CN109914777B - Electric power construction equipment based on safety protection effect of friction aeration and atmospheric pressure buffering - Google Patents

Abstract

The invention discloses electric power construction equipment based on the safety protection function of friction aeration and air pressure buffering, which structurally comprises a bearing connecting rod, a vertical plate, a protective bottom plate device and a foot rest, wherein an electromagnet is in an ejection state after being started, the friction device is extruded upwards and stabilized, a movable lug is impacted and slides inwards together with a friction rod, instantaneous heat is generated through collision, a gas generator can generate micro explosion when receiving the instantaneous heat to generate a large amount of nitrogen to fill a gas bag, the stress area of personnel and the gas bag is increased, the impact force can be effectively reduced, inner bones such as knees and the like are protected, a movable wind blocking block is upwards bent under the action of the upward force matched with the elastic rod, the opening of a wind pressure port is increased, the forming time of an elastic bag is shortened, the elastic bag is similar to a parachute structure after being upwards bulged and is positioned at the central position of a floor, so that the protective bottom plate device can play a certain speed reduction buffering function in the, meanwhile, the protection bottom plate device is enabled to form a stable falling state as much as possible, and the inclination is avoided.

Description

Electric power construction equipment based on safety protection effect of friction aeration and atmospheric pressure buffering

Technical Field

The invention relates to electric power construction equipment based on safety protection effects of friction aeration and air pressure buffering, and belongs to the field of electric power construction equipment.

Background

Because present standard of living is higher and higher, along with the development in city, some power maintenance inspection all need high altitude construction now, need utilize high altitude hanging flower basket for accept staff and stabilize work in the high altitude, but because need the bearing, when mechanical equipment breaks down, the accident that falls appears easily, because do not have protection device, causes the damage of personnel different degree easily.

However, the existing electric power construction equipment has the following disadvantages:

1. electric power construction equipment is in the aspect of high altitude plant, only simple use guardrail structure, make personnel have all fulcrums when high altitude construction (generally be the height about the quadruple building), convenient stable self, but comparatively weak in the aspect of the protection of falling, only simple use the rubber pad of thickening on the bottom plate, be used for alleviating the impact force, but in the twinkling of an eye of vibration production, the power of unloading of rubber is very few, sit backward or kneel before in the twinkling of an eye of easy personnel's shank atress, the bone is impaired in the striking rubber slab causes.

2. The inclination appears easily in the process of weighing down, makes personnel be partial to one section, causes personnel to overturn the hanging flower basket easily, perhaps makes hanging flower basket jack-up one end directly touch the ground, makes personnel bump to side lower extreme, arouses the striking between the personnel, increases the injured probability.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide electric power construction equipment based on the safety protection effect of friction aeration and air pressure buffering, and aims to solve the problems that the electric power construction equipment is simple in terms of high-altitude equipment, only a guardrail structure is used, so that personnel can have supporting points during high-altitude operation (generally about four-storey height), the electric power construction equipment is convenient to stabilize the electric power construction equipment, but is weak in terms of falling protection, only a thickened rubber pad is used on a bottom plate for relieving impact force, but the rubber has very little unloading force at the moment of vibration generation, so that the legs of the personnel can be easily sit backwards or kneel forwards at the moment of stress, the inner bones are damaged by impacting a rubber plate, the falling process is easy to incline, the personnel are inclined to one section and are easily turned out of a hanging basket, or one lifting end of the hanging basket is directly landed, the personnel impact to the side lower end to cause impact among the personnel, increasing the injury probability.

In order to achieve the purpose, the invention is realized by the following technical scheme: the electric power construction equipment based on the safety protection effect of friction aeration and air pressure buffering structurally comprises a bearing connecting rod, a vertical plate, a protective bottom plate device and a foot rest, wherein the bottom of the bearing connecting rod is welded with the side end of the top of the vertical plate, the bottom of the vertical plate is fixedly connected with the top of the protective bottom plate device, the bottom of the protective bottom plate device is welded with the top of the foot rest, the top of the foot rest is vertically connected with the bottom of the protective bottom plate device, the top of the protective bottom plate device is vertically connected with the bottom of the vertical plate, a pulley is arranged at the top of the bearing connecting rod, the vertical plate and the protective bottom plate device are combined into a construction hanging basket structure, power construction high-;

protection bottom plate device comprises wind pressure starting drive, wind pressure mouth, gravity inductor, friction jet system, gasbag, elastic bag, wind pressure starting drive bottom link up with wind pressure mouth top mutually, wind pressure starting drive top is clearance fit with elastic bag bottom, the inside electricity that is connected for friction jet system of gravity inductor, friction jet system top and gasbag bottom are sealing connection, the gasbag middle-end laminates with the elastic bag outer wall mutually, wind pressure starting drive is fixed in the base middle-end, and the gravity inductor is connected with the electro-magnet through the connecting wire, and when taking place the condition of tenesmus, can trigger switch make the electro-magnet be the state of opening, and elastic bag and wind pressure starting drive are same vertical face together with the wind pressure mouth, instantaneous wind pressure can appear in the time of the tenesmus, and extrude wind pressure starting drive through the wind pressure mouth.

Best, wind pressure starting drive comprises activity fender wind piece, elastic rod, solid fixed ring, logical groove, telescopic band, activity fender wind piece outer wall middle-end and the welding of elastic rod side end, the elastic rod outer wall welds with the solid fixed ring end, activity fender wind piece top is binded with the telescopic band bottom, flexible band top side is binded with the solid fixed ring inner wall top end, it is located solid fixed ring centre to lead to the groove, activity fender wind piece is the cyclic annular piece that quantity is ten, and when wind pressure starting drive received by down up wind pressure impact, activity fender wind piece received ascending force fit elastic rod and upwards buckles, and the telescopic band returns simultaneously and contracts, makes the separation between two liang of activity blocks of keeping out the wind, and then has increased the opening of wind pressure mouth, has increased instantaneous ventilation volume.

The friction gas injection device comprises a gas generator, a stable friction device, a spring and an electromagnet, wherein the bottom of the gas generator is connected with the top of the stable friction device, the bottom of the stable friction device is fixedly connected with the top of the electromagnet, the middle end of the outer wall of the stable friction device is connected with the top of the spring in an embedded mode, the electromagnet is in an ejection state after being started, the stable friction device is extruded upwards, a nitrogen gas generating agent is arranged inside the gas generator, a large amount of nitrogen gas generated by micro explosion can be generated when instantaneous heat is received, and the gas bag can be filled after the nitrogen gas is generated.

Preferably, the stable friction device comprises a groove heat conduction device and a mandril, the bottom of the groove heat conduction device is matched with the top of the mandril, the inner wall of the bottom of the groove heat conduction device is in clearance fit with the top of the mandril, and the top of the mandril is provided with a conical lug which is matched with a conical groove in the groove heat conduction device.

Preferably, the groove heat conduction device is composed of a conical groove, a movable lug, a friction rod, a heat generator and a heat conduction pipe, wherein the inner wall of the conical groove is attached to the outer wall of the movable lug, the right end of the movable lug is welded to the left end of the friction rod, the right end of the friction rod is attached to the inner part of the heat generator, the inner wall of the heat generator is connected with the left side of the heat conduction pipe through a clamping groove, a triangular pointed block is arranged on the outer wall of the friction rod, a triangular pointed block is arranged inside the heat generator and is opposite to the friction rod, instantaneous heat is generated through collision, and the.

Preferably, the top of the heat conduction pipe is connected with the bottom of the gas generator, heat is collected through the heat conduction pipe and then is guided to the gas generator, and chemical change is generated in the gas generator.

Advantageous effects

When the hanging basket is used, the vertical plate and the protective bottom plate device are combined into a construction hanging basket structure for power construction overhead operation, the lifting is realized by the vertical pulling of the bearing connecting rod, the foot rest plays a supporting role when being placed, and also plays a certain buffering role when falling down, when the falling down occurs, the gravity sensor trigger switch enables the electromagnet to be in an open state, the elastic bag and the wind pressure starting device and the wind pressure opening are in the same vertical surface, the instant wind pressure can be generated when falling down, and the wind pressure starting device is extruded through the wind pressure opening, when the wind pressure starting device is impacted by the wind pressure from bottom to top, the movable wind blocking block is upwards bent by matching with the elastic rod by the upward force, and the telescopic belt is retracted simultaneously, so that the movable wind blocking blocks are separated from each other, the opening of the wind pressure opening is increased, the instant ventilation quantity is increased, and the wind can more quickly prop open the elastic bag when falling down, the forming time of the elastic bag is shortened, meanwhile, the elastic deformation of the elastic rod avoids triggering the elastic bag normally descending, after the elastic bag is extruded by wind pressure, the elastic bag can be enabled to bulge upwards, the structure is similar to a parachute structure, meanwhile, the elastic bag is positioned at the central position of the floor, the protection bottom plate device can play a certain deceleration buffering role in the falling process, meanwhile, the protection bottom plate device can be enabled to form a stable falling state as far as possible, the inclination is avoided, the ejection state is realized after the electromagnet is started, the stable friction device is extruded upwards, after the movable lug is impacted, the movable lug slides towards the inside together with the friction rod, the outer wall of the friction rod is provided with a triangular pointed block, the triangular pointed block is arranged inside the heat generator and is opposite to the friction rod, instantaneous heat is generated through collision, the instantaneous heat is collected by the heat conducting pipe and then is guided to the gas generator, the chemical change of the gas generator is enabled to, when instantaneous heat is received, micro explosion can occur to generate a large amount of nitrogen, and after the nitrogen is generated, the air bag can be filled, so that the stress area of personnel and the air bag is increased, the impact force can be effectively reduced, and inner bones such as knees are protected.

Compared with the prior art, the invention has the following advantages:

1. the electro-magnet starts the back and is the ejection state, upwards extrude steady friction device, the activity lug receives the striking back, along with the friction lever towards inside slip, the friction lever outer wall is equipped with the sharp piece of triangle, it is opposite with the friction lever (increase calorifacient stability) to be equipped with the sharp piece of triangle inside the heat generator, produce instantaneous heat through the collision, concentrate by the heat pipe and collect, the gas generator that leads again, can appear miniature explosion when gas generator receives instantaneous heat and produce a large amount of nitrogen gas and fill up the gasbag, and then increase personnel and the atress area of gasbag, can effectively reduce the impact force, protect endoskeletons such as knee.

2. The activity wind-break piece receives ascending force fit elastic rod and upwards buckles, the telescopic band returns simultaneously and contracts, make the separation between two liang of movable wind-break pieces, and then the opening of wind pressure mouth has been increased, the instantaneous ventilation volume has been increased, and then make wind can be more quick when the tenesmus strut the elasticity bag, shorten the fashioned time of elasticity bag, the elasticity bag is after upwards having risen, be similar to the parachute structure, the elasticity bag is located the central point on floor and puts, and then make the protection bottom plate device can play certain speed reduction cushioning effect at the tenesmic in-process, make the protection bottom plate device form steady tenesmic state as far as possible simultaneously, avoid appearing the slope, and the elastic deformation of elastic rod avoids ordinary normal decline to trigger the elasticity bag.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of an electric power construction equipment based on the safety protection effect of friction aeration and air pressure buffering according to the present invention;

FIG. 2 is a front sectional view of the protective base plate apparatus of the present invention;

FIG. 3 is an enlarged view of the pressure activated device of FIG. 2 in accordance with the present invention;

FIG. 4 is a bottom sectional view of the wind pressure activating device of the present invention;

FIG. 5 is an enlarged view of the friction jet unit of FIG. 2 in accordance with the present invention;

FIG. 6 is an enlarged view of the friction stabilizing device of FIG. 5 in accordance with the present invention;

fig. 7 is a front sectional view (right side) of the groove heat conducting device of the present invention.

In the figure: the device comprises a load-bearing connecting rod-1, a vertical plate-2, a protective bottom plate device-3, a foot rest-4, a wind pressure starting device-30, a wind pressure port-31, a gravity sensor-32, a friction jet device-33, an air bag-34, an elastic bag-35, a movable wind blocking block-301, an elastic rod-302, a fixing ring-303, a through groove-304, a telescopic belt-305, a gas generator-330, a stable friction device-331, a spring-332, an electromagnet-333, a groove heat conduction device-3311, a push rod-3312, a conical groove-A1, a movable bump-A2, a friction rod-A3, a heat generator-A4 and a heat conduction pipe-A5.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1, the present invention provides a technical scheme of an electric power construction equipment based on safety protection effects of friction aeration and air pressure buffering: the structure of the hanging basket comprises a bearing connecting rod 1, a vertical plate 2, a protective bottom plate device 3 and a foot rest 4, wherein the bottom of the bearing connecting rod 1 is welded with the side end of the top of the vertical plate 2, the bottom of the vertical plate 2 is fixedly connected with the top of the protective bottom plate device 3, the bottom of the protective bottom plate device 3 is welded with the top of the foot rest 4, the top of the foot rest 4 is vertically connected with the bottom of the protective bottom plate device 3, the top of the protective bottom plate device 3 is vertically connected with the bottom of the vertical plate 2, a pulley is arranged at the top of the bearing connecting rod 1, the vertical plate 2 and the protective bottom plate device 3 are combined into a construction hanging basket structure, power supply construction high-altitude operation is carried out, lifting is realized by pulling the bearing connecting rod 1 up and down, the;

referring to fig. 2, the protection base plate device 3 is composed of a wind pressure starting device 30, a wind pressure port 31, a gravity sensor 32, a friction jet device 33, an air bag 34, and an elastic bag 35, wherein the bottom of the wind pressure starting device 30 is communicated with the top of the wind pressure port 31, the top of the wind pressure starting device 30 is in clearance fit with the bottom of the elastic bag 35, the interior of the gravity sensor 32 is electrically connected with the interior of the friction jet device 33, the top of the friction jet device 33 is hermetically connected with the bottom of the air bag 34, the middle end of the air bag 34 is attached to the outer wall of the elastic bag 35, the wind pressure starting device 30 is fixed at the middle end of the base, the gravity sensor 32 is connected with an electromagnet 333 through a connecting wire, when a drop occurs, a switch is triggered to enable the electromagnet 333 to be in an open state, the elastic bag 35 and the wind pressure starting device 30, instantaneous wind pressure can appear in the time of the tenesmus, and through 31 extrusion wind pressure starting drive 30 of wind pressure mouth, after wind pressure extrusion elastic bag 35, can make elastic bag 35 up swell, be similar to the parachute structure, simultaneously because elastic bag 35 is located the central point on floor and puts, and then make protection bottom plate device 3 play certain speed reduction cushioning effect at the tenesmic in-process, make protection bottom plate device 3 form steady tenesmic state as far as possible simultaneously, avoid appearing the slope.

Referring to fig. 3-4, the wind pressure starting apparatus 30 comprises a movable wind-blocking block 301, an elastic rod 302, a fixing ring 303, a through slot 304, and a flexible band 305, wherein the middle end of the outer wall of the movable wind-blocking block 301 is welded to the side end of the elastic rod 302, the outer wall of the elastic rod 302 is welded to the middle end of the fixing ring 303, the top of the movable wind-blocking block 301 is bonded to the bottom of the flexible band 305, the side end of the top of the flexible band 305 is bonded to the top end of the inner wall of the fixing ring 303, the through slot 304 is located at the center of the fixing ring 303, the movable wind-blocking block 301 is a ring-shaped block with ten number, when the wind pressure starting apparatus 30 is impacted by wind pressure from bottom to top, the movable wind-blocking block 301 is upward bent by upward force in cooperation with the elastic rod 302, and the flexible band 305 retracts at the same time, so that the movable wind-blocking blocks 301 are, and then make wind can be more quick when the tenesmus strut elasticity bag 35, shorten the fashioned time of elasticity bag 35, and the elastic deformation of elastic rod 302 avoids ordinary normal decline to trigger elasticity bag 35 simultaneously.

Referring to fig. 5, the friction jet device 33 is composed of a gas generator 330, a stable friction device 331, a spring 332, and an electromagnet 333, the bottom of the gas generator 330 is connected to the top of the stable friction device 331, the bottom of the stable friction device 331 is fixedly connected to the top of the electromagnet 333, the middle end of the outer wall of the stable friction device 331 is connected to the top of the spring 332 in an embedded manner, the electromagnet 333 is in an ejection state after being started, the stable friction device 331 is upwardly extruded, a nitrogen gas generating agent is inside the gas generator 330, a micro explosion occurs when instantaneous heat is applied, a large amount of nitrogen gas is generated, after the nitrogen gas is generated, the airbag 34 is filled, and when the electromagnet 333 extrudes the stable friction device 331, the spring 332 is compressed, so that the impact force of the ejector rod 3312 can be slightly reduced, and the ejector rod 3312 is prevented from.

Referring to fig. 6, the stable friction device 331 is composed of a groove heat-conducting device 3311 and a top rod 3312, the bottom of the groove heat-conducting device 3311 fits the top of the top rod 3312, the inner wall of the bottom of the groove heat-conducting device 3311 fits the top of the top rod 3312 in a clearance fit, the top of the top rod 3312 is a conical protrusion, which fits the conical groove a1 in the groove heat-conducting device 3311, and the top rod 3312 fits the groove heat-conducting device 3311 perfectly when pressed upward.

Referring to fig. 7, the groove heat conduction device 3311 includes a conical groove a1, a movable protrusion a2, a friction bar A3, a heat generator A4, and a heat conduction pipe A5, wherein an inner wall of the conical groove a1 is attached to an outer wall of the movable protrusion a2, a right end of the movable protrusion a2 is welded to a left end of the friction bar A3, a right end of the friction bar A3 is attached to an inside of the heat generator A4, an inner wall of the heat generator A4 is connected to a left side of the heat conduction pipe A5 by a slot, an outer wall of the friction bar A3 is provided with a triangular tip, the heat generator A4 is provided with a triangular tip opposite to the friction bar A3, instantaneous heat is generated by collision, and is integrated by the heat conduction pipe A5, the movable protrusion a2 is collided and slides with the friction bar A3 to the inside, and is instantaneously and rapidly rubbed with the heat generator A4, and the generated heat.

The top of the heat pipe a5 is connected to the bottom of the gas generator 330, and the heat is collected by the heat pipe a5 and then guided to the gas generator 330, so that the gas generator 330 undergoes chemical changes.

When in use, the vertical plate 2 and the protective bottom plate device 3 are combined into a construction hanging basket structure for power construction high-altitude operation, the bearing connecting rod 1 is pulled up and down to lift off, the foot rest 4 plays a supporting role when being placed, and also plays a certain buffering role when falling down, when falling down occurs, the gravity sensor 32 triggers the switch to enable the electromagnet 333 to be in an opening state, the elastic bag 35 and the wind pressure starting device 30 as well as the wind pressure port 31 are in the same vertical surface, instantaneous wind pressure can occur when falling down, and the wind pressure starting device 30 is extruded through the wind pressure port 31, when the wind pressure starting device 30 is impacted by wind pressure from bottom to top, the movable wind blocking block 301 is upwards bent by upward force matching with the elastic rod 302, meanwhile, the telescopic belt 305 retracts, so that the movable wind blocking blocks 301 are separated from two to two, further the opening of the wind pressure port 31 is increased, and the instantaneous ventilation volume is increased, and then make the wind can strut the elastic bag 35 more rapidly while dropping, shorten the shaping time of the elastic bag 35, the elastic deformation of the elastic rod 302 avoids the ordinary normal decline to trigger the elastic bag 35 at the same time, after the wind pressure squeezes the elastic bag 35, can make the elastic bag 35 swell up, similar to the parachute structure, because the elastic bag 35 locates at the central point of the floor, and then make the protective floor device 3 play certain deceleration buffer action in the course of dropping, make the protective floor device 3 form the steady state of dropping as far as possible at the same time, avoid appearing inclining, the state of catapulting after the electromagnet 333 starts, squeeze the steady friction device 331 upwards, after the movable lug A2 receives the striking, slide towards the inside together with friction lever A3, the outer wall of the friction lever A3 is equipped with the triangle point block, the heat generator A4 is equipped with the triangle point block and is opposite to the friction lever A3, produce the instantaneous heat through colliding, the gas generator 330 is intensively collected by the heat conduction pipe A5 and then guided to the gas generator 330, so that the gas generator 330 is chemically changed, the nitrogen generating agent is arranged inside the gas generator 330, micro explosion can occur when the nitrogen generating agent receives instantaneous heat to generate a large amount of nitrogen, and the air bag 34 can be filled after the nitrogen is generated, so that the stress area of personnel and the air bag is increased, the impact force can be effectively reduced, and the inner bones such as knees and the like are protected.

The invention solves the problems that in the aspect of high-altitude equipment, only a guardrail structure is simply used, so that personnel can have a fulcrum when working at high altitude (generally about four-storey height), the personnel can conveniently and stably self, but is weak in the aspect of falling protection, and only a thickened rubber pad is simply used on a bottom plate for relieving impact force, but at the moment of vibration generation, the rubber has very little unloading force, so that the legs of the personnel can sit backwards or kneel forwards easily at the moment of stress, the inner bones are damaged due to impact on the rubber plate, the falling process is easy to incline, the personnel are deflected to one section, the personnel are easy to turn out of a hanging basket, or one lifting end of the hanging basket directly lands, the personnel impact on the lower end of the side, the impact between the personnel is caused, and the injury probability is increased, through the mutual combination of the components, the electromagnet is in an ejection state after being started, upwards extrudes the stable friction device, after being impacted, the movable lug blocks slide towards the inside together with the friction rod, the outer wall of the friction rod is provided with a triangular pointed block, the inside of the heat generator is provided with the triangular pointed block which is opposite to the friction rod (increasing the stability of heat generation), instantaneous heat is generated by collision and is collected by the heat conduction pipe in a centralized way and then is guided to the gas generator, when the gas generator receives the instantaneous heat, micro explosion can be generated to generate a large amount of nitrogen gas to fill the gas bag, so that the stress area of personnel and the gas bag is increased, the impact force can be effectively reduced, the inner bones such as knees and the like are protected, the movable wind blocking block is upwards bent by matching of the upward force with the elastic rod, and meanwhile, the telescopic belt retracts to separate the movable wind blocking blocks from each other, so that the opening of a wind pressure port is increased, the instantaneous ventilation amount is increased, and, after the elastic bag has upwards swelled, similar to the parachute structure, the elastic bag is located at the central position of the floor, so that the protection bottom plate device can play a certain deceleration buffering role in the falling process, and meanwhile, the protection bottom plate device is enabled to form a stable falling state as much as possible, so that the inclination is avoided, and the elastic bag is prevented from being triggered by the normal falling of the elastic rod.

The foregoing merely illustrates the principles and preferred embodiments of the invention and many variations and modifications may be made by those skilled in the art in light of the foregoing disclosure, which are intended to be within the scope of the invention.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. Electric power construction equipment based on safety protection effect of friction aeration and atmospheric pressure buffering, its structure includes bearing connecting rod (1), riser (2), protection bottom plate device (3), foot rest (4), its characterized in that:

the bottom of the bearing connecting rod (1) is welded with the side end of the top of the vertical plate (2), the bottom of the vertical plate (2) is fixedly connected with the top of the protective bottom plate device (3), the bottom of the protective bottom plate device (3) is welded with the top of the foot rest (4), the top of the foot rest (4) is vertically connected with the bottom of the protective bottom plate device (3), the top of the protective bottom plate device (3) is vertically connected with the bottom of the vertical plate (2), and a pulley is arranged at the top of the bearing connecting rod (1);

protection bottom plate device (3) comprises wind pressure starting drive (30), wind pressure mouth (31), gravity inductor (32), friction jet system (33), gasbag (34), elasticity bag (35), wind pressure starting drive (30) bottom link up with wind pressure mouth (31) top mutually, wind pressure starting drive (30) top is clearance fit with elasticity bag (35) bottom, gravity inductor (32) inside is connected for the electricity with friction jet system (33) is inside, friction jet system (33) top is sealing connection with gasbag (34) bottom, gasbag (34) middle-end is laminated with elasticity bag (35) outer wall mutually, wind pressure starting drive (30) are fixed in the base middle-end.

2. The electric power construction equipment based on the safety protection effect of friction aeration and air pressure buffering as claimed in claim 1, wherein: wind pressure starting drive (30) comprises activity wind-break piece (301), elastic rod (302), solid fixed ring (303), logical groove (304), telescopic band (305), activity wind-break piece (301) outer wall middle-end welds with elastic rod (302) side mutually, elastic rod (302) outer wall welds with solid fixed ring (303) middle-end mutually, activity wind-break piece (301) top binds with telescopic band (305) bottom mutually, telescopic band (305) top side binds with solid fixed ring (303) inner wall top mutually, lead to groove (304) and be located solid fixed ring (303) centre mutually, activity wind-break piece (301) are the annular piece that quantity is ten.

3. The electric power construction equipment based on the safety protection effect of friction aeration and air pressure buffering as claimed in claim 1, wherein: the friction gas injection device (33) is composed of a gas generator (330), a stable friction device (331), a spring (332) and an electromagnet (333), wherein the bottom of the gas generator (330) is connected with the top of the stable friction device (331), the bottom of the stable friction device (331) is fixedly connected with the top of the electromagnet (333), and the middle end of the outer wall of the stable friction device (331) is connected with the top of the spring (332) in an embedded mode.

4. The electric power construction equipment based on the safety protection effect of friction aeration and air pressure buffering as claimed in claim 3, wherein: the stable friction device (331) is composed of a groove heat conduction device (3311) and an ejector rod (3312), the bottom of the groove heat conduction device (3311) is matched with the top of the ejector rod (3312), and the inner wall of the bottom of the groove heat conduction device (3311) is in clearance fit with the top of the ejector rod (3312).

5. The electric power construction equipment based on the safety protection effect of friction aeration and air pressure buffering as claimed in claim 4, wherein: groove heat-transfer device (3311) comprises circular cone groove (A1), activity lug (A2), friction lever (A3), heat generator (A4), heat pipe (A5), circular cone groove (A1) inner wall and activity lug (A2) outer wall laminate mutually, activity lug (A2) right-hand member welds with friction lever (A3) left end, friction lever (A3) right-hand member laminates mutually with heat generator (A4) inside, heat generator (A4) inner wall is connected for the draw-in groove with heat pipe (A5) left side.

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