CN211126107U - Resistance reducing module - Google Patents

Abstract

The utility model discloses a fall and hinder module, including graphite ground connection module main part, outer round hole, device shell, first stable ring and anticorrosive metal electrode, the outside of graphite ground connection module main part all evenly is provided with the device shell, and the both sides of device shell are equidistant outer round hole that is provided with all. The utility model discloses an intermediate position at the fixed block is provided with the interlock tooth, fixed block internal connection has the rotatory screw rod that bores, the intermediate position of fixed block bottom is provided with down the nut ring, and the rotatory screw rod that bores runs through the inside of fixed block and the inboard of nut ring down is connected, it can utilize interlock tooth and the rotatory screw rod of boring to mutually support to tighten up first stable ring and second stable ring to have realized the device at the in-process that uses, can prevent that graphite grounding module main part is out of shape because the graphite grounding module main part that the reason of weather leads to when using, the problem of smashing etc. is warp at graphite grounding module main part both ends has been solved, the adaptability of device to weather has been strengthened.

Description

Resistance reducing module

Technical Field

The utility model relates to a fall and hinder module technical field, specifically be for falling and hinder the module.

Background

The low-resistance graphite grounding module is a grounding body mainly made of conductive non-metallic materials, and consists of non-metallic materials with good conductivity and stability, electrolytes, moisture absorbents and anti-corrosion metal electrodes, and a common ground net is mainly made of metal conductors such as angle steel, round steel, steel pipes, copper bars, copper nets and the like, and has the defects of more materials, high cost, complex construction, short service life and poor stability, and the expected effect is difficult to achieve when the module is used in a high-soil resistivity area.

1. According to the existing resistance reducing module, when the graphite grounding module main body is used, the graphite grounding module main body is deformed due to climate, and two ends of the graphite grounding module main body can be deformed or crushed, so that the adaptability of the device to the climate is reduced;

2. in the existing resistance reducing module, the device is composed of graphite with a single structure, so that the device can influence the use once being broken, and the stability of the graphite is reduced;

3. the existing resistance reducing module has the advantages that the stability of the anti-corrosion metal electrode is weak, the corrosion resistance of the anti-corrosion metal electrode is reduced, the anti-corrosion metal electrode is buried underground to influence the use, and the service life of the device is shortened.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fall and hinder the module to the graphite ground connection module main part that the reason that proposes in solving above-mentioned background art in graphite ground connection module main part when using leads to warp, the both ends of graphite ground connection module main part can warp or smash and smash, have reduced the adaptability of device to the weather, and the device utilizes the graphite of single structure to constitute, makes the device in case break will influence the use, reduces the stability scheduling problem of graphite.

In order to achieve the above object, the utility model provides a following technical scheme: resistance reducing module, including graphite grounding module main part, outer round hole, device shell, first stabilizing ring and anticorrosive metal electrode, the outside of graphite grounding module main part all evenly is provided with the device shell, and the both sides of device shell all are equidistant to be provided with outer round hole, first stabilizing ring is all installed at the both ends outside graphite grounding module main part, and rotatory drilling screw rod is all installed to the top and the bottom outside first stabilizing ring, the intermediate position at the outside both ends of graphite grounding module main part all installs nanometer ceramic metal circle, and the intermediate position of nanometer ceramic metal circle inside installs anticorrosive metal electrode, the bottom of first stabilizing ring is provided with the second stabilizing ring, and the top and the bottom of first stabilizing ring and second stabilizing ring both sides all install the fixed block, the intermediate position inside graphite grounding module main part is provided with the graphite core, and all evenly be provided with on the inside wall of graphite core and stabilize the graphite post, and the outside of stabilizing the graphite post all is connected with the inside wall of graphite ground connection module main part, the inside inboard of anticorrosive metal electrode lateral wall is provided with the lead-tin alloy layer, and the outside on lead-tin alloy layer all evenly is provided with aluminium system conducting layer, and the outside on aluminium system conducting layer is provided with the metal conducting layer, and the outside on metal conducting layer all evenly is provided with the anticorrosive outer layer of nanometer pottery.

Preferably, the outer circular holes on two sides of the graphite grounding module main body are respectively provided with six, the graphite grounding module main body is wrapped on the outer side of the outer circular hole, and the inner side of the outer circular hole is connected with the device shell.

Preferably, the anti-corrosion metal electrode penetrates through the inner side of the nano ceramic metal ring and is connected with two sides of the graphite grounding module main body, and the inner diameter of the anti-corrosion metal electrode is smaller than that of the graphite grounding module main body.

Preferably, the intermediate position of fixed block is provided with the interlock tooth, and fixed block internal connection has the rotatory screw rod that drills, and the intermediate position of fixed block bottom is provided with down the nut ring, and the rotatory screw rod that drills runs through the inside of fixed block and is connected with the inboard of nut ring down.

Preferably, the lead-tin metal powder is uniformly arranged in the lead-tin alloy layer, and the gallium alloy wires matched with the lead-tin metal powder are uniformly arranged in the lead-tin alloy layer.

Preferably, the aluminum conducting layer is internally and longitudinally provided with an electric aluminum wire, and the electric aluminum wire is annularly arranged inside the aluminum conducting layer.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) according to the resistance reducing module, the meshing teeth are arranged at the middle position of the fixing block, the rotary drill screw rod is connected inside the fixing block, the lower nut ring is arranged at the middle position of the bottom end of the fixing block, and the rotary drill screw rod penetrates through the inside of the fixing block and is connected with the inner side of the lower nut ring, so that the first stabilizing ring and the second stabilizing ring can be tightened by means of mutual matching of the meshing teeth and the rotary drill screw rod in the using process of the device, the graphite grounding module body can be prevented from deforming due to weather when the graphite grounding module body is used, the problems that two ends of the graphite grounding module body deform and crush and the like are solved, and the adaptability of the device to the weather is enhanced;

(2) according to the resistance reducing module, the graphite core is arranged in the middle of the interior of the graphite grounding module main body, the stable graphite columns are uniformly arranged on the inner side walls of the graphite core, the outer sides of the stable graphite columns are connected with the inner side walls of the graphite grounding module main body, so that the device is not formed by simply utilizing graphite with a single structure, and the stability of the graphite can be enhanced through the arrangement of different graphite grounding module main bodies and graphite core forms, so that the graphite grounding module main body can play a role of the graphite more strongly;

(3) this fall and hinder module, through all evenly being provided with plumbous tin metal powder inside the plumbous tin alloy layer, and plumbous tin alloy layer inside all evenly is provided with the gallium alloy silk of mutually supporting with plumbous tin metal powder, aluminium system conducting layer inside all vertically is provided with electric aluminium silk, and electric aluminium silk is the ring form setting in the inside of aluminium system conducting layer, the lead tin alloy layer mutually supports the stability that can strengthen anticorrosive metal electrode with aluminium system conducting layer at the in-process that uses, the corrosion resistance of anticorrosive metal electrode is strengthened, make anticorrosive metal electrode bury and also can not influence the use underground, the practicality of device has been strengthened, the service life of device has been prolonged.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a partially enlarged structural schematic view of the first and second stabilizing rings of the present invention;

fig. 3 is a schematic side view, sectional structure diagram of the graphite grounding module of the present invention;

fig. 4 is a schematic side view of the anti-corrosion metal electrode of the present invention.

In the figure: 1. a graphite ground module body; 2. an outer circular hole; 3. a device housing; 4. a first stabilizing ring; 401. rotating the drill screw; 5. an anti-corrosion metal electrode; 501. a nano ceramic metal ring; 6. a fixed block; 601. engaging teeth; 602. a second stabilizing ring; 603. a lower nut; 7. a graphite core; 701. stabilizing the graphite column; 8. a lead-tin alloy layer; 801. a gallium alloy wire; 802. lead-tin metal powder; 9. an aluminum conductive layer; 901. an electric aluminum wire; 10. a metal conductive layer; 11. a corrosion resistant outer layer of nano-ceramic.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: the resistance reducing module comprises a graphite grounding module main body 1, outer circular holes 2, a device shell 3, a first stabilizing ring 4 and an anticorrosive metal electrode 5, wherein the device shell 3 is uniformly arranged on the outer side of the graphite grounding module main body 1, the outer circular holes 2 are arranged on the two sides of the device shell 3 at equal intervals, six outer circular holes 2 are respectively arranged on the two sides of the graphite grounding module main body 1, the graphite grounding module main body 1 is wrapped on the outer side of the outer circular holes 2, the inner sides of the outer circular holes 2 are connected with the device shell 3, and when the local temperature is too high, the air permeability of the graphite grounding module main body 1 is increased by the outer circular holes 2, so that the device shell 3 is connected with the graphite grounding module main body 1, and the service life;

the first stabilizing rings 4 are arranged at two ends of the outer side of the graphite grounding module main body 1, the rotary drill screws 401 are arranged at the top end and the bottom end of the outer side of the first stabilizing ring 4, the nano ceramic metal rings 501 are arranged at the middle positions of the two ends of the outer side of the graphite grounding module main body 1, the anti-corrosion metal electrodes 5 are arranged at the middle positions of the inner parts of the nano ceramic metal rings 501, the anti-corrosion metal electrodes 5 penetrate through the inner sides of the nano ceramic metal rings 501 to be connected with two sides of the graphite grounding module main body 1, the inner diameter of each anti-corrosion metal electrode 5 is smaller than that of the graphite grounding module main body 1, the stability of the anti-corrosion metal electrodes 5 can be enhanced by the nano ceramic metal rings 501, the anti-corrosion metal electrodes 5 are prevented from being separated from two;

the bottom end of the first stabilizing ring 4 is provided with a second stabilizing ring 602, the top ends and the bottom ends of the two sides of the first stabilizing ring 4 and the second stabilizing ring 602 are both provided with a fixing block 6, the middle position of the fixing block 6 is provided with engaging teeth 601, the inside of the fixing block 6 is connected with a rotary drill screw 401, the middle position of the bottom end of the fixing block 6 is provided with a lower nut ring 603, and the rotary drill screw 401 penetrates through the inside of the fixing block 6 to be connected with the inner side of the lower nut ring 603;

the graphite grounding module comprises a graphite grounding module body 1, wherein a graphite core 7 is arranged in the middle of the inside of the graphite grounding module body 1, stable graphite columns 701 are uniformly arranged on the inner side walls of the graphite core 7, the outer sides of the stable graphite columns 701 are connected with the inner side walls of the graphite grounding module body 1, the device is not simply made of graphite with a single structure, and the stability of the graphite can be enhanced through the arrangement of different graphite grounding module bodies 1 and graphite cores 7, so that the graphite grounding module body 1 can play a role of the graphite more strongly;

the lead-tin alloy layer 8 is arranged on the inner side of the side wall of the anti-corrosion metal electrode 5, the aluminum conducting layers 9 are uniformly arranged on the outer sides of the lead-tin alloy layers 8, the metal conducting layers 10 are arranged on the outer sides of the aluminum conducting layers 9, the nano ceramic anti-corrosion outer layers 11 are uniformly arranged on the outer sides of the metal conducting layers 10, the lead-tin metal powder 802 is uniformly arranged on the inner sides of the lead-tin alloy layers 8, the gallium alloy wires 801 matched with the lead-tin metal powder 802 are uniformly arranged on the inner sides of the lead-tin alloy layers 8, the aluminum wires 901 are longitudinally arranged on the inner sides of the aluminum conducting layers 9, the aluminum wires 901 are annularly arranged inside the aluminum conducting layers 9, the lead-tin alloy layers 8 and the aluminum conducting layers 9 are matched with each other in the using process to enhance the stability of the anti-corrosion metal electrode 5 and enhance the corrosion resistance, the practicability of the device is enhanced, and the service life of the device is prolonged.

The working principle is as follows: when in use, firstly, the diameter of the first stabilizing ring 4 is adjusted according to the diameter of the graphite grounding module body 1, the rotary drill screw 401 is rotated to ensure that the meshing teeth 601 at the bottom end of the fixed block 6 and the meshing teeth 601 at the top end of the fixed block 6 are meshed with each other, the inner side walls of the first stabilizing ring 4 and the second stabilizing ring 602 are tightly attached to the outer side wall of the device shell 3 in the meshing process, the deformation of the graphite grounding module body 1 caused by climate reasons when the graphite grounding module body 1 is used can be prevented, the problems of deformation and crushing of two ends of the graphite grounding module body 1 and the like are solved, the adaptability of the device to the climate is enhanced, then the graphite grounding module body 1 is vertically buried at 0.8m-1.0m underground, when the underground temperature is too high in the vertical burying process of the graphite grounding module body 1, the air permeability of the graphite grounding module body 1 is increased by the excircle hole 2, make device shell 3 and graphite ground connection module main part 1 connect, increase the life of graphite, graphite ground connection module main part 1 wraps up the lateral wall at graphite core 7 simultaneously, graphite ground connection module main part 1 and the setting of graphite core 7 form through the difference, can strengthen the stability of graphite, make graphite ground connection module main part 1 can the stronger effect of performance graphite, in-process lead-tin alloy layer 8 and aluminium system conducting layer 9 mutually support can strengthen anticorrosive metal electrode 5's stability, strengthen anticorrosive metal electrode 5's corrosion resistance, make anticorrosive metal electrode 5 bury and also can not influence the use underground, the practicality of device has been strengthened, the service life of device has been prolonged.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. 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.

Claims (6)

1. Fall and hinder the module, including graphite ground connection module main part (1), excircle hole (2), device shell (3), first stabilizer ring (4) and anticorrosive metal electrode (5), its characterized in that: the outer sides of the graphite grounding module main body (1) are uniformly provided with device shells (3), the two sides of the device shells (3) are provided with outer round holes (2) at equal intervals, first stabilizing rings (4) are installed at the two ends of the outer side of the graphite grounding module main body (1), rotary drilling screw rods (401) are installed at the top end and the bottom end of the outer side of each first stabilizing ring (4), nano ceramic metal rings (501) are installed at the middle positions of the two ends of the outer side of the graphite grounding module main body (1), anti-corrosion metal electrodes (5) are installed at the middle positions inside the nano ceramic metal rings (501), second stabilizing rings (602) are arranged at the bottom end of each first stabilizing ring (4), fixing blocks (6) are installed at the top ends and the bottom ends of the two sides of the first stabilizing rings (4) and the second stabilizing rings (602), and graphite cores (7) are arranged at the middle positions inside the graphite grounding module main body (1), and all evenly be provided with on the inside wall of graphite core (7) and stabilize graphite post (701), and the outside of stabilizing graphite post (701) all is connected with the inside wall of graphite ground connection module main part (1), the inside inboard of anticorrosive metal electrode (5) lateral wall is provided with lead-tin alloy layer (8), and the outside of lead-tin alloy layer (8) all evenly is provided with aluminium system conducting layer (9), and the outside of aluminium system conducting layer (9) is provided with metal conducting layer (10), and the outside of metal conducting layer (10) all evenly is provided with the anticorrosive outer layer of nanometer pottery (11).

2. The resistance reduction module of claim 1, wherein: the outer round holes (2) on the two sides of the graphite grounding module main body (1) are respectively provided with six, the graphite grounding module main body (1) is wrapped on the outer side of the outer round holes (2), and the inner sides of the outer round holes (2) are connected with the device shell (3).

3. The resistance reduction module of claim 1, wherein: the anti-corrosion metal electrode (5) penetrates through the inner side of the nano ceramic metal ring (501) to be connected with the two sides of the graphite grounding module main body (1), and the inner diameter of the anti-corrosion metal electrode (5) is smaller than that of the graphite grounding module main body (1).

4. The resistance reduction module of claim 1, wherein: the middle position of fixed block (6) is provided with interlock tooth (601), and fixed block (6) internal connection has rotatory screw rod (401) of boring, and the middle position of fixed block (6) bottom is provided with down nut ring (603), and the inside that rotatory screw rod (401) run through fixed block (6) is connected with the inboard of lower nut ring (603).

5. The resistance reduction module of claim 1, wherein: lead-tin metal powder (802) is uniformly arranged in the lead-tin alloy layer (8), and gallium alloy wires (801) matched with the lead-tin metal powder (802) are uniformly arranged in the lead-tin alloy layer (8).

6. The resistance reduction module of claim 1, wherein: the aluminum conducting layer (9) is internally and longitudinally provided with an electric aluminum wire (901), and the electric aluminum wire (901) is arranged in the aluminum conducting layer (9) in a circular ring shape.

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