CN219513360U - Dampproofing corrosion-resistant graphite-based flexible grounding structure - Google Patents

Abstract

The utility model discloses a dampproof and corrosion-resistant graphite-based flexible grounding structure, which relates to the technical field of grounding structures and comprises a grounding pile and a positioning component, wherein a pin wire is arranged on the outer side of the grounding pile, the top of the grounding pile is connected with a graphite rope, the lower part of the outer part of the graphite rope is sleeved with the dampproof component, the dampproof component comprises an air bag ring, an air charging connector, an air nozzle cap and a guide disc, the right side of the air bag ring is connected with the air charging connector, the outer part of the air bag ring is sleeved with the guide disc, one end of the air charging connector, which is far away from the air bag ring, penetrates through the guide disc and is connected with the air nozzle cap, and the positioning component is arranged on the outer part of the graphite rope. This dampproofing corrosion-resistant graphite base flexible ground structure makes through the fastener and installs on the outer wall of building with the integrative fixed mounting bracket of shell, can realize that graphite rope is perpendicular to place to reduce the adverse effect that the angle deviation produced the device water conservancy diversion effect, graphite rope adopts non-magnetic permeability material to make, can not produce the circumstances of corroding soil around polluting.

Description

Dampproofing corrosion-resistant graphite-based flexible grounding structure

Technical Field

The utility model relates to the technical field of grounding structures, in particular to a dampproof and corrosion-resistant graphite-based flexible grounding structure.

Background

The grounding device is a generic term of a grounding body and a grounding wire, and the grounding body is used for guiding lightning or overload current into the ground, the grounding body is a conductor or a conductor group which is in direct contact with soil, the grounding body is divided into an artificial grounding body and a natural grounding body, the grounding body is used as a conductor which is in close contact with the soil of the ground and provides electrical connection with the ground, and safe dissipation of lightning energy or overload energy enables the lightning energy or the overload energy to leak into the ground. The graphite-based flexible grounding device is one of grounding devices, and graphite has good conductivity and high cost performance, so that the graphite-based flexible grounding device becomes the first choice of a nonmetallic material grounding device.

The existing grounding device has the problem that the grounding exposed part is easy to damp and has grounding faults.

Accordingly, in view of the above, research and improvement have been made to the conventional structure and the defects, and a moisture-proof and corrosion-resistant graphite-based flexible grounding structure has been proposed.

Disclosure of Invention

The utility model aims to provide a dampproof corrosion-resistant graphite-based flexible grounding structure so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a dampproofing corrosion-resistant graphite-based flexible ground structure, includes ground connection stake and locating component, the outside of ground connection stake is provided with the pin line, and the top of ground connection stake is connected with the graphite rope, the outside below cover of graphite rope is equipped with dampproofing subassembly, and dampproofing subassembly includes gasbag ring, charging connector, air cock cap and water conservancy diversion dish, the right side of gasbag ring is connected with the charging connector, and the outside cover of gasbag ring is equipped with the water conservancy diversion dish, the one end that the gasbag ring was kept away from to the charging connector runs through the water conservancy diversion dish and is connected with the air cock cap, locating component sets up in the outside of graphite rope.

Further, six pin lines are distributed on the outer side of the grounding pile at equal intervals, and the graphite ropes and the balloon rings are coaxially arranged.

Further, the outer surface of the charging connector is provided with threads, and the charging connector is in threaded connection with the air tap cap.

Furthermore, the guide plate is hollow, and the guide plate and the grounding pile are of an integrated structure.

Further, the locating component comprises a clamping arm, a rack and a gear, the rear end of the clamping arm is connected with the rack, and the gear is connected with the outer side of the rack.

Further, the locating component still includes actuating lever, installation piece and T type pole, and the top of gear is connected with the actuating lever through the pivot, the other end of actuating lever is connected with the installation piece through the pivot, and the rear end of installation piece is connected with T type pole.

Further, the locating component still includes reset spring, shell and slide, and the outside cover of T type pole is equipped with reset spring, the bottom middle part of gear is connected with the shell through the pivot, and is connected with the slide between the inside both sides of shell.

Further, the locating component still includes mounting bracket and fastener, and the rear end of shell is fixed with the mounting bracket, the rear end of mounting bracket has connect the fastener soon, and the mounting bracket side is L form.

The utility model provides a dampproof corrosion-resistant graphite-based flexible grounding structure, which has the following beneficial effects: this dampproofing corrosion-resistant graphite base flexible ground structure makes through the fastener and installs on the outer wall of building with the integrative fixed mounting bracket of shell, can realize that graphite rope is perpendicular placing to reduce the adverse effect that the angle deviation produced the device water conservancy diversion effect.

1. The graphite rope is made of non-magnetic material, so that the condition of corroding and polluting surrounding soil can not be generated; the air bag ring is inflated through the inflation nozzle, gaps between the graphite ropes and the guide plates are filled when the air bag ring is inflated to a certain extent, so that the grounding exposed part has good waterproof and dampproof effects, and potential safety hazards caused by damage to the grounding exposed part due to soaking of water liquid are eliminated.

2. According to the utility model, the T-shaped rod is pushed, the gear rotationally connected with the driving rod is promoted to rotate in situ by the mounting block, so that the space between the two clamping arms is increased by means of meshing movement of the gear and the rack, the graphite rope is fixed between the two clamping arms under the rebound action of the reset spring, the graphite rope is prevented from swinging left and right relative to the wall, and the loosening probability of the junction is increased.

Drawings

FIG. 1 is a schematic view of the overall structure of a moisture and corrosion resistant graphite-based flexible grounding structure of the present utility model;

FIG. 2 is a schematic top view of a cross-sectional structure of a positioning assembly of a moisture and corrosion resistant graphite-based flexible grounding structure of the present utility model;

FIG. 3 is a schematic perspective view of an air bag ring of the moisture-proof corrosion-resistant graphite-based flexible grounding structure of the present utility model.

In the figure: 1. a grounding pile; 2. a pin wire; 3. a graphite rope; 4. a moisture resistant assembly; 401. an air bag ring; 402. an air charging nozzle; 403. an air tap cap; 404. a deflector disc; 5. a positioning assembly; 501. a clamping arm; 502. a rack; 503. a gear; 504. a driving rod; 505. a mounting block; 506. a T-shaped rod; 507. a return spring; 508. a housing; 509. a slideway; 510. a mounting frame; 511. a fastener.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1 and 3, the dampproof and corrosion-resistant graphite-based flexible grounding structure comprises a grounding pile 1 and a positioning assembly 5, wherein a pin line 2 is arranged on the outer side of the grounding pile 1, the top of the grounding pile 1 is connected with a graphite rope 3, and the graphite rope 3 is made of a non-magnetic permeability material and cannot corrode and pollute surrounding soil; the outside lower part of the graphite rope 3 is sleeved with a dampproof component 4, the dampproof component 4 comprises an air bag ring 401, an air charging nozzle 402, an air nozzle cap 403 and a guide disc 404, the right side of the air bag ring 401 is connected with the air charging nozzle 402, the outside of the air bag ring 401 is sleeved with the guide disc 404, one end of the air charging nozzle 402, which is far away from the air bag ring 401, is connected with the air nozzle cap 403 through the guide disc 404, the positioning component 5 is arranged outside the graphite rope 3, six pin wires 2 are distributed at equal intervals on the outer side of the grounding pile 1 in an annular mode, the graphite rope 3 and the air bag ring 401 are coaxially arranged, the outer surface of the air charging nozzle 402 is provided with threads, the air charging nozzle 402 is in threaded connection with the air nozzle cap 403, the guide disc 404 is hollow, the guide disc 404 and the grounding pile 1 are of an integrated structure, and gaps between the graphite rope 3 and the guide disc 404 are filled when the air bag ring 401 is inflated to a certain extent, so that the grounding exposed position has good waterproof and dampproof effects, and potential safety hazards caused by damage to the grounding exposed position due to water soaking are eliminated;

as shown in fig. 2, the positioning assembly 5 comprises a clamping arm 501, a rack 502 and a gear 503, wherein the rear end of the clamping arm 501 is connected with the rack 502, the outer side of the rack 502 is connected with the gear 503, the positioning assembly 5 further comprises a driving rod 504, a mounting block 505 and a T-shaped rod 506, the top of the gear 503 is connected with the driving rod 504 through a rotating shaft, the other end of the driving rod 504 is connected with the mounting block 505 through the rotating shaft, the rear end of the mounting block 505 is connected with the T-shaped rod 506, the positioning assembly 5 further comprises a return spring 507, a shell 508 and a slide 509, the return spring 507 is sleeved outside the T-shaped rod 506, the middle of the bottom end of the gear 503 is connected with the shell 508 through the rotating shaft, the slide 509 is connected between two sides of the interior of the shell 508, the gear 503 is promoted to rotate in place by pushing the T-shaped rod 506 through the mounting block 505, the gear 503 and the rack 502 are meshed to increase the space between the two clamping arms 501, the graphite rope 3 is fixed between the two clamping arms 501 under the rebound action of the return spring 507, the loosening probability of the connection of the graphite rope 3 is avoided; the positioning assembly 5 further comprises a mounting frame 510 and a fastener 511, the mounting frame 510 is fixed to the rear end of the shell 508, the fastener 511 is screwed to the rear end of the mounting frame 510, and the side face of the mounting frame 510 is L-shaped.

In summary, when the dampproof and corrosion-resistant graphite-based flexible grounding structure is used, two ends of a graphite rope 3 are respectively connected with a lightning rod and a grounding pile 1 at the top of a building, then a mounting frame 510 is fixed on the outer wall of the building by using a fastener 511 according to actual conditions, then a T-shaped rod 506 is pushed, a driving rod 504 promotes a gear 503 to rotate in situ under the action of a mounting block 505, thus the space between two clamping arms 501 is increased by meshing movement of the gear 503 and a rack 502, the graphite rope 3 is fixed between the two clamping arms 501 under the rebound action of a reset spring 507, the graphite rope 3 is prevented from shaking left and right relative to the wall under the condition of vertical placement of the graphite rope 3, the potential safety hazard that the line junction breaks off the graphite rope 3 and one end of the graphite rope is hung to the ground to enable the road person to get an electric shock occurs, the air tap cap 403 and the air tap 402 which are detachably and fixedly connected are separated by means of threads, the air tap 402 is used for inflating the air tap ring 401, gaps between the graphite rope 3 and the air tap 404 are filled when the air tap ring 401 is inflated to a certain degree, the exposed grounding position has good waterproof and dampproof effects, the ground fault caused by the damp of the exposed grounding position is avoided, the ground pile 1 is buried in the soil finally, the vertical burying of the grounding device is completed, the current diversion area is increased by the arrangement of the lead wire 2, the practical performance of the grounding device is improved, and the slide 509 is used for limiting the rack 502 to be in the horizontal travelling direction.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides a dampproofing corrosion-resistant graphite-based flexible ground structure, includes ground connection stake (1) and locating component (5), its characterized in that, the outside of ground connection stake (1) is provided with guide pin line (2), and the top of ground connection stake (1) is connected with graphite rope (3), the outside below cover of graphite rope (3) is equipped with dampproofing subassembly (4), and dampproofing subassembly (4) are including gasbag ring (401), charging connector (402), air cock cap (403) and water conservancy diversion dish (404), the right side of gasbag ring (401) is connected with charging connector (402), and the outside cover of gasbag ring (401) is equipped with water conservancy diversion dish (404), the one end that gasbag ring (401) were kept away from to charging connector (402) is run through water conservancy diversion dish (404) and is connected with air cock cap (403), locating component (5) set up in the outside of graphite rope (3).

2. The dampproof and corrosion-resistant graphite-based flexible grounding structure according to claim 1, wherein six pin wires (2) are distributed at equal intervals on the outer side of the grounding pile (1), and the graphite ropes (3) and the balloon rings (401) are coaxially arranged.

3. A moisture-proof corrosion-resistant graphite-based flexible grounding structure as in claim 1, wherein said outer surface of said air nozzle (402) is provided with threads and said air nozzle (402) and said air nozzle cap (403) are threadably connected.

4. The dampproof and corrosion-resistant graphite-based flexible grounding structure according to claim 1, wherein the guide plate (404) is hollow, and the guide plate (404) and the grounding pile (1) are of an integrated structure.

5. The graphite-based flexible grounding structure with moisture resistance and corrosion resistance according to claim 1, wherein the positioning assembly (5) comprises a clamping arm (501), a rack (502) and a gear (503), the rear end of the clamping arm (501) is connected with the rack (502), and the gear (503) is connected to the outer side of the rack (502).

6. The graphite-based flexible grounding structure with moisture and corrosion resistance according to claim 5, wherein the positioning assembly (5) further comprises a driving rod (504), a mounting block (505) and a T-shaped rod (506), the top of the gear (503) is connected with the driving rod (504) through a rotating shaft, the other end of the driving rod (504) is connected with the mounting block (505) through the rotating shaft, and the rear end of the mounting block (505) is connected with the T-shaped rod (506).

7. The dampproof and corrosion-resistant graphite-based flexible grounding structure according to claim 6, wherein the positioning assembly (5) further comprises a return spring (507), a shell (508) and a slide way (509), the return spring (507) is sleeved outside the T-shaped rod (506), the middle of the bottom end of the gear (503) is connected with the shell (508) through a rotating shaft, and the slide way (509) is connected between two sides of the interior of the shell (508).

8. The dampproof and corrosion-resistant graphite-based flexible grounding structure according to claim 7, wherein the positioning assembly (5) further comprises a mounting frame (510) and a fastening piece (511), the mounting frame (510) is fixed at the rear end of the shell (508), the fastening piece (511) is screwed at the rear end of the mounting frame (510), and the side face of the mounting frame (510) is in an L shape.