CN113555837A - Electric iron tower lightning protection equipment with electrode gap adjusting function and implementation method thereof - Google Patents

Abstract

The invention discloses an electric iron tower lightning protection device with adjustable electrode gap and an implementation method thereof, the device comprises a device box, a lightning protection component, a diversion protection component, a mounting base and a mounting bolt, an adjusting clamp sleeve is sleeved at the position of an adjusting central shaft and fixed by using a positioning bolt, the inclination angle between a movable electrode rod and the positioning electrode rod is adjusted at the same time, the lightning strikes the movable electrode rod and then enters the device box along the positioning electrode rod, an elastic connecting wire and the diversion base, after being buffered by a current protection module, the lightning enters the battery mounting base and charges a reserved battery board, the other part of current enters the diversion protection component from a wire insertion sleeve and finally is conducted to the ground from a grounding pin in the grounding component, the multidirectional diversion of the lightning current can be effectively realized, and the current can be converted into electric energy to be stored in the reserved battery board, for re-use.

Description

Electric iron tower lightning protection equipment with electrode gap adjusting function and implementation method thereof

Technical Field

The invention relates to the technical field of iron tower lightning protection equipment, in particular to electric iron tower lightning protection equipment with adjustable electrode gap and an implementation method thereof.

Background

The electric power iron tower is a supporting point of an overhead line, a single-loop power transmission tower is erected on the power transmission tower, a double-loop power transmission tower is erected on the power transmission tower, a lightning rod is usually installed on the electric power iron tower to carry out lightning protection operation, the lightning rod is a lightning rod and a lightning rod, the lightning rod, a lightning receiving belt, a lightning receiving line, a lightning receiving net, a metal roof for receiving lightning, a metal component and the like are commonly called as lightning receptors, and the lightning receptors, a down conductor and a grounding device jointly form an external lightning protection device of a building or a structure to avoid or reduce physical damage and personal injury caused by the fact that the lightning strikes the building (the structure) or the vicinity of the building (the structure).

Patent No. CN202021296591.9 discloses a power tower lightning arrester, it passes through fixture centre gripping power tower limit, thereby will the utility model discloses monolithic stationary is on the power tower, monolithic stationary convenient operation, it is direct to pass the jack seat with the lightning rod, be fixed in the regulating box bottom with lightning rod lower part locking mechanism again, when changing the lightning rod, it can to open locking mechanism and take out old lightning rod and change new lightning rod again, it is all very simple and convenient to see the installation of lightning rod and change, twist out the base with the dwang after, the adjustment regulating box makes the lightning rod be located the vertical state, and insert the connecting hole with insulating connector, with this normal use who guarantees the lightning rod, twist the dwang at last and make its and base formation threaded connection, the angle of lightning rod is fixed promptly.

The above patents have the following problems:

1. the guide electrode in the lightning rod can not move, so that the lightning current can not be effectively led in the lightning strike weather and is conducted downwards;

2. the lightning current is typically diverted to ground by a diversion line and cannot be efficiently recovered, stored and reused.

Disclosure of Invention

The invention aims to provide an electric iron tower lightning protection device with adjustable electrode gap and an implementation method thereof.A regulating clamp sleeve is sleeved on a regulating central shaft and fixed by a positioning bolt, and simultaneously the inclination angle between a movable electrode rod and the positioning electrode rod is regulated.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides an electric power iron tower lightning equipment of electrode gap regulation, includes equipment box, lightning-arrest subassembly, water conservancy diversion protection subassembly, installation base and construction bolt, the lightning-arrest subassembly of top installation of equipment box, the side-mounting water conservancy diversion protection subassembly of equipment box and lightning-arrest subassembly, the bottom of equipment box is equipped with the installation base, be equipped with construction bolt on the installation base.

Preferably, the equipment box includes case shell, battery installation base, reserve panel, radiator unit, connecting wire group, current protection module, wire base, through hole, louvre and adjusts the mounting hole, the inside bottom of case shell is equipped with battery installation base, the internally mounted reserve panel of battery installation base, the upper end both sides of battery installation base are equipped with radiator unit respectively, the upside center department of battery installation base is equipped with connecting wire group, install current protection module on the connecting wire group, the top of connecting wire group is equipped with the wire base, be equipped with through hole on the case shell of wire base upside, the left and right sides of case shell is equipped with the louvre respectively, the upper right side of case shell is equipped with the regulation mounting hole.

Preferably, the heat dissipation assembly comprises a heat dissipation sleeve, an internal connecting rod, a motor clamping sleeve, a heat dissipation motor, a driving shaft and heat dissipation fan blades, wherein the internal connecting rod is arranged inside the heat dissipation sleeve, the motor clamping sleeve is arranged at the center of the internal connecting rod, the heat dissipation motor is installed in the motor clamping sleeve, the driving shaft is arranged at the front end of the heat dissipation motor, and the heat dissipation fan blades are installed on the driving shaft.

Preferably, the lightning protection component comprises a buckle base, a buckle screw, an adjusting vertical plate, an adjusting central shaft, a buffer spring, a buffer plate, an adjusting clamping sleeve, a positioning bolt, a positioning electrode rod, a movable shaft, a movable electrode rod, a plug bush base, a wire plug bush, an elastic connecting wire and a flow guide base, wherein the buckle screw is respectively arranged at two ends of the buckle base, the adjusting vertical plate is respectively arranged at two ends of the upper side of the buckle base, the adjusting central shaft is arranged between the adjusting vertical plates, the buffer spring is respectively arranged at the outer sides of two ends of the adjusting central shaft, the buffer plate is arranged at the tail end of the buffer spring, the adjusting clamping sleeve is arranged on the adjusting central shaft, the positioning bolt is arranged on the adjusting clamping sleeve, the positioning electrode rod is arranged at the upper side of the adjusting clamping sleeve, the movable shaft is arranged at the top of the positioning electrode rod, the movable electrode rod is arranged on the movable shaft, the plug bush base is arranged at the center of the outer side of the adjusting vertical plate, the improved plug bush is characterized in that a wire plug bush is arranged on the plug bush base, an elastic connecting wire is arranged at the bottom of the adjusting clamp sleeve, and the tail end of the elastic connecting wire is installed in a flow guide base at the center of the buckle base.

Preferably, water conservancy diversion protection subassembly includes running roller base, slip running roller, roating seat, rotatory screw rod, supporting spring, backup pad, water conservancy diversion protection wire, screwed joint and ground connection subassembly, the internally mounted slip running roller of running roller base, the bottom of running roller base is equipped with the roating seat, be equipped with rotatory screw rod in the roating seat, the bottom outside of rotatory screw rod is equipped with supporting spring, supporting spring's upside is equipped with the backup pad, the outside of slip running roller is equipped with water conservancy diversion protection wire, the upside end of water conservancy diversion protection wire is equipped with screwed joint, the bottom end of water conservancy diversion protection wire is equipped with ground connection subassembly.

Preferably, the grounding assembly comprises a grounding base, a fixing bolt, a protective sleeve, a grounding pin and a limiting plate, the fixing bolt is respectively installed at two ends of the grounding base, the protective sleeve is arranged on the lower side of the grounding base, the grounding pin is installed in the grounding base, and the limiting plate is arranged at the top of the grounding pin.

The invention provides another technical scheme: an implementation method of an electric iron tower lightning protection device with adjustable electrode gap comprises the following steps:

the method comprises the following steps: the adjusting clamp is sleeved at the position of the adjusting central shaft and fixed by a positioning bolt, and meanwhile, the inclination angle between the movable electrode rod and the positioning electrode rod is adjusted;

step two: the lightning strikes the movable electrode rod, then enters the equipment box along the positioning electrode rod, the elastic connecting wire and the flow guide base, is buffered by the current protection module, then enters the battery installation base, and charges the reserved battery panel;

step three: the other part of the current enters the diversion protection assembly from the wire plug bush, and goes down along the diversion protection wire, and is finally conducted to the ground from the grounding pin in the grounding assembly.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides an electric iron tower lightning protection device with adjustable electrode gap and an implementation method thereof.A regulating clamp sleeve is sleeved at the position of a regulating central shaft and is fixed by a positioning bolt, meanwhile, the inclination angle between a movable electrode rod and the positioning electrode rod is regulated, thunder hits the movable electrode rod and then enters an equipment box along the positioning electrode rod, an elastic connecting wire and a flow guide base, after being buffered by a current protection module, the thunder enters a battery installation base and charges a reserved battery panel, and the other part of current enters a flow guide protection assembly from a wire plug bush and downwards along a flow guide protection wire and is finally conducted to the ground from a grounding needle in a grounding assembly.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the equipment cabinet of the present invention;

FIG. 3 is a schematic cross-sectional view of a heat dissipation assembly of the present invention;

fig. 4 is a schematic structural view of a lightning protection assembly according to the invention;

FIG. 5 is a schematic structural diagram of the diversion protection assembly of the present invention;

fig. 6 is a schematic cross-sectional view of the grounding assembly of the present invention.

In the figure: 1. an equipment box; 101. a tank housing; 102. a battery mounting base; 103. storing the cell panel; 104. a heat dissipating component; 1041. a heat-dissipating sleeve; 1042. an inner connecting rod; 1043. a motor card sleeve; 1044. a heat dissipation motor; 1045. a drive shaft; 1046. a heat dissipation fan blade; 105. connecting the lead group; 106. a current protection module; 107. a wire base; 108. a through opening; 109. heat dissipation holes; 1010. adjusting the mounting hole; 2. a lightning protection assembly; 21. a buckle base; 22. a snap screw; 23. adjusting the vertical plate; 24. adjusting the central shaft; 25. a buffer spring; 26. a buffer plate; 27. adjusting the clamping sleeve; 28. positioning the bolt; 29. positioning the electrode rod; 210. a movable shaft; 211. a movable electrode rod; 212. a sleeve base; 213. a lead plug bush; 214. an elastic connecting line; 215. a flow guide base; 3. a diversion protection component; 31. a roller base; 32. a slide roller; 33. a rotating base; 34. rotating the screw; 35. a support spring; 36. a support plate; 37. a diversion protection wire; 38. a threaded joint; 39. a ground component; 391. a ground base; 392. fixing the bolt; 393. protecting the sleeve; 394. a ground pin; 395. a limiting plate; 4. installing a base; 5. and (6) installing a bolt.

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, an electric power iron tower lightning protection device with adjustable electrode gap includes an equipment box 1, a lightning protection component 2, a diversion protection component 3, an installation base 4 and an installation bolt 5, wherein the lightning protection component 2 is installed at the top of the equipment box 1, the diversion protection component 3 is installed on the side surfaces of the equipment box 1 and the lightning protection component 2, the installation base 4 is arranged at the bottom of the equipment box 1, and the installation bolt 5 is arranged on the installation base 4.

Referring to fig. 2, the equipment box 1 includes a box housing 101, a battery installation base 102, a reserve battery board 103, a heat dissipation assembly 104, a connection wire set 105, a current protection module 106, a wire base 107, a through hole 108, a heat dissipation hole 109 and an adjustment installation hole 1010, the battery installation base 102 is disposed at the bottom end inside the box housing 101, the reserve battery board 103 is disposed inside the battery installation base 102, the heat dissipation assembly 104 is disposed on each of two sides of the upper end of the battery installation base 102, the connection wire set 105 is disposed at the center of the upper side of the battery installation base 102, the current protection module 106 is mounted on the connection wire set 105, the wire base 107 is disposed at the top of the connection wire set 105, the through hole 108 is disposed on the box housing 101 on the upper side of the wire base 107, the heat dissipation holes 109 are disposed on each of the left and right sides of the box housing 101, and the adjustment installation hole 1010 is disposed on the upper right side of the box housing 101.

Referring to fig. 3, the heat dissipation assembly 104 includes a heat dissipation sleeve 1041, an inner rod 1042, a motor ferrule 1043, a heat dissipation motor 1044, a driving shaft 1045 and heat dissipation blades 1046, the inner rod 1042 is disposed inside the heat dissipation sleeve 1041, the motor ferrule 1043 is disposed at the center of the inner rod 1042, the heat dissipation motor 1044 is mounted in the motor ferrule 1043, the driving shaft 1045 is disposed at the front end of the heat dissipation motor 1044, and the heat dissipation blades 1046 are mounted on the driving shaft 1045.

Referring to fig. 4, the lightning protection assembly 2 includes a fastening base 21, fastening screws 22, an adjusting upright plate 23, an adjusting central shaft 24, buffer springs 25, buffer plates 26, an adjusting ferrule 27, positioning bolts 28, positioning electrode rods 29, a movable shaft 210, a movable electrode rod 211, a ferrule base 212, a wire ferrule 213, an elastic connecting wire 214 and a diversion base 215, the fastening screws 22 are respectively disposed at two ends of the fastening base 21, the adjusting upright plate 23 is respectively disposed at two ends of the upper side of the fastening base 21, the adjusting central shaft 24 is disposed between the adjusting upright plates 23, the buffer springs 25 are respectively disposed at the outer sides of two ends of the adjusting central shaft 24, the buffer plates 26 are disposed at the ends of the buffer springs 25, the adjusting ferrule 27 is mounted on the adjusting central shaft 24, the positioning bolts 28 are disposed on the adjusting ferrule 27, the positioning electrode rods 29 are disposed on the upper side of the adjusting ferrule 27, the movable shaft 210 is mounted at the tops of the positioning electrode rods 29, the movable shaft 210 is provided with a movable electrode rod 211, the center of the outer side of the right adjusting vertical plate 23 is provided with a plug bush base 212, the plug bush base 212 is provided with a wire plug bush 213, the bottom of the adjusting clamp sleeve 27 is provided with an elastic connecting wire 214, and the tail end of the elastic connecting wire 214 is arranged in a flow guide base 215 at the center of the buckle base 21.

Referring to fig. 5, the diversion protection assembly 3 includes a roller base 31, a sliding roller 32, a rotary seat 33, a rotary screw 34, a supporting spring 35, a supporting plate 36, a diversion protection wire 37, a threaded joint 38 and a grounding assembly 39, the sliding roller 32 is installed inside the roller base 31, the rotary seat 33 is arranged at the bottom of the roller base 31, the rotary screw 34 is arranged in the rotary seat 33, the supporting spring 35 is arranged outside the bottom end of the rotary screw 34, the supporting plate 36 is arranged on the upper side of the supporting spring 35, the diversion protection wire 37 is arranged outside the sliding roller 32, the threaded joint 38 is arranged at the end of the upper side of the diversion protection wire 37, and the grounding assembly 39 is arranged at the end of the bottom of the diversion protection wire 37.

Referring to fig. 6, the grounding assembly 39 includes a grounding base 391, fixing bolts 392, a protecting sleeve 393, a grounding pin 394 and a limiting plate 395, the fixing bolts 392 are respectively installed at two ends of the grounding base 391, the protecting sleeve 393 is installed at the lower side of the grounding base 391, the grounding pin 394 is installed in the grounding base 391, and the limiting plate 395 is installed at the top of the grounding pin 394.

In order to better show the implementation process of the electric power iron tower lightning protection device with the electrode gap adjustment function, the embodiment provides an implementation method of the electric power iron tower lightning protection device with the electrode gap adjustment function, which includes the following steps:

the method comprises the following steps: the position of the adjusting cutting sleeve 27 on the adjusting central shaft 24 is adjusted and fixed by a positioning bolt 28, and the inclination angle between the movable electrode rod 211 and the positioning electrode rod 29 is adjusted;

step two: after the lightning strikes on the movable electrode rod 211, the lightning enters the equipment box 1 along the positioning electrode rod 29, the elastic connecting line 214 and the flow guide base 215, after being buffered by the current protection module 106, the lightning enters the battery installation base 102, and the storage battery plate 103 is charged;

step three: another portion of the current enters the current guiding protection assembly 3 from the wire insert 213 and flows down the current guiding protection wire 37 and finally is conducted to ground through the grounding pin 394 in the grounding assembly 39.

The working principle of the invention is as follows: the invention relates to an electric iron tower lightning protection device with adjustable electrode gap and an implementation method thereof.A regulating cutting sleeve 27 is regulated at the position of a regulating central shaft 24 and is fixed by a positioning bolt 28, meanwhile, the inclination angle between a movable electrode rod 211 and a positioning electrode rod 29 is regulated, thunder hits the movable electrode rod 211 and then enters an equipment box 1 along the positioning electrode rod 29, an elastic connecting wire 214 and a diversion base 215, after buffering by a current protection module 106, the thunder enters a battery installation base 102 and charges a reserve battery plate 103, and the other part of current enters a diversion protection assembly 3 from a lead inserting sleeve 213 and downwards along a diversion protection lead 37 and is finally conducted to the ground by a grounding pin 394 in a grounding assembly 39.

In summary, the following steps: the invention relates to an electric iron tower lightning protection device with adjustable electrode gap and an implementation method thereof, wherein an adjusting clamping sleeve 27 is adjusted at the position of an adjusting central shaft 24 and is fixed by a positioning bolt 28, meanwhile, the inclination angle between a movable electrode rod 211 and the positioning electrode rod 29 is adjusted, thunder hits the movable electrode rod 211 and then enters an equipment box 1 along the positioning electrode rod 29, an elastic connecting wire 214 and a diversion base 215, after buffering by a current protection module 106, the thunder enters a battery installation base 102 and charges a reserved battery board 103, the other part of current enters a diversion protection assembly 3 from a wire insertion sleeve 213 and downwards along a diversion protection wire 37 and finally is conducted to the ground by a grounding pin 394 in a grounding assembly 39, the structure of the device is complete and reasonable, the multidirectional diversion of the thunder current can be effectively realized, and simultaneously, the current can be converted into electric energy to be stored in the reserved battery board 103, for re-use.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (7)

1. The utility model provides an electric power iron tower lightning equipment of electrode gap regulation, includes equipment box (1), lightning-arrest subassembly (2), water conservancy diversion protection component (3), installation base (4) and construction bolt (5), its characterized in that: the lightning-protection assembly (2) is installed at the top of the equipment box (1), the side face of the equipment box (1) and the side face of the lightning-protection assembly (2) are provided with the diversion protection assembly (3), the bottom of the equipment box (1) is provided with an installation base (4), and the installation base (4) is provided with an installation bolt (5).

2. An electric power tower lightning protection device with adjustable electrode gap according to claim 1, characterized in that: the equipment box (1) comprises a box shell (101), a battery installation base (102), a reserve battery board (103), a heat dissipation assembly (104), a connecting wire group (105), a current protection module (106), a wire base (107), a through hole (108), a heat dissipation hole (109) and an adjusting installation hole (1010), wherein the battery installation base (102) is arranged at the bottom end inside the box shell (101), the reserve battery board (103) is installed inside the battery installation base (102), the heat dissipation assembly (104) is respectively arranged on two sides of the upper end of the battery installation base (102), the connecting wire group (105) is arranged at the center of the upper side of the battery installation base (102), the current protection module (106) is installed on the connecting wire group (105), the wire base (107) is arranged at the top of the connecting wire group (105), the through hole (108) is arranged on the box shell (101) on the upper side of the wire base (107), the left side and the right side of the box shell (101) are respectively provided with a heat dissipation hole (109), and the upper right side of the box shell (101) is provided with an adjusting installation hole (1010).

3. An electric power tower lightning protection device with adjustable electrode gap according to claim 2, characterized in that: the heat dissipation assembly (104) comprises a heat dissipation sleeve (1041), an inner connecting rod (1042), a motor clamping sleeve (1043), a heat dissipation motor (1044), a driving shaft (1045) and heat dissipation fan blades (1046), the inner connecting rod (1042) is arranged inside the heat dissipation sleeve (1041), the motor clamping sleeve (1043) is arranged at the center of the inner connecting rod (1042), the heat dissipation motor (1044) is installed in the motor clamping sleeve (1043), the driving shaft (1045) is arranged at the front end of the heat dissipation motor (1044), and the heat dissipation fan blades (1046) are installed on the driving shaft (1045).

4. An electric power tower lightning protection device with adjustable electrode gap according to claim 3, characterized in that: the lightning protection component (2) comprises a buckle base (21), buckle screws (22), an adjusting vertical plate (23), an adjusting central shaft (24), a buffer spring (25), a buffer plate (26), an adjusting clamping sleeve (27), a positioning bolt (28), a positioning electrode rod (29), a movable shaft (210), a movable electrode rod (211), a plug bush base (212), a wire plug bush (213), an elastic connecting wire (214) and a flow guide base (215), wherein the buckle screws (22) are respectively arranged at two ends of the buckle base (21), the adjusting vertical plate (23) is respectively arranged at two ends of the upper side of the buckle base (21), the adjusting central shaft (24) is arranged between the adjusting vertical plates (23), the buffer springs (25) are respectively arranged at the outer sides of two ends of the adjusting central shaft (24), the buffer plate (26) is arranged at the tail ends of the buffer springs (25), and the adjusting central shaft (27) is arranged on the adjusting clamping sleeve (24), adjust to be equipped with positioning bolt (28) on cutting ferrule (27), the upside of adjusting cutting ferrule (27) is equipped with positioning electrode pole (29), top installation loose axle (210) of positioning electrode pole (29), install movable electrode pole (211), right side on loose axle (210) adjust the outside center department of riser (23) and be equipped with plug bush base (212), be equipped with wire plug bush (213) on plug bush base (212), the bottom of adjusting cutting ferrule (27) is equipped with elastic connecting wire (214), the end of elastic connecting wire (214) is installed in water conservancy diversion base (215) of buckle base (21) center department.

5. An electric power tower lightning protection device with adjustable electrode gap according to claim 4, characterized in that: the flow guide protection component (3) comprises a roller base (31), a sliding roller (32), a rotating seat (33), a rotating screw (34), a supporting spring (35), a supporting plate (36), a flow guide protection lead (37), a threaded joint (38) and a grounding component (39), a sliding roller (32) is arranged in the roller base (31), a rotating seat (33) is arranged at the bottom of the roller base (31), a rotary screw rod (34) is arranged in the rotary seat (33), a supporting spring (35) is arranged on the outer side of the bottom end of the rotary screw rod (34), a supporting plate (36) is arranged on the upper side of the supporting spring (35), a guide protection wire (37) is arranged on the outer side of the sliding roller (32), the tail end of the upper side of the diversion protection lead (37) is provided with a threaded joint (38), and the tail end of the bottom of the diversion protection lead (37) is provided with a grounding component (39).

6. An electric power tower lightning protection device with adjustable electrode gap according to claim 5, characterized in that: the grounding assembly (39) comprises a grounding base (391), fixing bolts (392), protective sleeves (393), a grounding needle (394) and a limiting plate (395), wherein the fixing bolts (392) are respectively installed at two ends of the grounding base (391), the protective sleeves (393) are arranged on the lower side of the grounding base (391), the grounding needle (394) is installed in the grounding base (391), and the limiting plate (395) is arranged at the top of the grounding needle (394).

7. An implementation method of the electric power tower lightning protection equipment with the electrode gap adjusted according to claim 6 is characterized by comprising the following steps:

s1: the position of the adjusting clamping sleeve (27) on the adjusting central shaft (24) is adjusted, the adjusting clamping sleeve is fixed by a positioning bolt (28), and meanwhile, the inclination angle between the movable electrode rod (211) and the positioning electrode rod (29) is adjusted;

s2: after the lightning strikes on the movable electrode rod (211), the lightning enters the equipment box (1) along the positioning electrode rod (29), the elastic connecting wire (214) and the flow guide base (215), and after being buffered by the current protection module (106), the lightning enters the battery installation base (102) and charges the reserve battery panel (103);

s3: another part of the current enters the diversion protection assembly (3) from the wire insert (213), goes down the diversion protection wire (37) and is finally conducted to the ground from the grounding pin (394) in the grounding assembly (39).

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