodies, the first annular containing grooves are internally provided with first internal connecting traction blocks, the fixed long adhesive strips comprise round angle adhesive strip blocks and an access long groove formed in the inside the round corner adhesive strip, the lead pieces are attached to the surface of the long adhesive strips, and the adhesive strips are attached to the surfaces of the long adhesive strips;

The mounting platform comprises a support pair clamping plate and movable half ring clamping pieces arranged at two ends of the inner side of the support pair clamping plate, wherein fixed half ring clamping pieces are arranged on the inner side of the movable half ring clamping pieces, first extension clamping pieces are arranged at two ends of the movable half ring clamping pieces, second extension clamping pieces are arranged at two ends of the fixed half ring clamping pieces, first fixing bolts are arranged on the surfaces of the first extension clamping pieces, the first fixing bolts penetrate through the first extension clamping pieces and are connected with the second extension clamping pieces, second fixing bolts are arranged on the outer surfaces of the support pair clamping plates, the second fixing bolts penetrate through the support pair clamping plates and are connected with the second extension clamping pieces, and rubber adhesive layers are arranged on the inner surfaces of the movable half ring clamping pieces;

The inside of first annular holding tank has been seted up and has been matees spacing ring channel, and the inside both sides of matcing spacing ring channel all are provided with the roll inner face, and first inscription traction block includes the block and sets up the roll outside at the block surface, and first socket hole has been seted up to the inside of block, and first socket hole is connected with the ground lead spare.

Further, the second fixed sleeve joint ring comprises a second ring body sleeved on the surface of the supporting column body and a second annular containing groove formed in the second ring body, a second inscription traction block is arranged in the second annular containing groove, a locking mechanism is arranged at the upper end of the second inscription traction block, a movable annular groove is formed in the inner side of the second annular containing groove, and a locking hole is formed in the outer side of the second annular containing groove.

Further, the locking mechanism comprises a movable patch and a second sleeve joint hole formed in the movable patch, the second sleeve joint hole is connected with the grounding lead piece, an installation cavity is formed in one side of the second sleeve joint hole, a locking disc piece is arranged in the installation cavity, a connecting small rod is arranged on the lower surface of the movable patch, a limiting sphere is arranged at one end of the connecting small rod, an open long groove is formed in the side surface of the installation cavity, and a through groove is formed in the lower surface of the installation cavity.

Further, the locking disc piece comprises a regulating rotating disc arranged in the installation cavity and an outer limiting ring arranged on one side of the regulating rotating disc, and a joint rod is arranged between the regulating rotating disc and the outer limiting ring.

Further, the adjusting turntable comprises a turntable body and a reserved rotating groove formed in the turntable body, a rotating base is arranged in the center of the inner bottom surface of the reserved rotating groove, an auxiliary notch is formed in the inner side surface of the reserved rotating groove, and a rotating turntable block is arranged at the middle end of the rotating base.

Further, one side of the rotating disc block is provided with a movable inserted link, one end of the movable inserted link penetrates through the through groove to be connected with the locking hole, one side surface of the movable inserted link is provided with an auxiliary locking block, and the auxiliary locking block is connected with the auxiliary notch.

Further, the center of the rotating disc block is provided with a rotating adjusting rod, one side of the rotating adjusting rod is provided with a limiting long sliding rod, the surface of the limiting long sliding rod is sleeved with a first reset spring, the side surface of the rotating disc block is provided with a translation matching sliding groove, the inner bottom surface of the translation matching sliding groove is provided with an access groove, and the inner bottom surface of the access groove is provided with a limiting hidden groove.

Further, the side surface mounting of activity inserted bar has the concatenation to the pole, and the activity of spacing length slide bar runs through the concatenation to the pole, and first reset spring sets up between rotation regulation pole and concatenation to the pole, and extension pole is installed to the one end of activity inserted bar, and extension pole is connected with letting in the groove, and the surface cover of extension pole is equipped with second reset spring, and the one end of extension pole is provided with translation slide ball, and translation slide ball is connected with spacing blind groove.

Further, the support is to splint including setting up at the support to the first long hack lever of splint upper surface and setting up at the support to the second long hack lever of splint lower surface, and the lower surface at the transformer body is installed to first long hack lever, and the both ends of first long hack lever and second long hack lever all are provided with fixed connection stock, and first long hack lever and second long hack lever all are provided with two sets of.

The invention provides another technical scheme that: the application method of the transformer with the grounding lead protection mechanism comprises the following steps:

s1: moving the support pair clamping plates to a designated position along the supporting column body, enabling the fixed semi-ring clamping pieces to be attached to one side surface of the supporting column body, enabling the movable semi-ring clamping pieces to be attached to the other side surface of the supporting column body, and enabling the fixed semi-ring clamping pieces and the movable semi-ring clamping pieces to correspondingly clamp the supporting column body;

S2: the grounding lead piece passes through the first inscription traction block and the second inscription traction block in the first annular accommodating groove and the second annular accommodating groove, and naturally drops;

s3: after the installation position of the grounding lead piece falling is determined, the locking mechanism moves to the corresponding position of the grounding lead piece along the upper surface of the second ring body, the auxiliary locking block moves along the inner wall of the reserved rotating groove, when the auxiliary locking block rotates to the auxiliary notch, the auxiliary locking block springs to the inside of the auxiliary notch, and one end of the movable inserted rod is led into the locking hole;

S4: when the installation position of the grounding lead piece needs to be adjusted, the rotary adjusting rod and the splicing opposite rod are simultaneously pinched, the auxiliary locking block is separated from the auxiliary notch, and the rotary adjusting rod and the splicing opposite rod are rotated to enable the auxiliary locking block to be attached to the inner wall of the reserved rotary groove;

S5: when the installation position of the grounding lead piece is determined, the grounding lead piece is sleeved with the round corner-shaped strip-shaped block, then the grounding lead piece is conformed to drop, the round corner-shaped strip-shaped block is adhered to the support column body through the long adhesive piece, and therefore all implementation steps are completed.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides a transformer with a grounding lead protection mechanism and a use method thereof, wherein a bracket pair clamping plate comprises a first long hack lever arranged on the upper surface of the bracket pair clamping plate and a second long hack lever arranged on the lower surface of the bracket pair clamping plate, the first long hack lever is arranged on the lower surface of a transformer body, two ends of the first long hack lever and the second long hack lever are respectively provided with a fixed connection long hack lever, the bracket pair clamping plate is moved up to a designated position along a support column body, a fixed semi-ring clamping piece is attached to one side surface of the support column body through a second fixed bolt, a movable semi-ring clamping piece is attached to the other side surface of the support column body, the fixed semi-ring clamping piece and the movable semi-ring clamping piece are correspondingly clamped to the support column body through a first fixed bolt, the transformer body is connected with the two groups of first long hack levers to be arranged on the upper surface of the installation platform, the two groups of second long hack levers are arranged on the lower surface of the installation platform, and the fixed connection long hack levers fix the two groups of the ends of the first long hack levers and the second long hack levers to the designated positions, and the installation of the transformer body is completed.

2. The invention provides a transformer with a grounding lead protection mechanism and a use method thereof, wherein a first inscription traction block and a second inscription traction block are sleeved on the surface of a grounding lead piece, the first inscription traction block and the second inscription traction block are respectively arranged in a first annular accommodating groove and a second annular accommodating groove, the grounding lead piece naturally drops, the rolling outside can move along the rolling inner surface, the installation position of the dropping of the grounding lead piece is adjusted, after the installation position of the dropping of the grounding lead piece is determined, the connection of a limiting sphere and a movable annular groove is utilized, a locking mechanism is moved to the corresponding position of the grounding lead piece along the upper surface of a second ring body, the grounding lead piece passes through a second sleeve joint hole, meanwhile, at the position of an open long groove, a rotary adjusting rod and a splicing counter rod rotate by taking a rotary disc block as axes, an auxiliary locking block moves along the inner wall of a reserved rotary groove, when the grounding lead piece rotates to the auxiliary connecting groove, the auxiliary locking block is sprung into the auxiliary connecting groove by utilizing the elasticity of a first reset spring and a second reset spring, the movable inserting rod extends outwards, one end of the movable inserting rod extends outwards, and the movable inserting rod is fixed into the corresponding position of the second inserting rod, and the locking mechanism is fixed on the surface of the grounding lead piece, and is fixed on the grounding lead piece.

3. According to the transformer with the grounding lead protection mechanism and the use method thereof, when the installation position of the grounding lead piece is required to be adjusted, the rotary adjusting rod and the splicing butt rod are simultaneously pinched, the splicing butt rod is close to the rotary adjusting rod, the auxiliary locking block is separated from the auxiliary connecting notch, the movable inserted rod is recovered to the inside of the installation cavity along the through groove, the rotary adjusting rod and the splicing butt rod are rotated, the auxiliary locking block is attached to the inner wall of the reserved rotary groove, the locking mechanism can be readjusted to conform to the installation position of the grounding lead piece, the whole installation of the device is not required to be connected with the support column body by using a screw, the adjustment of the device is facilitated, the surface of the support column can be prevented from being damaged, when the installation position of the grounding lead piece is determined, the grounding lead piece is sheathed with the circular strip block, the circular strip block is conformed to drop down, the circular strip block is attached to the support column body by long adhesive sheets, and when an external object hooks the surface of the support column, the circular strip block is separated from each other by the rounded outer end faces, and the external round strip block is beneficial to be mutually slipped away, and the external grounding lead piece is prevented from being exposed to the external protection body.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a transformer with a ground lead protection mechanism according to the present invention;

FIG. 2 is a schematic view of a transformer mounting platform with a ground lead protection mechanism according to the present invention;

FIG. 3 is a schematic view of a first fixed sleeving ring of the transformer with the grounding lead protection mechanism;

FIG. 4 is a schematic view of the internal planar structure of a first annular receiving slot of a transformer with a ground lead protection mechanism according to the present invention;

FIG. 5 is a schematic view of a first internal connection traction block of a transformer with a grounding lead protection mechanism according to the present invention;

FIG. 6 is a schematic plan view of a transformer mounting strip with a ground lead protection mechanism according to the present invention;

FIG. 7 is a schematic diagram of a second fixed sleeving ring of the transformer with the grounding lead protection mechanism;

FIG. 8 is a schematic view of the internal planar structure of a transformer locking mechanism with a ground lead protection mechanism according to the present invention;

FIG. 9 is a schematic diagram of a transformer locking disk assembly with a ground lead protection mechanism according to the present invention;

FIG. 10 is a schematic diagram of a transformer tuning turntable with a ground lead protection mechanism according to the present invention;

FIG. 11 is a schematic view of the internal planar structure of a transformer rotor block with a grounded lead guard mechanism according to the present invention;

fig. 12 is an enlarged view of fig. 1 at a in accordance with the present invention.

In the figure: 1. a support column; 2. a mounting platform; 21. supporting the pair of clamping plates; 211. a first long rack bar; 212. a second long rack bar; 213. fixedly connecting the long rod; 22. a movable semi-ring clamping piece; 23. a retainer half ring clip; 24. a first extension clip; 25. a second extension clip; 26. a first fixing bolt; 27. a second fixing bolt; 28. a rubber layer; 3. a transformer body; 4. a second fixed socket ring; 41. a second ring body; 42. a second annular receiving groove; 43. a second inscribed traction block; 44. a locking mechanism; 441. a movable sticking block; 442. a second socket hole; 443. a mounting cavity; 444. locking the disc; 4441. setting a rotating disc; 44411. a tray body; 44412. reserving a rotating groove; 44413. rotating the base; 44414. an auxiliary notch; 44415. rotating the disc block; 444151, rotating an adjusting rod; 444152, a limiting long slide bar; 444153, a first return spring; 444154, translating the matched chute; 444155, introducing into the groove; 444156, a limiting blind groove; 44416. a movable inserted link; 444161, splicing butt rods; 444162, extension poles; 444163, a second return spring; 444164, translating the sliding ball; 44417. an auxiliary locking block; 4442. an outer limit ring; 4443. an engagement lever; 445. connecting a small rod; 446. limiting spheres; 447. an open elongated slot; 448. a through groove; 45. a movable annular groove; 46. a locking hole; 5. a first fixed socket ring; 51. a first ring body; 52. a first annular receiving groove; 521. matching with a limit annular groove; 522. rolling the inner face; 53. a first inscribed traction block; 531. a block; 532. rolling out; 533. a first socket hole; 6. a ground lead member; 7. fixing long adhesive strips; 71. round sticking strip blocks; 72. introducing a long groove; 73. and (5) long sticking the film.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the technical problems that in the prior art, an installation platform is fixed on the surface of a supporting column body only through a plurality of bolts, and then a transformer is installed on the platform, but the subsequent disassembly of the transformer is easy to cause pits on the surface of the supporting column body, if the pits cannot be continuously filled, the subsequent fixing bolts cannot find the installation points easily due to the disassembly of the transformer for many times, as shown in fig. 1-6 and 12, the following preferable technical scheme is provided:

The transformer with the grounding lead protection mechanism comprises a transformer body 3 and supporting columns 1 arranged on two sides of the transformer body 3, wherein the supporting columns 1 are provided with two groups, the surfaces of the two groups of supporting columns 1 are sleeved with mounting platforms 2, the transformer body 3 is arranged on the surfaces of the mounting platforms 2, the surfaces of the supporting columns 1 are sleeved with first fixed sleeving rings 5, the first fixed sleeving rings 5 are arranged at the lower ends of the mounting platforms 2, the bottom ends of the supporting columns 1 are sleeved with second fixed sleeving rings 4, the surface of the transformer body 3 is provided with grounding lead pieces 6, fixed long adhesive strips 7 are arranged between the first fixed sleeving rings 5 and the second fixed sleeving rings 4, the fixed long adhesive strips 7 are attached to the surfaces of the supporting columns 1, the grounding lead pieces 6 are connected with the first fixed sleeving rings 5, the second fixed sleeving rings 4 and the fixed long adhesive strips 7, the first fixed sleeving ring 5 comprises a first ring body 51 sleeved on the surface of the supporting column body 1 and a first annular containing groove 52 arranged in the first ring body 51, a first inscription traction block 53 is arranged in the first annular containing groove 52, the fixed long pasting strip 7 comprises a round pasting strip block 71 and a long penetrating groove 72 arranged in the round pasting strip block 71, the long penetrating groove 72 is connected with the grounding lead piece 6, a long pasting piece 73 is arranged on the inner side of the round pasting strip block 71, the long pasting piece 73 is attached to the surface of the supporting column body 1, the mounting platform 2 comprises a bracket pair clamping plate 21 and movable half-ring clamping plates 22 arranged on two ends of the inner side of the bracket pair clamping plate 21, the inner side of the movable half-ring clamping plates 22 is provided with a fixed half-ring clamping plate 23, two ends of the movable half-ring clamping plates 22 are respectively provided with a first extending clamping plate 24, two ends of the fixed half-ring clamping plates 23 are respectively provided with a second extending clamping plate 25, the surface of first clamping piece 24 that extends is provided with first fixing bolt 26, first fixing bolt 26 passes first clamping piece 24 that extends to be connected with second clamping piece 25 that extends, the surface of support pair splint 21 is provided with second fixing bolt 27, second fixing bolt 27 passes support pair splint 21 to be connected with second clamping piece 25 that extends, the internal surface of activity semi-ring clamping piece 22 is provided with rubber paste layer 28, the inside of first annular holding tank 52 has been seted up and has been matees spacing ring channel 521, the both sides of the inside of matcing spacing ring channel 521 all are provided with rolling inner face 522, first inscription traction block 53 includes block 531 and sets up the rolling outside 532 at the block 531 surface, first socket hole 533 has been seted up to the inside of block 531, first socket hole 533 is connected with ground lead spare 6.

The bracket pair clamping plate 21 comprises a first long hack lever 211 arranged on the upper surface of the bracket pair clamping plate 21 and a second long hack lever 212 arranged on the lower surface of the bracket pair clamping plate 21, the first long hack lever 211 is arranged on the lower surface of the transformer body 3, two ends of the first long hack lever 211 and the second long hack lever 212 are respectively provided with a fixed connection long hack lever 213, and the first long hack lever 211 and the second long hack lever 212 are respectively provided with two groups.

Specifically, the bracket pair clamping plates 21 are moved up to a designated position along the supporting column 1, the fixed semi-ring clamping plates 23 are attached to one side surface of the supporting column 1 through the second fixing bolts 27, the movable semi-ring clamping plates 22 are attached to the other side surface of the supporting column 1, the fixed semi-ring clamping plates 23 and the movable semi-ring clamping plates 22 are correspondingly clamped to the supporting column 1 through the first fixing bolts 26, the mounting platform 2 is fixed at the designated position, the transformer body 3 is mounted on the upper surface of the mounting platform 2 together with the two groups of first long rack bars 211, the two groups of second long rack bars 212 are arranged on the lower surface of the mounting platform 2, and the ends of the two groups of first long rack bars 211 and the second long rack bars 212 are fixed through the fixed connection long rack bars 213, so that the mounting of the transformer body 3 is completed.

In order to solve the technical problem that if the pits on the surface of the supporting column body are filled, the combination effect is poor, and the mounting bolts are easy to loosen, as shown in fig. 5-9, the following preferable technical scheme is provided:

The second fixed sleeve ring 4 comprises a second ring body 41 sleeved on the surface of the supporting cylinder 1 and a second annular accommodating groove 42 formed in the second ring body 41, a second internal connecting traction block 43 is arranged in the second annular accommodating groove 42, the second internal connecting traction block 43 slides in the inner side of the second annular accommodating groove 42, the first internal connecting traction block 53 and the second internal connecting traction block 43 are identical in structure, a locking mechanism 44 is arranged at the upper end of the second internal connecting traction block 43, a movable annular groove 45 is formed in the inner side of the second annular accommodating groove 42, a locking hole 46 is formed in the outer side of the second annular accommodating groove 42, the locking mechanism 44 comprises a movable adhesive block 441 and a second sleeve hole 442 formed in the movable adhesive block 441, the second sleeve hole 442 corresponds to the second annular accommodating groove 42 in position, the second sleeve hole 442 is connected with a grounding lead 6, a mounting cavity 443 is formed in one side of the second sleeve hole 442, a locking disc 444 is arranged in the mounting cavity 443, the mounting cavity 443 is movably arranged in the inner side of the mounting cavity 443, a locking disc 444 is arranged on the lower surface of the movable adhesive block 441, a movable adhesive block 441 is provided with a movable annular groove 45, a ball body is arranged in the clearance groove 4448, a clearance groove 4448 is reserved between the inner side of the ball body and the inner side of the movable adhesive block 4441, a position of the ball body is reserved in the clearance groove 4441, a position of the clearance groove 4448 is reserved, a surface of the ball body is reserved in the clearance groove 4441 is reserved, a position of the clearance groove 4441 is reserved, a surface of a rotary table is set up in the clearance groove 4441, a surface is set up in a surface of a special groove 4448, and a surface is used to a groove is used to be. The rotating disk block 44415 is rotatably connected to the rotating base 44413, and the rotating base 44413 is fixedly connected to the inner bottom surface of the disk 44411.

Specifically, the surface of the ground lead member 6 is sleeved with the first internal traction block 53 and the second internal traction block 43, the first internal traction block 53 and the second internal traction block 43 have the same structure, the first internal traction block 53 and the second internal traction block 43 are respectively arranged in the first annular accommodating groove 52 and the second annular accommodating groove 42, the ground lead member 6 naturally drops down, the rolling outer surface 532 can move along the rolling inner surface 522, the vertical installation position of the ground lead member 6 is adjusted conveniently, after the vertical installation position of the ground lead member 6 is determined, the locking mechanism 44 is moved to the corresponding position of the ground lead member 6 along the upper surface of the second ring body 41 by utilizing the connection of the limiting ball 446 and the movable annular groove 45, the ground lead member 6 passes through the second sleeve hole 442, meanwhile, at the position of the open slot 447, the rotating adjusting rod 444151 and the splicing counter rod 444161 rotate around the rotating disc block 44415 as the axis, the auxiliary locking block 44417 moves along the inner wall of the rotating groove 44412, when the auxiliary locking rod is rotated to the auxiliary connecting slot 44414, the first reset spring 5384 and the second reset spring 444163 are reserved for locking the auxiliary locking rod 44416 to be elastically locked to the inner surface of the auxiliary pin body 44416, and the second reset spring 444163 is elastically locked to the corresponding position of the second ring body 3446, and the second pin is elastically locked to the inner surface of the auxiliary pin body 44416, and the auxiliary locking rod is elastically locked to the movable pin is fixed to the inner surface of the auxiliary pin hole 3446, and the reset spring pin 444163 is fixed to the auxiliary pin 3, and the reset spring, and the reset pin lock the reset rod lock rod is fixed to the auxiliary locking rod 3, and the auxiliary locking rod is fixed.

In order to solve the technical problem that when the outdoor lead is directly exposed and pulled by external force, the lead is easy to break due to the traction, as shown in fig. 8-11, the following preferred technical scheme is provided:

One side of the rotating disc block 44415 is provided with a movable inserting rod 44416, one end of the movable inserting rod 44416 passes through a penetrating groove 448 to be connected with the locking hole 46, one side surface of the movable inserting rod 44416 is provided with an auxiliary locking block 44417, the auxiliary locking block 44417 is connected with an auxiliary connecting groove 44414, the center of the rotating disc block 44415 is provided with a rotating adjusting rod 444151, one side of the rotating adjusting rod 444151 is provided with a limit long sliding rod 444152, the surface of the limit long sliding rod 444152 is sleeved with a first reset spring 444153, the side surface of the rotating disc block 44415 is provided with a translation matching sliding groove 444154, the inner bottom surface of the translation matching sliding groove 444154 is provided with an access groove 444155, the inner bottom surface of the access groove 444155 is provided with a limit hidden groove 444156, the side surface of the movable inserting rod 44416 is provided with a splicing pair rod 444161, the limit long sliding rod 444152 is movably penetrated through the splicing pair rod 444161, the first reset spring 444153 is arranged between the rotating adjusting rod 444153 and the splicing pair rod 444153, one end of the movable inserting rod 444153 is provided with an extension small rod 444153, the extension small rod 444153 is connected with the inner bottom surface of the access groove 444153, and the second reset small sliding rod 444153 is connected with the auxiliary sliding rod 444153, and the position of the auxiliary sliding rod 444153 is adjustable.

Specifically, when the installation position of the grounding lead member 6 needs to be adjusted, the rotary adjusting rod 444151 and the splicing butt rod 444161 are simultaneously pinched, the splicing butt rod 444161 approaches the rotary adjusting rod 444151, the auxiliary locking block 44417 is separated from the auxiliary connecting notch 44414, the movable inserting rod 44416 is recovered to the inside of the installation cavity 443 along the penetrating groove 448, the rotary adjusting rod 444151 and the splicing butt rod 444161 are rotated again, the auxiliary locking block 44417 is attached to the inner wall of the reserved rotating groove 44412, the locking mechanism 44 can be readjusted to adjust the installation position of the grounding lead member 6, the whole installation of the device is not connected with the support column 1 by using a screw, the adjustment of the device is convenient, the surface of the support column 1 can be prevented from being damaged, when the installation position of the grounding lead member 6 is determined, the grounding lead member 6 is sheathed with the round corner-shaped adhesive piece 71, the round corner-shaped adhesive piece 71 is attached to the support column 1 by the long adhesive piece 73, when an external object hooks the surface of the support column 1, the round corner-shaped adhesive piece 71 is detached from the round corner-shaped adhesive piece, and the round corner-shaped adhesive piece 71 can be prevented from being exposed to the outside the round corner, and the external corner is prevented from being exposed to the outside by the protection member.

To further better explain the above examples, the present invention also provides an embodiment, a method for using a transformer with a ground lead protection mechanism, comprising the steps of:

Step one: the supporting pair clamping plates 21 are moved up to a designated position along the supporting column body 1, the fixed semi-ring clamping plates 23 are attached to one side surface of the supporting column body 1, the movable semi-ring clamping plates 22 are attached to the other side surface of the supporting column body 1, and the fixed semi-ring clamping plates 23 and the movable semi-ring clamping plates 22 correspondingly clamp the supporting column body 1;

Step two: the grounding lead piece 6 passes through the first inscription traction block 53 and the second inscription traction block 43 inside the first annular accommodating groove 52 and the second annular accommodating groove 42, and the grounding lead piece 6 naturally drops;

step three: after determining the vertical installation position of the grounding lead member 6, the locking mechanism 44 moves to the corresponding position of the grounding lead member 6 along the upper surface of the second ring body 41, the auxiliary locking block 44417 moves along the inner wall of the reserved rotating groove 44412, when the auxiliary locking block rotates to the auxiliary notch 44414, the auxiliary locking block 44417 springs to the inside of the auxiliary notch 44414, and one end of the movable insert rod 44416 is led into the locking hole 46;

Step four: when the installation position of the grounding lead piece 6 needs to be adjusted, the rotary adjusting rod 444151 and the splicing pair rod 444161 are simultaneously pinched, the auxiliary locking block 44417 is separated from the auxiliary notch 44414, the rotary adjusting rod 444151 and the splicing pair rod 444161 are rotated, and the auxiliary locking block 44417 is attached to the inner wall of the reserved rotary groove 44412;

Step five: when the installation position of the ground lead member 6 is determined, the ground lead member 6 is sleeved with the round corner-shaped strip-pasting block 71, then the ground lead member 6 is conformed to drop, and the round corner-shaped strip-pasting block 71 is pasted with the supporting column body 1 through the long paste film 73, so that all implementation steps are completed.

The above-mentioned embodiments are merely preferred embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to apply equivalents and modifications according to the technical scheme and the inventive concept of the present invention within the scope of the present invention.

Claims (6)

1. Transformer with earth lead protection machanism, including transformer body (3) and support cylinder (1) of setting in transformer body (3) both sides, support cylinder (1) are provided with two sets of, its characterized in that: the surface cover of two sets of support columns (1) is equipped with mounting platform (2), transformer body (3) set up the surface at mounting platform (2), the surface cover of support column (1) is equipped with first fixed sleeve-joint ring (5), first fixed sleeve-joint ring (5) set up the lower extreme at mounting platform (2), second fixed sleeve-joint ring (4) have been cup jointed to the bottom of support column (1), the surface mounting of transformer body (3) has ground lead piece (6), be provided with fixed long paste strip (7) between fixed sleeve-joint ring (5) and the fixed sleeve-joint ring (4) of second, fixed long paste strip (7) laminating is in the surface of support column (1), ground lead piece (6) are connected with fixed sleeve-joint ring (5) of first, fixed sleeve-joint ring (4) and fixed long paste strip (7), first fixed sleeve-joint ring (5) are including first ring body (51) and the first annular holding groove (52) of seting up in first ring body (51) inside, first annular holding groove (52) are provided with fixed long paste strip (72) inside joint piece (72), inside joint piece (72) are connected with fixed strip joint piece (72), a long rubberizing piece (73) is arranged on the inner side of the round rubberizing strip block (71), and the long rubberizing piece (73) is attached to the surface of the supporting column body (1);

The mounting platform (2) comprises a supporting pair clamping plate (21) and movable semi-ring clamping pieces (22) arranged at two ends of the inner side of the supporting pair clamping plate (21), fixed semi-ring clamping pieces (23) are arranged on the inner side of the movable semi-ring clamping pieces (22), first extending clamping pieces (24) are arranged at two ends of the movable semi-ring clamping pieces (22), second extending clamping pieces (25) are arranged at two ends of the fixed semi-ring clamping pieces (23), first fixing bolts (26) are arranged on the surface of the first extending clamping pieces (24), the first fixing bolts (26) penetrate through the first extending clamping pieces (24) to be connected with the second extending clamping pieces (25), second fixing bolts (27) are arranged on the outer surface of the supporting pair clamping plate (21), the second fixing bolts (27) penetrate through the supporting pair clamping plate (21) to be connected with the second extending clamping pieces (25), and rubber adhesive layers (28) are arranged on the inner surface of the movable semi-ring clamping pieces (22).

The inside of the first annular accommodating groove (52) is provided with a matching limiting annular groove (521), both sides of the inside of the matching limiting annular groove (521) are provided with rolling inner faces (522), the first inscription traction block (53) comprises a block body (531) and rolling outer faces (532) arranged on the outer surface of the block body (531), the inside of the block body (531) is provided with a first sleeve joint hole (533), and the first sleeve joint hole (533) is connected with the grounding lead piece (6);

The second fixed sleeving ring (4) comprises a second ring body (41) sleeved on the surface of the supporting column body (1) and a second annular containing groove (42) formed in the second ring body (41), a second inscription traction block (43) is arranged in the second annular containing groove (42), a locking mechanism (44) is arranged at the upper end of the second inscription traction block (43), a movable annular groove (45) is formed in the inner side of the second annular containing groove (42), and a locking hole (46) is formed in the outer side of the second annular containing groove (42);

The locking mechanism (44) comprises a movable sticking block (441) and a second sleeving hole (442) formed in the movable sticking block (441), the second sleeving hole (442) is connected with the grounding lead piece (6), one side of the second sleeving hole (442) is provided with a mounting cavity (443), a locking disc piece (444) is arranged in the mounting cavity (443), the lower surface of the movable sticking block (441) is provided with a connecting small rod (445), one end of the connecting small rod (445) is provided with a limiting ball body (446), the side surface of the mounting cavity (443) is provided with an open long groove (447), and the lower surface of the mounting cavity (443) is provided with a penetrating groove (448);

The locking disc piece (444) comprises a regulating rotating disc (4441) arranged in the mounting cavity (443) and an outer limiting ring (4442) arranged on one side of the regulating rotating disc (4441), and a joint rod (4443) is arranged between the regulating rotating disc (4441) and the outer limiting ring (4442);

The adjusting rotating disc (4441) comprises a disc body (44411) and a reserved rotating groove (44412) formed in the disc body (44411), a rotating base (44413) is arranged in the center of the inner bottom surface of the reserved rotating groove (44412), an auxiliary connecting groove opening (44414) is formed in the inner side surface of the reserved rotating groove (44412), and a rotating disc block (44415) is arranged at the middle end of the rotating base (44413).

2. The transformer with ground lead protection mechanism of claim 1, wherein: one side of the rotating disc block (44415) is provided with a movable inserted link (44416), one end of the movable inserted link (44416) penetrates through the penetrating groove (448) to be connected with the locking hole (46), one side surface of the movable inserted link (44416) is provided with an auxiliary locking block (44417), and the auxiliary locking block (44417) is connected with the auxiliary notch (44414).

3. The transformer with ground lead protection mechanism of claim 2, wherein: the center of rotating disc piece (44415) is provided with rotation regulation pole (444151), and spacing long slide bar (444152) are installed to one side of rotation regulation pole (444151), and the surface cover of spacing long slide bar (444152) is equipped with first reset spring (444153), and translation matching spout (444154) have been seted up to the side surface of rotating disc piece (44415), and access groove (444155) have been seted up to the interior bottom surface of translation matching spout (444154), and spacing blind groove (444156) have been seted up to the interior bottom surface of access groove (444155).

4. A transformer with a ground lead protection mechanism as recited by claim 3, wherein: the side surface mounting of activity inserted bar (44416) has concatenation to pole (444161), spacing long slide bar (444152) activity run through concatenation to pole (444161), first reset spring (444153) set up between rotation regulation pole (444151) and concatenation to pole (444161), extension pole (444162) are installed to the one end of activity inserted bar (44416), extension pole (444162) is connected with letting in groove (444155), the surface cover of extension pole (444162) is equipped with second reset spring (444163), the one end of extension pole (444162) is provided with translation slide ball (444164), translation slide ball (444164) are connected with spacing blind groove (444156).

5. The transformer with ground lead protection mechanism of claim 4, wherein: the support is to splint (21) including setting up at support to first long hack lever (211) of splint (21) upper surface and setting up at support to second long hack lever (212) of splint (21) lower surface, and first long hack lever (211) are installed at the lower surface of transformer body (3), and the both ends of first long hack lever (211) and second long hack lever (212) all are provided with fixed connection long hack lever (213), and first long hack lever (211) and second long hack lever (212) all are provided with two sets of.

6. The method for using the transformer with the grounding lead protection mechanism according to claim 5, which is characterized in that: the method comprises the following steps:

s1: the support pair clamping plates (21) are moved up to a designated position along the supporting column body (1), the fixed semi-ring clamping plates (23) are attached to one side surface of the supporting column body (1), the movable semi-ring clamping plates (22) are attached to the other side surface of the supporting column body (1), and the fixed semi-ring clamping plates (23) and the movable semi-ring clamping plates (22) correspondingly clamp the supporting column body (1);

s2: the grounding lead piece (6) passes through the first inscription traction block (53) and the second inscription traction block (43) inside the first annular accommodating groove (52) and the second annular accommodating groove (42), and the grounding lead piece (6) naturally drops;

S3: after the vertical installation position of the grounding lead piece (6) is determined, the locking mechanism (44) moves to the corresponding position of the grounding lead piece (6) along the upper surface of the second ring body (41), the auxiliary locking block (44417) moves along the inner wall of the reserved rotating groove (44412), when the auxiliary locking block rotates to the auxiliary notch (44414), the auxiliary locking block (44417) is sprung to the inside of the auxiliary notch (44414), and one end of the movable inserted rod (44416) is led into the locking hole (46);

S4: when the installation position of the grounding lead piece (6) needs to be adjusted, the rotary adjusting rod (444151) and the splicing counter rod (444161) are simultaneously pinched, the auxiliary locking block (44417) is separated from the auxiliary notch (44414), and the rotary adjusting rod (444151) and the splicing counter rod (444161) are rotated, so that the auxiliary locking block (44417) is attached to the inner wall of the reserved rotary groove (44412);

s5: when the installation position of the grounding lead piece (6) is determined, the grounding lead piece (6) is sleeved with the round corner-shaped strip-attaching block (71), then the grounding lead piece (6) is conformed to drop, and the round corner-shaped strip-attaching block (71) is adhered to the supporting column body (1) through the long adhesive sheet (73), so that all implementation steps are completed.