CN115939798A

CN115939798A - Graphene grounding device

Info

Publication number: CN115939798A
Application number: CN202310223387.6A
Authority: CN
Inventors: 陈莹丽; 邓承器; 宋强; 张远鑫; 吴媚
Original assignee: Jiangtian Technology Co ltd
Current assignee: Jiangtian Technology Co ltd
Priority date: 2023-03-09
Filing date: 2023-03-09
Publication date: 2023-04-07
Anticipated expiration: 2043-03-09
Also published as: CN115939798B

Abstract

The invention relates to the technical field of grounding devices, in particular to a graphene grounding device which comprises a graphene grounding rod, an installation structure, a positioning structure, a stabilizing structure, a clamping structure, a sealing structure, a ground drilling structure, a buffering structure and a sealing ring; the connecting ends of the graphene grounding rods are aligned and connected through the matching use of the positioning structure and the mounting structure, so that the abrasion between the core rods is reduced; the connection between the graphene ground rods is more stable through the stable structure, and the connection between the graphene ground rods is more compact through the clamping structure, so that the core rod is prevented from being broken due to vibration in the process of falling to the ground; make graphite alkene earth bar connector department seal through seal structure, avoid the moisture in the soil to enter into the kneck of graphite alkene earth bar, reduce through buffer structure and step up elasticity between the structure use when installing, make sealed effect better.

Description

Graphene grounding device

Technical Field

The invention relates to the technical field of grounding devices, in particular to a graphene grounding device.

Background

The grounding device is also called grounding integrated device, and is a device for forming electrical connection between electrical equipment or other objects and the ground, and is used for realizing the purpose of connecting an electrical system with the ground, and a metal object which is in direct contact with the ground to realize the electrical connection is a grounding electrode which can be an artificial grounding electrode or a natural grounding electrode, and the grounding electrode can be endowed with certain electrical function, for example, the grounding device is used for system grounding, protection grounding or signal grounding, and the like, and the graphene grounding device is often used in some industrial electricity.

However, when two or more graphene ground rods are connected, the traditional graphene ground rods are often connected through bolts, so that reserved hole positions between core rods are inconvenient to find, and the installation is troublesome; meanwhile, after the connected graphene ground rod is driven into the ground, the graphene ground rod is easy to break due to vibration of the connection part, so that the graphene ground rod is wasted; moisture and inorganic salt in the soil are easy to react with the connected bolts, the bolts are seriously rusted, the graphene grounding rod is easy to fall off, and the service life of the graphene grounding rod is shortened; in the soil horizon is beaten into to traditional electric hammer through will graphite alkene earth bar, soil horizon resistance is great, influences graphite alkene earth bar degree of depth ground connection.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a graphene grounding device.

The technical scheme adopted by the invention for solving the technical problems is as follows: a graphene grounding device comprises a graphene grounding rod, wherein a mounting structure is arranged on the graphene grounding rod, a positioning structure is arranged on the mounting structure, a stabilizing structure is arranged on the mounting structure, a tightening structure is arranged on the stabilizing structure, a sealing structure is arranged on the tightening structure, a ground drilling structure is arranged on the mounting structure, a buffering structure is arranged on the mounting structure, and a sealing ring is arranged on the mounting structure;

the mounting structure comprises a connecting mandrel, the connecting mandrel is arranged at one end of a graphene ground rod, the other end of the graphene ground rod is provided with an outer connecting rod, a mounting ring is fixed on the graphene ground rod where the connecting mandrel is located, a mounting sleeve is arranged at the end part of the graphene ground rod where the outer connecting rod is located, the connecting mandrel is connected with the outer connecting rod in a sliding mode, a connecting ring is arranged at the end part of the mounting sleeve and is connected with the inside of the mounting ring in a sliding mode, four clamping grooves of a circumferential array are arranged on the outer side of the connecting ring, four first clamping blocks of the circumferential array are arranged inside the mounting ring, the first clamping blocks are connected with the clamping grooves in a sliding mode, a first spring is arranged on one side of each first clamping block and is fixed inside the mounting ring, a deflector rod is fixed on one side of each first clamping block and is connected with the mounting ring in a sliding mode, a mounting cover is arranged on one side of the mounting ring at the top end of the mounting ring, and is connected with the mounting ring in a sliding mode; the mounting structure further comprises a guide rod, the guide rod and the shifting rod are vertically arranged, the shifting rod is connected with the guide rod in a sliding mode, and two ends of the guide rod are fixed inside the mounting ring; the positioning structure comprises four positioning plates, the four positioning plates equally divide the region between the inner wall of the mounting sleeve and the outer wall of the connecting outer rod into four positioning grooves, four positioning blocks are arranged on the mounting ring, the positioning blocks are connected with the positioning grooves in a sliding mode, limiting grooves are arranged on the positioning blocks, the limiting grooves are connected with limiting columns in a sliding mode, and the limiting columns are fixed on the inner wall of the mounting sleeve.

Specifically, the stabilizing structure comprises a contact block, four contact blocks in a circumferential array are arranged outside the mounting sleeve, the cross section of each contact block is in a trapezoidal structure, the contact blocks are connected with the mounting sleeve in a sliding mode, a push rod is arranged on one side of each contact block, the push rods are connected with the mounting sleeve in a sliding mode, one end of each push rod is connected to the inside of the positioning plate in a sliding mode, a first rolling shaft is arranged at the end portion of each push rod and connected to the inside of a sliding groove in a rolling mode, the sliding groove is arranged inside a connecting rod, one end of each connecting rod is connected to a rotating shaft in a rotating mode, the rotating shaft is fixed to the inside of the positioning plate, a second rolling shaft is connected to the inside of each sliding groove in a rolling mode, a sliding rod is connected to the second rolling shaft in a rotating mode, the sliding rod is connected to the inside of the connecting outer rod in a sliding mode, the end portion of each sliding rod is connected to the inside of the mounting hole, and the mounting hole is arranged on the connecting core rod; the stable structure still includes the gag lever post, the one end of gag lever post is fixed in one side of touch multitouch, sliding connection between gag lever post and the installation cover, the inside of locating plate is located to the other end of gag lever post, sliding connection between gag lever post and the locating plate, one side of gag lever post is equipped with the second spring, the second spring is fixed in the inside of locating plate.

Specifically, the structure of stepping up includes the mounting disc, the mounting disc is fixed in one side of connecting rod, rotate between mounting disc and the pivot and be connected, be equipped with first connecting axle on the mounting disc, the outside of first connecting axle is rotated and is connected with the one end of first connecting strip, the other end of first connecting strip is rotated and is connected with the second connecting axle, the second connecting axle is fixed in the tip of second connecting strip, second connecting strip sliding connection is in the inside of locating plate, sliding connection between second connecting strip and the installation cover, be equipped with the third connecting axle on the second connecting strip, rotate the one end that is connected with the third connecting strip on the third connecting axle, the other end of third connecting strip rotates the outside of connecting in the fourth connecting axle, the fourth connecting axle is fixed in the tip of tight pole, sliding connection between tight pole and the installation cover, the other end of tight pole is fixed in the bottom of go-between ring.

Specifically, one end of the sealing ring is fixed inside the mounting sleeve, and the other end of the sealing ring is connected inside the mounting ring in a sliding manner; the sealing structure comprises a supporting block, the supporting block is arranged at the end part of the second connecting strip, the supporting block is in sliding connection with the mounting sleeve, the cross section of the supporting block is of a trapezoidal structure, one side of the supporting block is abutted with an extruding ring, the extruding ring is in sliding connection with the mounting sleeve, and the extruding ring is arranged at the bottom end of the sealing ring.

Specifically, bore ground structure includes the drill bit, the drill bit is fixed with the first fixed block of four circumference arrays, the cross-section of first fixed block is L shape structure, the drill bit inboard of first fixed block bottom is equipped with four parallel arrangement's second fixed block, the bottom of installation cover is equipped with four stoppers of circumference array, sliding connection between stopper and the first fixed block, sliding connection between stopper and the second fixed block, sliding connection between stopper and the drill bit, the bottom sliding connection of stopper has the second fixture block, sliding connection between second fixture block and the second fixed block, the one end sliding connection of second fixture block is in the inside of drill bit, the end fixing of second fixture block has the connecting block, sliding connection between connecting block and the drill bit, one side of connecting block is equipped with the third spring, the one end of third spring is fixed in the inside of drill bit, one side of connecting block is fixed with son rope, four the one end of son rope all is connected in the one end of mother rope, mother rope sliding connection is in the inside of adapter sleeve, the other end connection lid of mother rope, connect the outside of lid sliding connection in the drill bit.

Specifically, buffer structure includes the cushion ring, one side of cushion ring is installed on the installation cover, the opposite side laminating of cushion ring is on the installation ring, the one side that has the blotter is laminated on the locating plate, the opposite side of blotter is fixed in on the installation ring.

The beneficial effects of the invention are:

(1) According to the graphene grounding device, the mounting structure is arranged on the graphene grounding rods, the positioning structure is arranged on the mounting structure, the connecting ends of the two graphene grounding rods are connected in an aligned mode conveniently through the positioning structure, connection deviation between the core rods is avoided, the core rods are connected more stably, two or more graphene grounding rods are connected conveniently through the mounting structure, the mounting is rapid and stable, the contact area between the graphene grounding rods is enlarged, the connecting effect of the core rods is better, the core rods are prevented from shaking, abrasion between the core rods is reduced, and the service life of the graphene grounding rods is prolonged.

(2) According to the graphene grounding device, the stable structure is arranged on the mounting structure, the clamping structure is arranged on the mounting structure, so that the connection between the graphene grounding rods is more stable through the stable structure, the connection between the two graphene grounding rods is more compact through the clamping structure, the core rods of the graphene grounding rods are prevented from being broken due to vibration in the grounding process, and the stability and the working efficiency of the connection between the plurality of graphene grounding rods in the grounding process are improved.

(3) According to the graphene grounding device, the sealing structure is arranged on the mounting structure, the buffering structure is arranged on the mounting structure, the sealing structure is convenient for sealing the connection port of the graphene grounding rod, water in soil is prevented from entering the connection port of the graphene grounding rod, the buffering structure is convenient for reducing the elasticity between the mounting structures when the clamping structure is used, the connection of the mounting structures is tighter, and the sealing effect is better.

(4) According to the graphene grounding device, the ground drilling structure is arranged on the mounting structure, so that the ground drilling structure can be conveniently mounted on any one mounting structure, the mounting is convenient, the dismounting and the replacement are convenient, the graphene grounding rod can be better drilled into deep soil through the ground drilling structure, and the grounding effect of the graphene grounding rod is better.

Drawings

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

Fig. 1 is a schematic overall structure diagram of a preferred embodiment of a graphene grounding device according to the present invention;

FIG. 2 is a schematic view of a connection structure of a mounting ring and a mounting sleeve according to the present invention;

FIG. 3 is a schematic view of the connection of the stabilization structure, the earth-boring structure and the mounting sleeve of the present invention;

FIG. 4 is a schematic view of a connection structure between a limiting block and a second clamping block according to the present invention;

FIG. 5 is a schematic view of a connection structure of a limiting block and a first fixing block according to the present invention;

FIG. 6 is an enlarged view of the part A shown in FIG. 1;

FIG. 7 is an enlarged view of the structure of the portion B shown in FIG. 1;

FIG. 8 is an enlarged view of the structure of the portion C shown in FIG. 3;

FIG. 9 is an enlarged view of the structure of the portion D shown in FIG. 3;

FIG. 10 is an enlarged view of the structure of the section E shown in FIG. 3;

FIG. 11 is an enlarged view of the structure of the portion F shown in FIG. 3;

fig. 12 is an enlarged view of the structure of the G portion shown in fig. 8.

In the figure: 1. a graphene ground rod; 2. a mounting structure; 201. connecting the core rods; 202. a mounting ring; 203. connecting the outer rod; 204. installing a sleeve; 205. a connecting ring; 206. a card slot; 207. a first clamping block; 208. a first spring; 209. a deflector rod; 210. installing a cover; 211. a guide bar; 3. a positioning structure; 301. positioning a plate; 302. positioning a groove; 303. positioning blocks; 304. a limiting groove; 305. a limiting column; 4. stabilizing the structure; 401. a contact block; 402. a push rod; 403. a limiting rod; 404. a second spring; 405. a first roller; 406. a connecting rod; 407. a rotating shaft; 408. a chute; 409. a second roller; 410. a slide bar; 411. mounting holes; 5. a clamping structure; 501. mounting a disc; 502. a first connecting shaft; 503. a first connecting bar; 504. a second connecting shaft; 505. a second connecting strip; 506. a third connecting shaft; 507. a third connecting strip; 508. a fourth connecting shaft; 509. tightening the rod; 6. a sealing structure; 601. a resisting block; 602. extruding a ring; 7. drilling an earth structure; 701. a drill bit; 702. a first fixed block; 703. a second fixed block; 704. a limiting block; 705. a second fixture block; 706. connecting blocks; 707. a third spring; 708. a sub-rope; 709. connecting sleeves; 710. a female rope; 711. a connecting cover; 8. a buffer structure; 801. a buffer ring; 802. a cushion pad; 9. and (5) sealing rings.

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 to 12, the graphene grounding device of the present invention includes a graphene grounding rod 1, wherein an installation structure 2 is disposed on the graphene grounding rod 1, a positioning structure 3 is disposed on the installation structure 2, a stabilizing structure 4 is disposed on the installation structure 2, a tightening structure 5 is disposed on the stabilizing structure 4, a sealing structure 6 is disposed on the tightening structure 5, a ground drilling structure 7 is disposed on the installation structure 2, a buffering structure 8 is disposed on the installation structure 2, and a sealing ring 9 is disposed on the installation structure 2;

the mounting structure 2 comprises a connecting mandrel 201, the connecting mandrel 201 is arranged at one end of a graphene ground rod 1, a connecting outer rod 203 is arranged at the other end of the graphene ground rod 1, a mounting ring 202 is fixed on the graphene ground rod 1 where the connecting mandrel 201 is located, a mounting sleeve 204 is arranged at the end of the graphene ground rod 1 where the connecting outer rod 203 is located, the connecting mandrel 201 is connected with the connecting outer rod 203 in a sliding manner, a connecting ring 205 is arranged at the end of the mounting sleeve 204, the connecting ring 205 is connected inside the mounting ring 202 in a sliding manner, four clamping grooves 206 in a circumferential array are arranged outside the connecting ring 205, four first clamping blocks 207 in a circumferential array are arranged inside the mounting ring 202, the first clamping blocks 207 are connected with the clamping grooves 206 in a sliding manner, a first spring 208 is arranged on one side of the first clamping blocks 207, the first spring 208 is fixed inside the mounting ring 202, a shift lever 209 is connected with the mounting ring 202 in a sliding manner, a mounting cover 210 is arranged on one side of the mounting ring 202 at the top end of the shift lever 209, and a mounting cover 210 is connected with the mounting ring 202 in a sliding manner; the mounting structure 2 further comprises a guide rod 211, the guide rod 211 is vertically arranged with the shift lever 209, the shift lever 209 is connected with the guide rod 211 in a sliding manner, and two ends of the guide rod 211 are fixed inside the mounting ring 202; the positioning structure 3 comprises positioning plates 301, the four positioning plates 301 equally divide the area between the inner wall of the mounting sleeve 204 and the outer wall of the connecting outer rod 203 into four positioning grooves 302, the mounting ring 202 is provided with four positioning blocks 303, the positioning blocks 303 are slidably connected with the positioning grooves 302, the positioning blocks 303 are provided with limiting grooves 304, the limiting grooves 304 are slidably connected with limiting columns 305, and the limiting columns 305 are fixed on the inner wall of the mounting sleeve 204; namely: when two graphene ground rods 1 need to be connected, after a sealing ring 9 is installed, a positioning block 303 slides into a positioning groove 302 separated by a positioning plate 301, at the moment, a connecting core rod 201 slides into the connecting outer rod 203, a limiting groove 304 and a limiting column 305 are arranged, the positioning block 303 is effectively prevented from deviating, meanwhile, the stability between the connecting core rod 201 and the connecting outer rod 203 is improved, after the connecting core rod 201 slides into the connecting outer rod 203, a connecting ring 205 on a mounting sleeve 204 slides into a mounting ring 202, the connecting ring 205 firstly abuts against a first clamping block 207, the first spring 208 contracts, when a clamping groove 206 of the connecting ring 205 is in contact with the first clamping block 207, the first spring 208 resets, the first clamping block 207 slides into the clamping groove 206, the connection between the mounting ring 202 and the mounting sleeve 204 is realized, when the connection needs to be released, a mounting cover 210 is slid, then a deflector rod 209 is pulled, the deflector rod 207 drives the first clamping block 207 to slide out of the clamping groove 206, the mounting ring 202 can be detached from the mounting sleeve 204, the connection between the connecting core rod 201 and the connecting outer rod 203 is released, and the stability of a deflector rod 209 is improved; be convenient for align the link of two graphite alkene earth bars 1 through location structure 3 and connect, avoided connecting the off tracking between the plug, make it connect more stably simultaneously, be convenient for couple together two or many graphite alkene earth bars 1 through mounting structure 2, the installation is swift stable, the area of contact between the graphite alkene earth bar 1 has been increaseed, make the linkage effect of plug better, avoid the plug to rock simultaneously, the wearing and tearing between the plug have been reduced, the life of graphite alkene earth bar 1 has been prolonged.

Specifically, the stabilizing structure 4 includes a contact block 401, four contact blocks 401 in a circumferential array are arranged outside the mounting sleeve 204, the cross section of each contact block 401 is in a trapezoidal structure, the contact blocks 401 are slidably connected with the mounting sleeve 204, a push rod 402 is arranged on one side of each contact block 401, the push rod 402 is slidably connected with the mounting sleeve 204, one end of the push rod 402 is slidably connected inside the positioning plate 301, a first roller 405 is arranged at the end of the push rod 402, the first roller 405 is connected inside a sliding groove 408 in a rolling manner, the sliding groove 408 is arranged inside a connecting rod 406, one end of the connecting rod 406 is rotatably connected to a rotating shaft 407, the rotating shaft 407 is fixed inside the positioning plate 301, a second roller 409 is rotatably connected inside the sliding groove 408, a sliding rod 410 is rotatably connected to the second roller 409, the sliding rod 410 is slidably connected inside the connecting outer rod 203, the end of the sliding rod 410 is slidably connected inside a mounting hole 411, and the mounting hole 411 is arranged on the connecting rod 201; stabilizing structure 4 still includes gag lever post 403, one end of gag lever post 403 is fixed in one side of touch multitouch 401, sliding connection between gag lever post 403 and the installation cover 204, the inside of locating plate 301 is located to the other end of gag lever post 403, sliding connection between gag lever post 403 and the locating plate 301, one side of gag lever post 403 is equipped with second spring 404, second spring 404 is fixed in the inside of locating plate 301.

Specifically, the tightening structure 5 includes a mounting disc 501, the mounting disc 501 is fixed to one side of the connecting rod 406, the mounting disc 501 is rotatably connected to the rotating shaft 407, the mounting disc 501 is provided with a first connecting shaft 502, the outside of the first connecting shaft 502 is rotatably connected to one end of a first connecting bar 503, the other end of the first connecting bar 503 is rotatably connected to a second connecting shaft 504, the second connecting shaft 504 is fixed to an end of a second connecting bar 505, the second connecting bar 505 is slidably connected to the inside of the positioning plate 301, the second connecting bar 505 is slidably connected to the mounting sleeve 204, the second connecting bar 505 is provided with a third connecting shaft 506, the third connecting shaft 506 is rotatably connected to one end of a third connecting bar 507, the other end of the third connecting bar 507 is rotatably connected to the outside of a fourth connecting shaft 508, the fourth connecting shaft 508 is fixed to an end of a tightening rod 509, the tightening rod 509 is slidably connected to the mounting sleeve 204, and the other end of the tightening rod 509 is fixed to the bottom end of the connecting ring 205; namely: when the connected graphene ground rod 1 goes to the ground, soil of a soil layer extrudes the contact block 401, the contact block 401 slides to drive the push rod 402 to slide, meanwhile, the limiting rod 403 slides, the second spring 404 is compressed, the push rod 402 slides to further push the connecting rod 406 to rotate around the rotating shaft 407, at the moment, the first roller 405 rolls inside the sliding groove 408, the second roller 409 rolls inside the sliding groove 408 due to the change of the position of the connecting rod 406, meanwhile, the second roller 409 pushes the sliding rod 410 to slide inside the connecting outer rod 203, the connecting outer rod 203 further slides into the mounting hole 411 preset by the connecting core rod 201, so that the connection between the connecting core rod 201 and the connecting outer rod 203 is more stable, meanwhile, the connecting rod 406 rotates to further drive the mounting disc 501 to rotate, the mounting disc 501 rotates to further change the position of the first connecting shaft 502, the first connecting shaft 502 further pushes the first connecting bar 503 to move, the angle of the first connecting bar 503 changes, further pushes the second connecting shaft 504 to move, the second connecting bar 505 slides to further push the third connecting bar 505 to further slide the connecting shaft 505, the third connecting bar 509 to closely connect with the third connecting shaft 202, and further tightly pull the third connecting shaft 507, and tightly connect the connecting shaft 202; be convenient for make the connection between the graphite alkene earth bar 1 more stable through stable structure 4, be convenient for make the connection between two graphite alkene earth bar 1 inseparabler through structure 5 that steps up, avoided graphite alkene earth bar 1 to break because of vibrations at ground in-process plug down, improved stability and work efficiency when connecting down the ground between many graphite alkene earth bar 1.

Specifically, one end of the sealing ring 9 is fixed inside the mounting sleeve 204, and the other end of the sealing ring 9 is slidably connected inside the mounting ring 202; the sealing structure 6 comprises a supporting block 601, the supporting block 601 is arranged at the end of the second connecting strip 505, the supporting block 601 is connected with the mounting sleeve 204 in a sliding manner, the cross section of the supporting block 601 is of a trapezoidal structure, an extruding ring 602 is abutted to one side of the supporting block 601, the extruding ring 602 is connected with the mounting sleeve 204 in a sliding manner, and the extruding ring 602 is arranged at the bottom end of the sealing ring 9.

Specifically, the earth boring structure 7 includes a drill bit 701, the drill bit 701 is fixed with four first fixed blocks 702 in a circumferential array, the cross section of the first fixed block 702 is an L-shaped structure, four second fixed blocks 703 arranged in parallel are arranged on the inner side of the drill bit 701 at the bottom end of the first fixed block 702, four limiting blocks 704 in a circumferential array are arranged at the bottom end of the mounting sleeve 204, the limiting blocks 704 are slidably connected with the first fixed block 702, the limiting blocks 704 are slidably connected with the second fixed block 703, the limiting blocks 704 are slidably connected with the drill bit 701, the bottom end of the limiting blocks 704 is slidably connected with a second clamping block 705, the second clamping block 705 is slidably connected with the second fixed block 703, one end of the second clamping block 705 is slidably connected with the inside of the drill bit 701, a connecting block 706 is fixed at the end of the second clamping block, the connecting block 706 is slidably connected with the drill bit 701, a third spring 707 is arranged at one side of the connecting block 706, a sub-rope 708 is fixed at one side of the connecting block 706, one end of the sub-rope is connected with one end of the female rope 708, and the female rope 710 is connected with the sliding connection cover 711 of the female rope 701; namely: when the drill bit 701 needs to be installed, the graphene ground rod 1 at the bottom end of the installation sleeve 204 is cut, a proper length is reserved, the limiting block 704 at the bottom end of the installation sleeve 204 slides into the drill bit 701, the installation sleeve 204 is rotated, the limiting block 704 rotates, meanwhile, the graphene ground rod 1 rotates into an interlayer between the first fixing block 702 and the second fixing block 703, when the limiting block 704 first abuts against the second clamping block 705, the third spring 707 compresses, the connecting block 706 slides, when the second clamping block 705 slides to a hole reserved in the limiting block 704, the third spring 707 resets, the connecting block 706 slides, meanwhile, the second clamping block 705 slides into the limiting block 704, when the drill bit 701 needs to be disassembled, the connecting cover 711 at the drill bit 701 is buckled, the connecting cover pulls the mother rope 710 to slide in the connecting sleeve 709, the mother rope 710 pulls the four son ropes 708 to slide, the son ropes 708 pull the connecting block 706 to slide with the second clamping block 705, the third spring 707 compresses, the second clamping block 705 slides out of the limiting block 711, and the drill bit 701 rotates, and the drill bit 701 can be disassembled from the bottom end of the installation sleeve 204; be convenient for to bore ground structure 7 and install on arbitrary one mounting structure 2, simple to operate, convenient to detach changes, makes the better deep soil that drills into of graphite alkene earth bar 1 through boring ground structure 7, and then makes graphite alkene earth bar 1's ground connection effect better.

Specifically, the buffer structure 8 includes a buffer ring 801, one side of the buffer ring 801 is mounted on the mounting sleeve 204, the other side of the buffer ring 801 is attached to the mounting ring 202, one side of a buffer pad 802 is attached to the positioning plate 301, and the other side of the buffer pad 802 is fixed to the mounting ring 202; namely: when second connecting strip 505 slides, it slides to drive and supports piece 601, support piece 601 and slide and then promote crowded ring 602 and slide, when mounting structure 2 has been connected, crowded ring 602 slides and then extrudes sealing washer 9 between installation cover 204 and the installation ring 202, make sealed inseparabler, buffer ring 801 and blotter 802 use are elastic material, when receiving the extrusion of installation ring 202 and installation cover 204, the inseparabler of laminating, avoid moisture in the soil to enter into the kneck of graphite alkene earth bar 1, be convenient for reduce through buffer structure 8 and step up elasticity between the structure 5 when using between mounting structure 2, make inseparabler that mounting structure 2 connects, make sealed effect better.

When the graphene grounding rod is used, when two graphene grounding rods 1 need to be connected, after a sealing ring 9 is installed, a positioning block 303 slides into a positioning groove 302 separated by a positioning plate 301, at the moment, a connecting core rod 201 slides into the connecting outer rod 203, a limiting groove 304 and a limiting column 305 are arranged, the positioning block 303 is effectively prevented from deviating, the stability between the connecting core rod 201 and the connecting outer rod 203 is improved, after the connecting core rod 201 slides into the connecting outer rod 203, a connecting ring 205 on a mounting sleeve 204 slides into the mounting ring 202, the connecting ring 205 firstly abuts against a first clamping block 207, the first spring 208 contracts, when a clamping groove 206 of the connecting ring 205 is in contact with the first clamping block 207, the first clamping block 207 slides into the mounting sleeve 206, the connection between the mounting ring 202 and the mounting sleeve 204 is realized, when the connection needs to be released, a cover 210 is slidably mounted, a deflector rod 209 and a deflector rod 209 drive the first clamping block 206 to slide out of the clamping groove 206, the mounting ring 202 can be detached from the mounting sleeve 204, meanwhile, the connection between the connecting core rod 203 and the connecting outer rod 203 is released, and the stability of the deflector rod 211 is improved; the connecting ends of the two graphene ground rods 1 are connected in an aligned mode conveniently through the positioning structure 3, connection deviation between the core rods is avoided, connection of the core rods is enabled to be more stable, the two or more graphene ground rods 1 are connected conveniently through the mounting structure 2, mounting is fast and stable, the contact area between the graphene ground rods 1 is increased, the connection effect of the core rods is enabled to be better, shaking of the core rods is avoided, abrasion between the core rods is reduced, and the service life of the graphene ground rods 1 is prolonged;

when the connected graphene ground rod 1 goes to the ground, soil of a soil layer extrudes the contact block 401, the contact block 401 slides to drive the push rod 402 to slide, meanwhile, the limiting rod 403 slides, the second spring 404 is compressed, the push rod 402 slides to further push the connecting rod 406 to rotate around the rotating shaft 407, at the moment, the first roller 405 rolls inside the sliding groove 408, the second roller 409 rolls inside the sliding groove 408 due to the change of the position of the connecting rod 406, meanwhile, the second roller 409 pushes the sliding rod 410 to slide inside the connecting outer rod 203, the connecting outer rod 203 further slides into the mounting hole 411 preset by the connecting core rod 201, so that the connection between the connecting core rod 201 and the connecting outer rod 203 is more stable, meanwhile, the connecting rod 406 rotates to further drive the mounting disc 501 to rotate, the mounting disc 501 rotates to further change the position of the first connecting shaft 502, the first connecting shaft 502 further pushes the first connecting bar 503 to move, the angle of the first connecting bar 503 changes, further pushes the second connecting shaft 504 to move, the second connecting bar 505 slides to further push the third connecting bar 505 to further slide the connecting shaft 505, the third connecting bar 509 to closely connect with the third connecting shaft 202, and further tightly pull the third connecting shaft 507, and tightly connect the connecting shaft 202; the connection between the graphene ground rods 1 is more stable through the stabilizing structure 4, the connection between the two graphene ground rods 1 is more compact through the clamping structure 5, the core rods of the graphene ground rods 1 are prevented from being broken due to vibration in the process of going to the ground, and the stability and the working efficiency of the plurality of graphene ground rods 1 in the process of going to the ground in a connected mode are improved;

when the second connecting strip 505 slides, the supporting block 601 is driven to slide, the supporting block 601 slides to push the extruding ring 602 to slide, when the mounting structure 2 is connected, the extruding ring 602 slides to extrude the sealing ring 9 between the mounting sleeve 204 and the mounting ring 202, so that the sealing is tighter, the buffering ring 801 and the buffering pad 802 are made of elastic materials, when the mounting ring 202 and the mounting sleeve 204 are extruded, the fitting is tighter, moisture in soil is prevented from entering an interface of the graphene ground rod 1, the elasticity between the mounting structure 2 when the tightening structure 5 is used is reduced through the buffering structure 8, the mounting structure 2 is connected tighter, and the sealing effect is better;

when the drill bit 701 needs to be installed, the graphene ground rod 1 at the bottom end of the installation sleeve 204 is cut, a proper length is reserved, the limiting block 704 at the bottom end of the installation sleeve 204 slides into the drill bit 701, the installation sleeve 204 is rotated, the limiting block 704 rotates, meanwhile, the graphene ground rod 1 rotates into an interlayer between the first fixing block 702 and the second fixing block 703, when the limiting block 704 first abuts against the second clamping block 705, the third spring 707 compresses, the connecting block 706 slides, when the second clamping block 705 slides to a hole reserved in the limiting block 704, the third spring 707 resets, the connecting block 706 slides, meanwhile, the second clamping block 705 slides into the limiting block 704, when the drill bit 701 needs to be disassembled, the connecting cover 711 at the drill bit 701 is buckled, the connecting cover pulls the mother rope 710 to slide in the connecting sleeve 709, the mother rope 710 pulls the four son ropes 708 to slide, the son ropes 708 pull the connecting block 706 to slide with the second clamping block 705, the third spring 707 compresses, the second clamping block 705 slides out of the limiting block 711, and the drill bit 701 rotates, and the drill bit 701 can be disassembled from the bottom end of the installation sleeve 204; be convenient for to bore ground structure 7 and install on arbitrary one mounting structure 2, simple to operate, convenient to detach changes, makes the better deep soil that drills into of graphite alkene earth bar 1 through boring ground structure 7, and then makes graphite alkene earth bar 1's ground connection effect better.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims

1. The graphene grounding device is characterized by comprising a graphene grounding rod (1), wherein a mounting structure (2) is arranged on the graphene grounding rod (1), a positioning structure (3) is arranged on the mounting structure (2), a stabilizing structure (4) is arranged on the mounting structure (2), a tightening structure (5) is arranged on the stabilizing structure (4), a sealing structure (6) is arranged on the tightening structure (5), a ground drilling structure (7) is arranged on the mounting structure (2), a buffering structure (8) is arranged on the mounting structure (2), and a sealing ring (9) is arranged on the mounting structure (2);

the mounting structure (2) comprises a connecting core rod (201), the connecting core rod (201) is arranged at one end of a graphene ground rod (1), the other end of the graphene ground rod (1) is provided with a connecting outer rod (203), the graphene ground rod (1) where the connecting core rod (201) is located is fixed with a mounting ring (202), the end of the graphene ground rod (1) where the connecting outer rod (203) is located is provided with a mounting sleeve (204), the connecting core rod (201) is in sliding connection with the connecting outer rod (203), the end of the mounting sleeve (204) is provided with a connecting ring (205), the connecting ring (205) is in sliding connection with the inside of the mounting ring (202), the outer side of the connecting ring (205) is provided with four clamping grooves (206) of a circumferential array, the inside of the mounting ring (202) is provided with four first clamping blocks (207) of the circumferential array, the first clamping blocks (207) are in sliding connection with the clamping grooves (206), one side of each first clamping block (207) is provided with a first spring (208), the first spring (208) is fixed on the mounting ring (202), and one side of a deflector rod (209) is provided with a deflector rod (209), and a deflector rod (209) cover (209) which is fixed on one side of the deflector rod (209), the mounting cover (210) is connected with the mounting ring (202) in a sliding mode.

2. The graphene grounding device of claim 1, wherein: the mounting structure (2) further comprises a guide rod (211), the guide rod (211) and the shifting rod (209) are vertically arranged, the shifting rod (209) is connected with the guide rod (211) in a sliding mode, and two ends of the guide rod (211) are fixed inside the mounting ring (202).

3. The graphene grounding device of claim 1, wherein: location structure (3) are including locating plate (301), four locating plate (301) will install between cover (204) inner wall and be connected outer stick (203) outer wall regional partition for four constant head tanks (302), be equipped with four locating pieces (303) on collar (202), sliding connection between locating piece (303) and constant head tank (302), be equipped with spacing groove (304) on locating piece (303), sliding connection between spacing groove (304) and spacing post (305), the inner wall of installing cover (204) is fixed in spacing post (305).

4. The graphene grounding device of claim 3, wherein: stabilizing structure (4) are including feeler block (401), the outside of installation cover (204) is equipped with four feeler blocks (401) of circumference array, the cross-section of feeler block (401) is trapezium structure, sliding connection between feeler block (401) and installation cover (204), one side of feeler block (401) is equipped with push rod (402), sliding connection between push rod (402) and installation cover (204), the one end sliding connection of push rod (402) is in the inside of locating plate (301), the tip of push rod (402) is equipped with first roller (405), first roller (405) roll connection is in the inside of spout (408), the inside of connecting rod (406) is located in spout (408), the one end of connecting rod (406) is rotated and is connected in pivot (407), pivot (407) are fixed in the inside of locating plate (301), the inside roll connection of spout (408) has second roller (409), rotate on second roller (409) and be connected with slide bar (410), slide bar (203) slide connection is outside the slide connection in the pivot (407), the inside roll connection of slide bar (408) is in slide bar mounting hole (411), the installation hole (411) is located on the plug (411).

5. The graphene grounding device of claim 4, wherein: stabilizing structure (4) still include gag lever post (403), one end of gag lever post (403) is fixed in one side of feeler block (401), sliding connection between gag lever post (403) and installation cover (204), the inside of locating plate (301) is located to the other end of gag lever post (403), sliding connection between gag lever post (403) and locating plate (301), one side of gag lever post (403) is equipped with second spring (404), second spring (404) are fixed in the inside of locating plate (301).

6. The graphene grounding device of claim 4, wherein: the tightening structure (5) comprises a mounting disc (501), the mounting disc (501) is fixed on one side of a connecting rod (406), the mounting disc (501) is rotatably connected with a rotating shaft (407), a first connecting shaft (502) is arranged on the mounting disc (501), one end of the first connecting bar (503) is rotatably connected with the outside of the first connecting shaft (502), the other end of the first connecting bar (503) is rotatably connected with a second connecting shaft (504), the second connecting shaft (504) is fixed on the end of the second connecting bar (505), the second connecting bar (505) is slidably connected with the inside of the positioning plate (301), the second connecting bar (505) is slidably connected with a mounting sleeve (204), a third connecting shaft (506) is arranged on the second connecting bar (505), one end of a third connecting bar (507) is rotatably connected with the third connecting bar (506), the other end of the third connecting bar (507) is rotatably connected with the outside of a fourth connecting shaft (508), the fourth connecting shaft (509) is fixed on the connecting shaft (508), and the end of the tightening rod (509) is fixed on the mounting disc (205).

7. The graphene grounding device of claim 1, wherein: one end of the sealing ring (9) is fixed inside the mounting sleeve (204), and the other end of the sealing ring (9) is connected inside the mounting ring (202) in a sliding manner.

8. The graphene grounding device of claim 6, wherein: the sealing structure (6) comprises a supporting block (601), the supporting block (601) is arranged at the end of the second connecting strip (505), the supporting block (601) is in sliding connection with the mounting sleeve (204), the cross section of the supporting block (601) is of a trapezoidal structure, one side of the supporting block (601) is abutted with an extruding ring (602), the extruding ring (602) is in sliding connection with the mounting sleeve (204), and the extruding ring (602) is arranged at the bottom end of the sealing ring (9).

9. The graphene grounding device of claim 1, wherein: the earth boring structure (7) comprises a drill bit (701), wherein four circumferential arrays of first fixed blocks (702) are fixed on the drill bit (701), the cross section of each first fixed block (702) is of an L-shaped structure, four parallel second fixed blocks (703) are arranged on the inner side of the drill bit (701) at the bottom end of each first fixed block (702), four circumferential arrays of limiting blocks (704) are arranged at the bottom end of the mounting sleeve (204), the limiting blocks (704) are slidably connected with the first fixed blocks (702), the limiting blocks (704) are slidably connected with the second fixed blocks (703), the limiting blocks (704) are slidably connected with the drill bit (701), the bottom end of each limiting block (704) is slidably connected with a second clamping block (705), the second clamping block (703) is slidably connected with the second fixed blocks (705), one end of each second clamping block (705) is slidably connected with the inside of the drill bit (701), a connecting block (706) is fixed at the end of each second clamping block (705), the connecting block (706) is slidably connected with the drill bit (701), one side of the connecting block (705) is provided with a spring rope (707), and one ends of the three spring ropes (707) are fixed on one side of the drill bit (701), and the four spring ropes (710) are fixed on one ends of the connecting blocks (706), the female rope (710) is connected to the inside of the connecting sleeve (709) in a sliding mode, the other end of the female rope (710) is connected to the connecting cover (711), and the connecting cover (711) is connected to the outside of the drill bit (701) in a sliding mode.

10. The graphene grounding device of claim 4, wherein: the buffer structure (8) comprises a buffer ring (801), one side of the buffer ring (801) is installed on the installation sleeve (204), the other side of the buffer ring (801) is attached to the installation ring (202), one side of the cushion pad (802) is attached to the positioning plate (301), and the other side of the cushion pad (802) is fixed on the installation ring (202).