CN116130986B

CN116130986B - Graphene lightning protection grounding device

Info

Publication number: CN116130986B
Application number: CN202310401744.3A
Authority: CN
Inventors: 姚成; 李威; 刘浩然; 杨光
Original assignee: Heilongjiang Gangdao Technology Co ltd
Current assignee: Heilongjiang Gangdao Technology Co ltd
Priority date: 2023-04-17
Filing date: 2023-04-17
Publication date: 2023-06-23
Anticipated expiration: 2043-04-17
Also published as: CN116130986A

Abstract

The invention relates to the technical field of grounding equipment, in particular to graphene lightning protection grounding equipment, which comprises a plurality of graphene rods connected end to end by a connecting mechanism, wherein a wiring mechanism is arranged at the top of the topmost graphene rod, a taper sleeve is arranged at the bottom of the bottommost graphene rod, a fastening mechanism is arranged in the wiring mechanism, a protection mechanism is arranged on the taper sleeve, an installation mechanism is arranged at the outer part of the topmost graphene rod, and a locking mechanism is arranged on the installation mechanism; through the cooperation of wiring mechanism and fastening mechanism, do benefit to external wire and graphene stick and be connected, be favorable to being connected a plurality of graphene sticks through coupling mechanism, be favorable to improving conductive properties, through the installation of wiring mechanism and graphene stick, be favorable to driving protection mechanism, make protection mechanism open on coupling mechanism to contradict to earth, improved the land fertility of grabbing, do benefit to the graphene stick and install firmly in the ground.

Description

Graphene lightning protection grounding device

Technical Field

The invention relates to the technical field of grounding equipment, in particular to graphene lightning protection grounding equipment.

Background

The lightning strike can cause tripping or line fault, although the reasons for causing the tripping of the lightning strike are numerous, the main reasons are that the grounding system of the equipment is poor, namely the grounding resistance does not meet the specified requirement, so that the lightning can not be discharged in time, and in order to improve the effects of conduction and lightning discharge, the existing graphene rod is arranged at the ground bottom to discharge, so that the resistance is reduced, and the discharging effect is better.

However, the limited inconvenient fine connection of graphite alkene stick length, thereby it is poor to connect the back and to become flexible easily leads to the effect of discharging to after the graphite alkene stick inserts the ground, lack fastening assembly, long-time use probably appears not hard up condition, reduced the effect of diarrhea the thunder, inconvenient quick additional dress graphite alkene stick as required simultaneously, inconvenient taking out whole after the graphite alkene stick fracture, follow-up maintenance is very inconvenient, when graphite alkene stick is connected with outside electric wire, lack safeguard measure, receive external corruption easily after long-time use, cause the resistance increase, thereby reduced conductive properties.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides graphene lightning protection grounding equipment.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a graphite alkene lightning protection grounding device, includes many graphite alkene sticks of being connected by coupling mechanism head and tail, and wiring mechanism is installed at the top of graphite alkene stick, and the bottom of being installed in graphite alkene stick bottom, wiring mechanism internally mounted has fastening mechanism, install protection machanism on the taper sleeve, the top the graphite alkene stick outside is provided with installation mechanism, install locking mechanism on the installation mechanism.

Specifically, coupling mechanism includes the adapter sleeve, two be connected with the adapter sleeve between the graphite alkene stick, graphite alkene stick and the inside threaded connection of adapter sleeve, adapter sleeve internally mounted has four be annular equidistance distributed's actuating lever, four the actuating lever passes through extrusion spring and the inside sliding connection of adapter sleeve, four the actuating lever top extends to the adapter sleeve outside and contradicts with graphite alkene stick bottom, four the actuating lever bottom has the briquetting through buffer spring sliding connection, the briquetting bottom extends to the adapter sleeve outside and contradicts with another graphite alkene stick top.

Specifically, the briquetting is trapezium structure, the briquetting bottom is equipped with the latch, the taper sleeve is the toper structure.

Specifically, wiring mechanism includes the top cap, and topmost graphene rod top threaded connection has the top cap, top cap center department is equipped with the spread groove, the spread groove extends to the top cap outside, top cap top threaded connection has the nut, the nut is the ring structure, nut top block is connected with sealed the pad, the sealing washer is installed at the top cap top, nut bottom is contradicted with the sealing washer.

Specifically, fastening mechanism includes the clamp plate, top cap internally mounted has four clamp plates that are annular distribution, four fixed blocks of top cap inside fixedly connected with, the clamp plate passes through pressing spring and fixed block sliding connection, clamp plate and the inside sliding connection of top cap, clamp plate one end extends to inside the spread groove, clamp plate one end is tooth form structure, the clamp plate other end is trapezium structure, the clamp plate other end extends to the top cap outside and the inboard conflict of nut.

Specifically, protection machanism includes the drive block, the inside center department of taper sleeve installs the drive block, the drive block passes through reset spring and the inside sliding connection of taper sleeve, drive block top fixedly connected with connecting block, the drive block lateral wall rotates and is connected with four squeeze poles, four squeeze poles respectively with the inside sliding connection of taper sleeve, the taper sleeve lateral wall rotates and is connected with four bull sticks, four squeeze pole bottom respectively with four bull stick topside rotation connection, two the inside sliding connection of graphite alkene stick has the control rod, the control rod bottom extends to the taper sleeve inside and connecting block threaded connection, the control rod top is contradicted with the top cap, the guide arm is installed to the drive block bottom, the guide arm runs through in reset spring and the inside sliding connection of taper sleeve.

Specifically, taper sleeve internally mounted has four rubber blocks, the rubber block is through contradicting spring and the inside sliding connection of taper sleeve, the rubber block top extends to the taper sleeve outside and contradicts with the graphite alkene stick.

Specifically, the installation mechanism comprises an installation seat, the installation seat is installed at the top of the graphene rod, the installation seat is in threaded connection with the top of the graphene rod through a connecting hole, the installation seat is of a hexagonal structure, six clamping grooves are formed in the side wall of the installation seat, the clamping grooves are of a trapezoid structure, other installation seats can be installed on the side edges of the installation seat according to requirements, the installation seats are connected through clamping blocks, and the clamping blocks are in sliding connection with the inside of the clamping grooves.

Specifically, the locking mechanism comprises a protruding block, six groups of two protruding blocks which are arranged oppositely are arranged in the mounting seat in a group, a movable spring is connected between the two protruding blocks which are relatively close to each other, the protruding blocks are connected with the inside of the mounting seat in a sliding mode through the movable spring, grooves are respectively formed in the centers of two sides of each clamping block, one end of each protruding block extends into the connecting hole, and the other six protruding blocks extend into the clamping grooves and are in collision with the grooves.

The beneficial effects of the invention are as follows:

(1) According to the graphene lightning protection grounding device, through connection of the wiring mechanism and the graphene rod, the graphene lightning protection grounding device is beneficial to convenient installation with an external lead, and under the action of the fastening mechanism, the wire is tightly and firmly connected with the wiring mechanism, so that good lightning release work is achieved, namely: through the screw-thread mount of top cap and graphite alkene stick, be favorable to convenient follow-up maintenance, be favorable to putting into under the effect of spread groove and be connected outside electric wire, pass the nut through the electric wire, be favorable to nut and top cap threaded connection, make the nut conflict extrusion to the electric wire, play the effect sealed to electric wire and nut under the effect through sealed pad, prevent that electric wire junction from corroding, make under the effect of sealing washer and connect closely between nut and the top cap, the leakproofness is better, screw thread rotation through the nut is favorable to the nut to four clamp plates conflict, four clamp plates get rid of and slide under the effect of pressing the spring, be favorable to four clamp plates to the electric wire extrusion of spread groove inside, thereby make electric wire and top cap internal connection firm, because four clamp plate tip is tooth form structure, make the clamp plate extrude closely to the electric wire, and be favorable to preventing the electric wire slippage, demolish through the nut, the clamp plate resets under the effect of pressing the spring, the convenience demolishs the work to the electric wire of connecting.

(2) According to the graphene lightning protection grounding device, the plurality of graphene rods are connected under the action of the connecting mechanism, the connected graphene rods are firmer and more stable, and the conductive performance is improved, namely: the connecting sleeve is beneficial to threaded connection of two graphene rods under the action of the connecting sleeve, so that the length of the graphene rods at the ground is increased, the lightning leakage work is well achieved, after the connecting sleeve is in threaded connection with the top of the graphene rods, the other graphene rod is in threaded connection with the top of the connecting sleeve, meanwhile, the graphene rods are abutted against the four driving rods, the driving rods slide under the action of the extrusion springs, the driving rods are beneficial to driving the buffer springs and the pressing blocks to slide downwards, the pressing blocks are abutted against the tops of the graphene rods, the graphene rods can not rotate at will, the graphene rods are firmly and stably connected, the driving rods and the pressing blocks are abutted tightly against the graphene rods under the action of the buffer springs and can not loosen, the contact area is increased, the extrusion is tight, meanwhile, the pressing blocks are firmly abutted against the graphene rods and can not rotate at will through the design of the toothed structure at the bottom of the pressing blocks, the inside of the ground is convenient to insert the graphene rods under the action of the taper sleeve, and the operation is more convenient and labor-saving.

(3) According to the graphene lightning protection grounding device, through the installation of the wiring mechanism and the graphene rod, the protection mechanism is driven, so that the protection mechanism is opened on the connecting mechanism, soil is abutted, the graphene rod is firmly installed at the ground, and the graphene lightning protection grounding device is not easy to loosen, namely: the driving block is positioned at the top of the taper sleeve under the action of the reset spring, which is favorable for accommodating the rotating rod and the extrusion rod at the inner side of the taper sleeve, the control rod with a certain length is inserted into the graphene rod, the control rod is in threaded connection with the connecting block, the top cover is in interference extrusion with the control rod through closing the top cover, the control rod drives the connecting block and the driving block to extrude the extrusion rod, the extrusion rod drives the rotating rod to swing, so that the rotating rod slides out of the outer side of the taper sleeve, the rotating rod is in interference extrusion with soil, thereby make the taper sleeve more firm can not become flexible in the ground, make the drive piece slide smoothly stable under the effect of guide arm, be favorable to making the graphite alkene stick fracture back can not drop simultaneously under the effect of control lever, make convenient follow-up dismantlement maintenance, make the rubber piece have the conflict power under the effect of conflict spring, after graphite alkene stick and taper sleeve threaded connection, the rubber piece is contradicted to the graphite alkene stick, makes graphite alkene stick and taper sleeve connection inseparable difficult not hard up.

(4) According to the graphene lightning protection grounding device, through the cooperation of the mounting mechanism and the locking mechanism, a plurality of graphene rods are mounted as required, so that lightning is more dispersed, and the locking mechanism is driven during the mounting of the graphene rods, so that the locking mechanism can firmly splice the mounting mechanism and cannot fall off, namely: be favorable to connecting the graphite alkene stick under the effect through the mount pad to make the graphite alkene stick at ground installation stable, splice through a plurality of mount pads, be favorable to installing a plurality of graphite alkene sticks additional, thereby the effect of stopping the mine has been increased, make under the effect of a plurality of fixture blocks connect steadily between the mount pad, and make things convenient for follow-up dismantlement maintenance, splice through the mount pad after, fixture block and inside block of draw-in groove back, the fixture block is contradicted to the lug, thereby make the lug get rid of movable spring's effect under shrink, make things convenient for the fixture block firm, the inside recess is drawn into to the lug after the complete block of fixture block, be favorable to contradicting closely to the fixture block, another lug is contradicted to the inside graphite alkene stick of connecting hole simultaneously, make the graphite alkene stick be difficult for not hard up.

Drawings

The invention will be further described with reference to the drawings and examples.

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

FIG. 2 is a schematic diagram of a connection mechanism between a mounting base and a clamping block according to the present invention;

FIG. 3 is a schematic diagram of a connection mechanism of a latch and a bump according to the present invention;

fig. 4 is a schematic diagram of a connection mechanism of a graphene rod and a connection sleeve according to the present invention;

FIG. 5 is an enlarged schematic view of the portion A shown in FIG. 4;

FIG. 6 is a schematic diagram of a connection mechanism of a graphene rod and a top cover according to the present invention;

FIG. 7 is a schematic diagram of a connection mechanism of a graphene rod and a taper sleeve according to the present invention;

FIG. 8 is an enlarged schematic view of the structure of the portion B shown in FIG. 7;

fig. 9 is a schematic diagram of a connection structure of a graphene rod and a wiring mechanism according to the present invention.

In the figure: 1. a graphene rod; 2. a connecting mechanism; 201. latch teeth; 202. connecting sleeves; 203. a driving rod; 204. extruding a spring; 205. a buffer spring; 206. briquetting; 3. a wiring mechanism; 301. a top cover; 302. a connecting groove; 303. a screw cap; 304. a sealing gasket; 305. a seal ring; 4. a fastening mechanism; 401. a pressing plate; 402. pressing the spring; 403. a fixed block; 5. a protective mechanism; 501. a control lever; 502. a rotating rod; 503. an extrusion rod; 504. a guide rod; 505. a driving block; 506. a return spring; 507. a connecting block; 508. a rubber block; 509. a contact spring; 6. a mounting mechanism; 601. a mounting base; 602. a clamping block; 603. a connection hole; 604. a clamping groove; 7. a locking mechanism; 701. a bump; 702. a movable spring; 703. a groove; 8. and (5) a taper sleeve.

Description of the embodiments

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-9, the graphene lightning protection grounding device comprises a plurality of graphene rods 1 connected end to end by a connecting mechanism 2, a wiring mechanism 3 is arranged at the top of the topmost graphene rod 1, a taper sleeve 8 is arranged at the bottom of the bottommost graphene rod 1, a fastening mechanism 4 is arranged in the wiring mechanism 3, a protection mechanism 5 is arranged on the taper sleeve 8, an installation mechanism 6 is arranged outside the topmost graphene rod 1, and a locking mechanism 7 is arranged on the installation mechanism 6.

Specifically, coupling mechanism 2 includes adapter sleeve 202, two be connected with adapter sleeve 202 between the graphite alkene stick 1, graphite alkene stick 1 carries out threaded connection with adapter sleeve 202 inside threaded connection, adapter sleeve 202 internally mounted has four be annular equidistance distributed's actuating lever 203, four actuating lever 203 through extrusion spring 204 and the inside sliding connection of adapter sleeve 202, four actuating lever 203 top extends to the adapter sleeve 202 outside and the conflict of graphite alkene stick 1 bottom, four actuating lever 203 bottom has briquetting 206 through buffer spring 205 sliding connection, briquetting 206 bottom extends to the adapter sleeve 202 outside and the conflict of another graphite alkene stick 1 top, through the effect of adapter sleeve 202 is favorable to two under graphite alkene stick 1 carries out threaded connection, thereby has increased graphite alkene stick 1 is at the length of ground, plays fine thunder work, through adapter sleeve 202 with after the threaded connection of graphite alkene stick 1 top, will another graphite alkene stick 1 with adapter sleeve 202 top threaded connection, simultaneously graphite alkene stick 1 is to four the actuating lever 203, 205 bottom is through buffer spring 205 sliding connection has briquetting 206, thereby the graphite alkene stick 203 can not make the effect of graphite alkene stick 203 can not make the impact down in the effect of compression spring 203 can not make the briquetting 206 can be tight under the effect of the impact down.

Specifically, briquetting 206 is trapezium structure, briquetting 206 bottom is equipped with latch 201, taper sleeve 8 is the toper structure, through the design of briquetting 206 trapezium structure is favorable to increasing area of contact, makes the extrusion inseparable, simultaneously through the design of briquetting 206 bottom dentate structure makes briquetting 206 is right graphene stick 1 contradicts firmly can not rotate at will graphene stick 1 inserts inside the ground under the effect of taper sleeve 8, and the operation is more convenient laborsaving.

Specifically, wiring mechanism 3 includes top cap 301, and topmost graphene rod 1 top threaded connection has top cap 301, top cap 301 center department is equipped with spread groove 302, spread groove 302 extends to the top cap 301 outside, top cap 301 top threaded connection has nut 303, nut 303 is the ring-shaped structure, nut 303 top block is connected with sealing washer 304, sealing washer 305 is installed at top cap 301 top, nut 303 bottom and sealing washer 305 conflict, through top cap 301 with graphene rod 1's threaded mounting is favorable to following maintenance, is favorable to putting into the connection to external electric wire under the effect of spread groove 302, is favorable to through the electric wire pass nut 303 with top cap 301 threaded connection makes nut 303 conflict to the electric wire, through the effect of sealing washer 304 play to the electric wire with nut 303 sealed effect, prevent through the effect of sealing washer 305 makes nut 303 with connect closely between the top cap 301, the leakproofness is better.

Specifically, the fastening mechanism 4 includes the clamp plate 401, top cap 301 internally mounted has four clamp plates 401 that are annular distribution, top cap 301 inside fixedly connected with four fixed blocks 403, clamp plate 401 is through pressing spring 402 and fixed block 403 sliding connection, clamp plate 401 and top cap 301 inside sliding connection, clamp plate 401 one end extends to inside the spread groove 302, clamp plate 401 one end is the heliciform structure, the clamp plate 401 other end is the trapezium structure, the clamp plate 401 other end extends to the top cap 301 outside and the nut 303 inboard is contradicted, through the screw thread rotation of nut 303, is favorable to four clamp plates 401 are contradicted, four clamp plates 401 are got rid of four clamp plates 401 are to slide under the effect of pressing spring 402 to the electric wire extrusion of spread groove 302 is favorable to four clamp plates 401 to the inside electric wire extrusion of top cap 301 internal connection is firm, because four clamp plates 401 tip is the heliciform structure, makes clamp plates 401 closely to the electric wire extrusion, and is favorable to preventing the slippage, through the screw cap 303 is demolish, clamp plates 401 is favorable to demolishing under the effect of electric wire connection spring 402.

Specifically, the protection mechanism 5 comprises a driving block 505, a driving block 505 is installed at the center inside the taper sleeve 8, the driving block 505 is in sliding connection with the inside of the taper sleeve 8 through a reset spring 506, a connecting block 507 is fixedly connected to the bottom of the driving block 505, four extrusion rods 503 are rotatably connected to the side wall of the driving block 505, four extrusion rods 503 are respectively in sliding connection with the inside of the taper sleeve 8, four rotary rods 502 are rotatably connected to the side wall of the taper sleeve 8, the bottoms of the four extrusion rods 503 are respectively in sliding connection with the top sides of the four rotary rods 502, two control rods 501 are slidably connected to the inside of the graphene rod 1, the bottoms of the control rods 501 extend to the inside of the taper sleeve 8 and are in threaded connection with a connecting block 507, the top of the control rods 501 are in abutting contact with the top cover 301, a guide rod 504 is installed at the bottom of the driving block 505, the guide rod 504 penetrates through the reset spring 506 and is in sliding connection with the inside of the taper sleeve 8, the rotary rods 505 are located at the top of the taper sleeve 8 under the action of the reset spring 506, the inner side of the taper sleeve 8 is favorable for enabling the extrusion rods 502 and the extrusion rods 503 to be in sliding connection with the top of the taper sleeve 8, the number of the corresponding to be more firmly connected to the control rods 501, the control rods 501 are not in sliding connection with the top cover 301, the corresponding to the control rods 501 are in sliding connection with the top cover 301, the control rods 501 are in the outside is in the sliding connection with the top cover 1, and the sealing rod 301 is in the sealing rod is in the sealing connection with the top cover, and the top cover is firmly connected with the top cover 301, and has a sealing rod is firmly connected with the sealing rod and has a sealing rod 504, the driving block 505 slides smoothly and stably under the action of the guide rod 504, and meanwhile, the graphene rod 1 cannot fall off after being broken under the action of the control rod 501, so that the follow-up disassembly and maintenance are convenient.

Specifically, the 8 internally mounted of taper sleeve has four rubber pieces 508, the rubber piece 508 is through contradicting spring 509 and the inside sliding connection of taper sleeve 8, rubber piece 508 top extends to the taper sleeve 8 outside and contradicts with graphite alkene stick 1 make under the effect of contradicting spring 509 the rubber piece 508 has the conflict power, graphite alkene stick 1 with after 8 threaded connection of taper sleeve, the rubber piece 508 is right graphite alkene stick 1 contradicts, makes graphite alkene stick 1 with taper sleeve 8 is connected closely and is difficult for not hard up.

Specifically, the installation mechanism 6 includes the mount pad 601, mount pad 601 is installed at graphene rod 1 top, mount pad 601 passes through connecting hole 603 and graphene rod 1 top threaded connection, mount pad 601 is hexagonal structure, the mount pad 601 lateral wall is equipped with six draw-in grooves 604, draw-in groove 604 is trapezoidal structure, mount pad 601 side can install other mount pads 601 according to the demand, connect through fixture block 602 between the mount pad 601, fixture block 602 and the inside sliding connection of draw-in groove 604, through be favorable to under the effect of mount pad 601 to graphene rod 1 is connected, thereby makes graphene rod 1 is stable in ground installation, through a plurality of the concatenation of mount pad 601 is favorable to installing a plurality of graphene rod 1 additional, thereby has increased the effect of diarrhea, makes under the effect of fixture block 602 connect stably between the mount pad 601, and convenient follow-up dismantlement maintenance.

Specifically, the locking mechanism 7 includes the lug 701, six sets of two relatively set up lugs 701 that are a set of installation seat 601 internally mounted have, two relatively be close to be connected with movable spring 702 between the lug 701, the lug 701 passes through movable spring 702 and the inside sliding connection of installation seat 601, fixture block 602 both sides center department is equipped with recess 703 respectively, six wherein lug 701 one end extends to inside the connecting hole 603, and six in addition lug 701 extends to inside draw-in groove 604 and the conflict with recess 703, through after the concatenation of installation seat 601, fixture block 602 with behind the inside block of draw-in groove 604, fixture block 602 is right the lug 701 is contradicted, thereby makes lug 701 get rid of movable spring 702's effect shrink, convenience fixture block 602 block is firm, after the complete block of lug 602, inside the lug 701 is favorable to the fixture block 602 is contradicted closely, and another one the fixture block 701 is right inside the connecting hole 603 graphene rod 1 is contradicted easily, makes not hard up the graphene rod.

When the graphene rod is used, firstly, the top cover 301 and the graphene rod 1 are mounted through threads, so that subsequent maintenance is facilitated, the external wires are connected in a put mode under the action of the connecting grooves 302, the wires pass through the nuts 303, the nuts 303 are connected with the top cover 301 through threads, the nuts 303 are pressed against the wires, the wires are sealed with the nuts 303 under the action of the sealing gasket 304, corrosion of the wire connection part is prevented, the nuts 303 are tightly connected with the top cover 301 under the action of the sealing gasket 305, the tightness is better, the nuts 303 are pressed against the four pressing plates 401 through the threaded rotation of the nuts 303, the four pressing plates 401 slide under the action of the pressing springs 402, the wires in the connecting grooves 302 are pressed against the four pressing plates 401, so that the wires are firmly connected with the top cover 301, the pressing plates 401 are tightly pressed against the wires, the wires are prevented from slipping, the pressing plates 401 reset under the action of the pressing springs 402, the connection sleeve 303 is convenient to work, the graphene rod 1 is connected with the graphene rod under the action of the connecting sleeve 202, and the graphene rod length is increased;

after the connecting sleeve 202 is in threaded connection with the top of the graphene rod 1, the other graphene rod 1 is in threaded connection with the top of the connecting sleeve 202, meanwhile, the graphene rod 1 is abutted against the four driving rods 203, the driving rods 203 get rid of the action of the extrusion springs 204 and slide, the driving rods 203 are favorable for driving the buffer springs 205 and the pressing blocks 206 to slide downwards, the pressing blocks 206 are abutted against the top of the graphene rod 1, so that the graphene rod 1 cannot rotate at will, the graphene rod 1 is firmly and stably connected, the driving rods 203 and the pressing blocks 206 are tightly abutted against the graphene rod 1 and cannot loosen under the action of the buffer springs 205, the contact area is increased by the design of the trapezoid structure of the pressing blocks 206, the extrusion is tight, meanwhile, the pressing blocks 206 are firmly abutted against the graphene rod 1 and cannot rotate at will by virtue of the design of the tooth structure of the bottom of the pressing blocks 206, the operation is more convenient and labor-saving under the action of the taper sleeve 8;

the drive block 505 is positioned at the top of the taper sleeve 8 under the action of the reset spring 506, so that the rotating rod 502 and the extrusion rod 503 are contained in the inner side of the taper sleeve 8, according to the quantity of graphene rods 1 which are assembled and connected, then the control rod 501 with the corresponding fixed length is inserted into the graphene rods 1, the control rod 501 is in threaded connection with the connecting block 507, the top cover 301 is in interference extrusion with the control rod 501 through closing the top cover 301, the control rod 501 drives the connecting block 507 and the drive block 505 to extrude the extrusion rod 503, the extrusion rod 503 drives the rotating rod 502 to swing, the rotating rod 502 slides out of the taper sleeve 8, the rotating rod 502 is in interference extrusion with soil, the taper sleeve 8 is enabled to be firmer and not loose under the action of the guide rod 504, meanwhile, the drive block 505 is enabled to slide smoothly and stable under the action of the control rod 501, the graphene rods 1 are enabled not to fall off after being broken, the rubber block 508 is enabled to have interference force under the action of the interference spring 509, and the graphene rods 1 are in threaded connection with the taper sleeve 8, and the rubber block 508 is enabled to collide with the graphene rods 1, so that the graphene rods 1 are in interference with the taper sleeve 8 are not tightly connected with the taper sleeve 8;

be favorable to connecting graphene rod 1 under the effect through mount pad 601 to make graphene rod 1 stable at ground installation, splice through a plurality of mount pads 601 is favorable to installing a plurality of graphene rods 1 additional, thereby the effect of reducing the thunder has been increased, make under the effect of a plurality of fixture blocks 602 connect stably between the mount pad 601, and make things convenient for follow-up dismantlement maintenance, splice through mount pad 601 after, fixture block 602 and the inside block of draw-in groove 604 back, fixture block 602 contradicts lug 701, thereby make lug 701 break away from movable spring 702's effect shrink down, make things convenient for the fixture block 602 block firm, the fixture block 602 is after the block 602 block is complete, lug 701 is scratched inside recess 703, be favorable to contradicting closely to the fixture block 602, another lug 701 contradicts graphene rod 1 inside connecting hole 603 simultaneously, make graphene rod 1 be difficult for not hard up.

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 characteristics 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 disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The graphene lightning protection grounding device is characterized by comprising a plurality of graphene rods (1) connected end to end by a connecting mechanism (2), wherein a wiring mechanism (3) is arranged at the top of the topmost graphene rod (1), a taper sleeve (8) is arranged at the bottom of the bottommost graphene rod (1), a fastening mechanism (4) is arranged in the wiring mechanism (3), a protection mechanism (5) is arranged on the taper sleeve (8), an installation mechanism (6) is arranged outside the topmost graphene rod (1), and a locking mechanism (7) is arranged on the installation mechanism (6);

coupling mechanism (2) are including adapter sleeve (202), two be connected with adapter sleeve (202) between graphite alkene stick (1), graphite alkene stick (1) and the inside threaded connection of adapter sleeve (202), adapter sleeve (202) internally mounted has four actuating levers (203) that are annular equidistance and distribute, four actuating levers (203) are through extrusion spring (204) and the inside sliding connection of adapter sleeve (202), four actuating levers (203) top extends to adapter sleeve (202) outside and contradicts with graphite alkene stick (1) bottom, four actuating levers (203) bottom is through buffer spring (205) sliding connection has briquetting (206), briquetting (206) bottom extends to adapter sleeve (202) outside and the conflict of another graphite alkene stick (1) top.

2. The graphene lightning-protection grounding device according to claim 1, wherein: the pressing block (206) is of a trapezoid structure, clamping teeth (201) are arranged at the bottom of the pressing block (206), and the taper sleeve (8) is of a taper structure.

3. The graphene lightning-protection grounding device according to claim 2, wherein: the wiring mechanism (3) comprises a top cover (301), the top of the top cover is in threaded connection with the top cover (301) at the top of the graphene rod (1), a connecting groove (302) is formed in the center of the top cover (301), the connecting groove (302) extends to the outer side of the top cover (301), a nut (303) is in threaded connection with the top of the top cover (301), the nut (303) is of a circular ring structure, a sealing gasket (304) is connected with the top of the nut (303) in a clamping mode, a sealing ring (305) is installed at the top of the top cover (301), and the bottom of the nut (303) is in interference with the sealing ring (305).

4. A graphene lightning grounding device according to claim 3, characterized in that: the fastening mechanism (4) comprises a pressing plate (401), four pressing plates (401) which are annularly distributed are mounted in the top cover (301), four fixing blocks (403) are fixedly connected in the top cover (301), the pressing plates (401) are slidably connected with the fixing blocks (403) through pressing springs (402), the pressing plates (401) are slidably connected with the top cover (301), one ends of the pressing plates (401) extend into the connecting grooves (302), one ends of the pressing plates (401) are of tooth-shaped structures, the other ends of the pressing plates (401) are of trapezoid structures, and the other ends of the pressing plates (401) extend to the outer side of the top cover (301) and are in interference with the inner side of the screw cap (303).

5. The graphene lightning-protection grounding device according to claim 4, wherein: protection machanism (5) are including driving piece (505), driving piece (505) are installed in the inside center department of taper sleeve (8), driving piece (505) are through reset spring (506) and the inside sliding connection of taper sleeve (8), driving piece (505) top fixedly connected with connecting block (507), driving piece (505) lateral wall rotates and is connected with four extrusion poles (503), four extrusion pole (503) respectively with the inside sliding connection of taper sleeve (8), taper sleeve (8) lateral wall rotates and is connected with four bull stick (502), four extrusion pole (503) bottom respectively with four bull stick (502) upside rotation connection, two inside sliding connection of graphite alkene stick (1) has control rod (501), control rod (501) bottom extends to taper sleeve (8) inside and connecting block (507) threaded connection, control rod (501) top contradicts with top cap (301), guide arm (504) are installed to driving piece (505) bottom, guide arm (504) run through reset spring (506) and are in reset spring (8) inside sliding connection.

6. The graphene lightning-protection grounding device according to claim 5, wherein: the utility model discloses a graphene rod, including taper sleeve (8), rubber piece (508), taper sleeve (8) internally mounted has four rubber pieces (508), rubber piece (508) are through conflict spring (509) and the inside sliding connection of taper sleeve (8), rubber piece (508) top extends to taper sleeve (8) outside and contradicts with graphene rod (1).

7. The graphene lightning-protection grounding device according to claim 1, wherein: the mounting mechanism (6) comprises a mounting seat (601), the mounting seat (601) is mounted at the top of the graphene rod (1), the mounting seat (601) is in threaded connection with the top of the graphene rod (1) through a connecting hole (603), the mounting seat (601) is of a hexagonal structure, six clamping grooves (604) are formed in the side wall of the mounting seat (601), the clamping grooves (604) are of trapezoid structures, other mounting seats (601) can be mounted on the side edge of the mounting seat (601) according to requirements, the mounting seats (601) are connected through clamping blocks (602), and the clamping blocks (602) are in sliding connection with the inside of the clamping grooves (604).

8. The graphene lightning-protection grounding device according to claim 7, wherein: the locking mechanism (7) comprises a protruding block (701), six groups of protruding blocks (701) which are arranged oppositely and are arranged in a group are arranged in the mounting seat (601), a movable spring (702) is connected between the two groups of protruding blocks (701) which are relatively close to each other, the protruding blocks (701) are connected with the mounting seat (601) in a sliding mode through the movable spring (702), grooves (703) are respectively formed in the centers of two sides of the clamping block (602), one ends of the six protruding blocks (701) extend into the connecting holes (603), and the other six protruding blocks (701) extend into the clamping grooves (604) to be in interference with the grooves (703).