CN215579104U - Flexible graphite lightning grounding body grounding device - Google Patents

Abstract

The utility model discloses a flexible graphite lightning protection grounding body grounding device, which comprises an equipment cover body, wherein a sealing cover plate is connected right above the equipment cover body in a nested manner, a ventilating panel is fixedly welded on one side of the equipment cover body, a glass panel is fixedly bonded on the outer side of the ventilating panel, and a cable rubber sleeve is connected on the outer side of the equipment cover body in a penetrating manner; the method comprises the following steps: the supporting rod is welded and fixed at the bottom of the equipment cover body, an annular supporting plate is connected to the outer side of the supporting rod in an embedded mode, an expansion spring is welded and fixed under the annular supporting plate, and a positioning ring seat is arranged under the expansion spring; and a grounding panel welded and fixed inside the equipment cover body. The flexible graphite lightning protection grounding body grounding device is characterized in that a flexible graphite lightning protection grounding body is arranged on the flexible graphite lightning protection grounding body; adopt annular layer board and rectangle spout, utilize annular layer board to increase the outside dynamics of lifting of bracing piece, avoid the dynamics of the support of bracing piece too big, lead to the outside of bracing piece to cause the deformation condition, ensure the equipment cover body at the stability of lifting and positioning process.

Description

Flexible graphite lightning grounding body grounding device

Technical Field

The utility model relates to the technical field of grounding and lightning protection, in particular to a flexible graphite lightning protection grounding body grounding device.

Background

In the field of electric lightning grounding, steel and copper metal materials and coating alloy materials such as galvanized steel and copper-coated steel are generally adopted as grounding materials of electric grounding nets. Since metallic materials are subject to corrosion problems that are difficult to avoid during operation for decades or even decades. The graphite cable grounding material is a novel grounding material which has been developed in recent years, and effectively solves the corrosion problem of the metal grounding material;

present earthing device is fairly simple, in the installation, mainly install the position at the corner of building, mainly fix the position of ground connection through the bolt, in the in-service use process, the device is difficult to adjust the degree of depth to ground connection according to the height of floor, can lead to easily scattering the security that influences the use in peripheral soil around among the thunderbolt process, and the bottom of power connection device lacks the locking and lifts the structure, single support column structure can lead to its emergence corruption condition, lead to in the in-process of power connection device using, the external hard thing touching can influence the stability of power connection device's support, and then influence the security that equipment maintained and used in the later stage.

In order to solve the above problems, innovative design based on the original grounding structure of the grounding body is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a flexible graphite lightning grounding body grounding device, which solves the problems that the grounding depth of the device in the background art is difficult to adjust according to the height of a floor, and the bottom of the grounding device is lack of a locking and lifting structure, so that a single support column structure can cause corrosion.

In order to achieve the purpose, the utility model provides the following technical scheme: a sealing cover plate is connected to the right upper portion of an equipment cover body in a nested mode, a ventilating panel is fixedly welded to one side of the equipment cover body, a glass panel is fixedly bonded to the outer side of the ventilating panel in an adhering mode, and a cable rubber sleeve penetrates through the outer side of the equipment cover body; the method comprises the following steps: the supporting rod is welded and fixed at the bottom of the equipment cover body, an annular supporting plate is connected to the outer side of the supporting rod in an embedded mode, an expansion spring is welded and fixed under the annular supporting plate, and a positioning ring seat is arranged under the expansion spring; the grounding panel is welded and fixed inside the equipment cover body, the outer side of the grounding panel is connected with a conductive sleeve rod in a penetrating mode, the outer side of the conductive sleeve rod is connected with a conductive seat in a nested mode, a contact block is welded on the outer side of the conductive seat, the outer side of the conductive sleeve rod is connected with a conductive cable, a positioning ring seat is provided with a circular groove under the positioning ring seat, the inner nested connection of the circular groove is provided with a positioning panel, and the outer side of the positioning panel is provided with a threaded hole in a penetrating mode.

Preferably, the equipment cover body and ventilative panel welding formula structure as an organic whole, and one side of the equipment cover body adopts rectangle open type structure to ventilative panel both sides are the mesh column structure, utilize ventilative panel to carry out heat transfer treatment to the inside of equipment, avoid humid gas corrosion equipment.

Preferably, the annular layer board passes through expanding spring and constitutes extending structure with the bracing piece, and the annular layer board is the rectangle and distributes in the outside of the equipment cover body, utilizes the annular layer board to increase the support dynamics of equipment bottom, avoids equipment to take place the skew condition of rocking.

Preferably, the ground plane comprises a control force rod and a ground cone on the outer side; the outer side of the control force rod is wound and connected with a grounding lead, and an instrument supporting plate is fixedly welded right below the control force rod; and the grounding cone is fixed on the outer side of the rectangular sliding chute in an embedded mode, the rectangular sliding chute is arranged right below the grounding panel, and a conducting strip is fixedly welded right below the grounding panel.

Preferably, instrument layer board and ground connection awl constitute elevation structure through controlling power pole and electrically conductive loop bar, and the equidistant distribution of ground connection awl is in instrument layer board bottom to the ground connection awl runs through the setting in equipment cover body bottom, adjusts the height of ground connection awl according to the height of floor, is convenient for conduct the inside in ground with the electric current.

Preferably, electrically conductive loop bar passes through the contact piece laminating with electrically conductive seat, and the material of contact piece is the brass material to electrically conductive loop bar is connected for the winding with electrically conductive cable, utilizes the contact piece to receive electric current and conducts through electrically conductive loop bar, promotes the homogeneity of electric current conduction.

Preferably, the locating panel is connected with the locating ring seat through a circular groove and a threaded hole, the locating ring seat is in threaded connection with the supporting rod, the locating ring seat is made of polyethylene, the locating panel and the locating ring seat are used for clamping and fixing the bottom of the equipment, and the situation that the equipment cover body shakes is avoided.

Compared with the prior art, the utility model has the beneficial effects that: the flexible graphite lightning protection grounding body grounding device is characterized in that a flexible graphite lightning protection grounding body is arranged on the flexible graphite lightning protection grounding body;

1. the annular supporting plate and the rectangular sliding groove are adopted, the supporting force of the outer side of the supporting rod is increased by the annular supporting plate, the phenomenon that the outer side of the supporting rod is deformed due to overlarge supporting force is avoided, the stability of an equipment cover body in the supporting and positioning processes is ensured, the stability of current in the conveying process is avoided, the distance of the grounding cone is adjusted by the rectangular sliding groove, the distance of the grounding cone introduced is adjusted according to the depth of soil and the panel of a building, and the stability of the power connection device for power connection of different high-rise buildings is improved;

2. adopt electrically conductive loop bar and conducting strip, utilize the electrically conductive loop bar to carry out the direction processing to the instrument layer board on the one hand, avoid the instrument layer board to take place the skew or not hard up the condition in going up and down and inserting the in-process, utilize the contact piece in the electrically conductive seat outside to conduct the electric current of receiving on the one hand, and utilize the electrically conductive loop bar to shunt the electric current and carry, ensure the electric current and carry the security of ground connection, utilize the conducting strip of combination formula to carry out electrically conductive processing to the bottom of instrument layer board, avoid the electric current too intensive bad equipment of damage.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the enclosure of the apparatus of the present invention;

FIG. 3 is a schematic bottom view of the instrument tray of the present invention;

FIG. 4 is a schematic bottom view of the retainer ring of the present invention;

fig. 5 is a schematic top view of the apparatus housing of the present invention.

In the figure: 1. an equipment enclosure; 2. sealing the cover plate; 3. a breathable panel; 4. a glass panel; 5. a cable rubber sleeve; 6. a support bar; 7. an annular pallet; 8. a tension spring; 9. a ground plane; 91. a power control lever; 92. a ground lead; 93. an instrument pallet; 94. a grounding cone; 95. a conductive sheet; 96. a rectangular chute; 10. a conductive loop bar; 11. a conductive seat; 12. a conductive cable; 13. a contact block; 14. a positioning ring seat; 15. a circular groove; 16. a positioning panel; 17. a threaded bore.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a flexible graphite lightning grounding body grounding device comprises an equipment cover body 1, wherein a sealing cover plate 2 is connected above the equipment cover body in a nested manner, a ventilating panel 3 is fixedly welded on one side of the equipment cover body 1, a glass panel 4 is fixedly bonded on the outer side of the ventilating panel 3, and a cable rubber sleeve 5 is connected on the outer side of the equipment cover body 1 in a penetrating manner; the method comprises the following steps:

the supporting rod 6 is fixedly welded at the bottom of the equipment cover body 1, an annular supporting plate 7 is connected to the outer side of the supporting rod 6 in a nested mode, an expansion spring 8 is fixedly welded right below the annular supporting plate 7, and a positioning ring seat 14 is arranged right below the expansion spring 8;

the grounding panel 9 is welded and fixed inside the equipment cover body 1, the outer side of the grounding panel 9 is connected with a conductive sleeve rod 10 in a penetrating mode, the outer side of the conductive sleeve rod 10 is connected with a conductive seat 11 in a nested mode, the outer side of the conductive seat 11 is welded with a contact block 13, and the outer side of the conductive sleeve rod 10 is connected with a conductive cable 12.

The positioning ring seat 14 is provided with a circular groove 15 right below, the inside of the circular groove 15 is connected with a positioning panel 16 in an embedded mode, and the outer side of the positioning panel 16 is provided with a threaded hole 17 in a penetrating mode.

The equipment cover body 1 and the breathable panel 3 are welded into an integral structure, one side of the equipment cover body 1 is of a rectangular open structure, and two sides of the breathable panel 3 are of mesh structures.

The annular supporting plate 7 and the supporting rod 6 form a telescopic structure through a telescopic spring 8, and the annular supporting plate 7 is distributed on the outer side of the equipment cover body 1 in a rectangular shape.

The outer side of the grounding panel 9 comprises a control force rod 91 and a grounding cone 94;

the outer side of the control force rod 91 is wound and connected with a grounding lead 92, and an instrument supporting plate 93 is fixedly welded right below the control force rod 91;

and a grounding cone 94 which is fixed outside the rectangular chute 96 in a nested manner, wherein the rectangular chute 96 is opened right below the grounding panel 9, and a conductive sheet 95 is fixedly welded right below the grounding panel 9.

The instrument supporting plate 93 and the grounding cone 94 form a lifting structure through the control force rod 91 and the conductive sleeve rod 10, the grounding cones 94 are distributed at the bottom of the instrument supporting plate 93 at equal intervals, and the grounding cone 94 penetrates through the bottom of the equipment enclosure 1.

The conductive sleeve rod 10 is attached to the conductive base 11 through the contact block 13, the contact block 13 is made of brass, and the conductive sleeve rod 10 is connected with the conductive cable 12 in a winding manner.

The positioning panel 16 is connected with the positioning ring seat 14 through the circular groove 15 and the threaded hole 17, the positioning ring seat 14 is in threaded connection with the support rod 6, and the positioning ring seat 14 is made of polyethylene.

The working principle is as follows: when the flexible graphite lightning-protection grounding body grounding device is used, as shown in fig. 1 to 5, the device is firstly placed at a position where work is needed, an operator firstly clamps the fixing structure by the positioning panel 16 and the positioning ring seat 14, inserts a bolt into the threaded hole 17, locks the positioning panel 16 and the positioning ring seat 14, buries the outer side of the annular supporting plate 7 by soil, increases the stability of fixing the bottom plate of the supporting rod 6, inserts the conductive cable 12 into the cable rubber sleeve 5, winds the conductive cables 12 on the outer side of the conductive sleeve rod 10 respectively, and sets holes on two sides of the breathable panel 3, and opens the sealing cover plate 2 and fixes the corresponding conductive seat 11 and the grounding cone 94 inside the equipment cover body 1;

and pulling the grounding cone 94 according to the connection requirement, so that the grounding cone 94 slides on the outer side of the rectangular sliding groove 96, adjusting the distance between the two groups of grounding cones 94, pushing the control force rod 91, wherein the control force rod 91 drives the instrument supporting plate 93 and the conductive seat 11 to vertically descend, the contact block 13 on the outer side of the conductive seat 11 is attached to the conductive sleeve rod 10, the conductive sheet 95 and the grounding cone 94 are inserted into the soil, and the bolt is inserted into the connection position of the instrument supporting plate 93 and the equipment cover body 1, when lightning strikes are struck on the lightning rod, lightning strikes are led into the conductive seat 11 through the conductive cable 12, the conductive seat 11 conducts current to the grounding wire 92 in the instrument supporting plate 93, and the grounding wire 92 is led into the soil through the grounding cone 94 and the conductive sheet 95 at the bottom.

The overall practicability is increased.

Those not described in detail in this specification are within the skill of the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A flexible graphite lightning grounding body grounding device comprises an equipment cover body (1), wherein a sealing cover plate (2) is connected above the equipment cover body in a nested mode, a breathable panel (3) is fixedly welded on one side of the equipment cover body (1), a glass panel (4) is fixedly bonded on the outer side of the breathable panel (3), and a cable rubber sleeve (5) penetrates through the outer side of the equipment cover body (1); the method is characterized in that: the method comprises the following steps:

the support rod (6) is welded and fixed at the bottom of the equipment cover body (1), an annular supporting plate (7) is connected to the outer side of the support rod (6) in an embedded mode, a telescopic spring (8) is welded and fixed under the annular supporting plate (7), and a positioning ring seat (14) is arranged under the telescopic spring (8);

the grounding panel (9) is welded and fixed inside the equipment cover body (1), the outer side of the grounding panel (9) is connected with a conductive sleeve rod (10) in a penetrating mode, the outer side of the conductive sleeve rod (10) is connected with a conductive seat (11) in a nested mode, a contact block (13) is welded on the outer side of the conductive seat (11), and the outer side of the conductive sleeve rod (10) is connected with a conductive cable (12);

the positioning ring seat (14) is provided with a circular groove (15) right below the positioning ring seat, the inside of the circular groove (15) is connected with a positioning panel (16) in a nested mode, and the outer side of the positioning panel (16) penetrates through a threaded hole (17).

2. The grounding device of the flexible graphite lightning grounding body of claim 1, wherein: the equipment cover body (1) and the breathable panel (3) are welded into an integral structure, one side of the equipment cover body (1) is of a rectangular open structure, and two sides of the breathable panel (3) are of mesh structures.

3. The grounding device of the flexible graphite lightning grounding body of claim 1, wherein: the annular supporting plate (7) and the supporting rod (6) form a telescopic structure through a telescopic spring (8), and the annular supporting plate (7) is distributed on the outer side of the equipment cover body (1) in a rectangular shape.

4. The grounding device of the flexible graphite lightning grounding body of claim 1, wherein: the outer side of the grounding panel (9) comprises a control force rod (91) and a grounding cone (94);

the outer side of the control force rod (91) is wound and connected with a grounding lead (92), and an instrument supporting plate (93) is fixedly welded right below the control force rod (91);

and the grounding cone (94) is fixedly embedded outside the rectangular sliding groove (96), the rectangular sliding groove (96) is arranged right below the grounding panel (9), and a conducting sheet (95) is fixedly welded right below the grounding panel (9).

5. The grounding device of the flexible graphite lightning grounding body of claim 4, wherein: the instrument supporting plate (93) and the grounding cone (94) form a lifting structure through the control force rod (91) and the conductive sleeve rod (10), the grounding cones (94) are distributed at the bottom of the instrument supporting plate (93) at equal intervals, and the grounding cone (94) penetrates through the bottom of the equipment cover body (1).

6. The grounding device of the flexible graphite lightning grounding body of claim 1, wherein: the conductive sleeve rod (10) is attached to the conductive seat (11) through the contact block (13), the contact block (13) is made of brass, and the conductive sleeve rod (10) is connected with the conductive cable (12) in a winding mode.

7. The grounding device of the flexible graphite lightning grounding body of claim 1, wherein: the positioning panel (16) is connected with the positioning ring seat (14) through a circular groove (15) and a threaded hole (17), the positioning ring seat (14) is in threaded connection with the supporting rod (6), and the positioning ring seat (14) is made of polyethylene.

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