CN116791967B - Spliced electric power guardrail of outdoor electric power equipment - Google Patents

Abstract

The application relates to the technical field of electric power guardrails, in particular to a spliced electric power guardrail of outdoor electric power equipment, which comprises a first connecting mechanism, wherein a folding grille is hinged to the right side of the first connecting mechanism, a second connecting mechanism for carrying out secondary protection on the guardrail is hinged to the right end of the folding grille, splicing mechanisms for splicing the guardrails are respectively arranged on the first connecting mechanism and the second connecting mechanism, the second connecting mechanism comprises a second fixed column, a second cover plate is detachably arranged on the front surface of the second fixed column, a first electromagnet is fixedly connected inside the second fixed column, and a standby power supply can be timely connected to the guardrail after the guardrail is broken and disconnected with the electric power through the arrangement of the second connecting mechanism, so that the guardrail can be continuously electrified on the guardrail after the guardrail is broken, the guardrail can continue to play a protection effect, and the safety of the guardrail is improved.

Description

Spliced electric power guardrail of outdoor electric power equipment

Technical Field

The application relates to the technical field of electric power guardrails, in particular to a spliced electric power guardrail of outdoor electric power equipment.

Background

In order to be convenient for manage electric power facility, can use the guardrail to enclose around electric power facility keeps off and keeps apart, avoids non-professional to be close to, especially in the electric power facility in field, needs to avoid the animal to be close to, avoids electric power facility to be destroyed, and the transportation of the convenient electric power guardrail of concatenation formula electric power guardrail and the electric power guardrail of selecting suitable quantity according to the size of protection area assemble.

One chinese patent publication No. CN113463970a discloses a spliced power guardrail for field power equipment, comprising: the lower end of the upright post is provided with a bottom plate, the top end of the upright post is connected with a support post, and the upper end of the upright post is provided with a buzzer; the device comprises a stand column, a first plug bush, a jack and a fixing hole, wherein the first plug bush is arranged on one side of the stand column, the jack is arranged in the middle of the first plug bush, and the fixing hole is formed in the rear side of the jack; the solar panel is arranged on the support, and the support is arranged at the upper end of the support through the rotating shaft; the riser, riser rear side are provided with the second plug bush, and second plug bush left side is provided with the second plug to constitute grafting structure between second plug and the second plug bush. This open-air power equipment's concatenation formula electric power guardrail can splice the equipment to the guardrail fast in the field to need not to use the instrument when the concatenation, very big improvement installation effectiveness, warning wild animal simultaneously, avoid electric power facility to suffer wild animal's destruction.

However, when the electric power guardrail is used in the field, supervision and inspection cannot be frequently performed, and after some field organisms or artificial damages are encountered, the electric power guardrail can lose the protection effect, so that the electric power equipment protected in the electric power guardrail can be damaged or lost.

Based on this, there is still a great room for improvement in the above-mentioned conventional power guardrails.

Disclosure of Invention

In order to solve the technical problems, the application provides a spliced power guardrail of outdoor power equipment, which adopts the following technical scheme.

The utility model provides an outdoor power equipment's concatenation formula electric power guardrail, includes first coupling mechanism, first coupling mechanism's right side articulates there is folding grid, folding grid's right-hand member articulates is provided with the second coupling mechanism that is used for carrying out secondary protection to the guardrail, be provided with the concatenation mechanism that is used for the guardrail concatenation on first coupling mechanism and the second coupling mechanism respectively.

The second coupling mechanism includes the second fixed column, the front surface demountable installation of second fixed column has the second apron, the inside fixedly connected with first electro-magnet of second fixed column, the inside of second fixed column is provided with the taut piece that is located first electro-magnet top, the bottom fixedly connected with conductor piece of taut piece, the inside of second fixed column is provided with two bilateral symmetry's that are located first electro-magnet below first locating part, the lower surface of conductor piece is provided with the pulling piece, the inside of second fixed column is controlled the equal fixedly connected with of side and is located the flexible electric contact mount pad of elasticity of first locating part below, the inside of second fixed column is provided with the second locating part that is located flexible electric contact mount pad below.

Preferably, the tensioning piece comprises a pull rope arranged on a second fixed column, a first through hole matched with the pull rope is formed in the top end of the second fixed column, a first hemisphere is fixedly connected with the bottom end of the pull rope, a plurality of limit connecting columns are uniformly distributed on the lower surface of the first hemisphere, the lengths of the limit connecting columns are different, a second hemisphere is arranged below the first hemisphere, the bottom end of the second hemisphere is fixedly connected with the pull rope, a plurality of limit connecting grooves are formed in the upper surface of the second hemisphere, the depths of the limit connecting grooves are different, two bilaterally symmetrical installation clamping grooves are formed in the inside of the limit connecting grooves, limit clamping balls are connected with the installation clamping grooves in a sliding mode, a first connecting spring is arranged between the limit clamping balls and the installation clamping grooves, the limit clamping balls are arranged on the upper side and the lower side of the limit clamping balls in a sliding mode, the limit clamping balls are connected with the limit grooves in a sliding mode, a plurality of limit connecting columns are in a plurality of limit connecting grooves and correspond to the limit connecting grooves, and the first hemispheres are matched with the first hemispheres in a one-to-one mode.

Preferably, the left side first locating part includes two front and back symmetry's of fixed connection in the inside left surface of second fixed column articulated connection seat, two articulated between the opposite face of articulated connection seat has first spacing cardboard, be provided with the second coupling spring between the bottom of first spacing cardboard and the second fixed column.

Preferably, the second limiting part comprises a fixed block fixedly connected inside the second fixed column, a third through hole which is arranged up and down is formed in the fixed block, the second electromagnets are fixedly connected to the left side and the right side of the inside of the fixed block, the displacement connecting seats are fixedly connected to the two sides of the inside of the fixed block and located on the front side and the rear side of the second electromagnets, the magnetic blocks are fixedly connected to the two sides of the displacement connecting seats together, one side, far away from the second electromagnets, of the magnetic blocks is fixedly connected with a second limiting clamping plate, and the magnetic poles of the second electromagnets and the adjacent surfaces of the magnetic blocks are identical.

Preferably, the pulling piece comprises a linkage pull rod fixedly connected to the lower surface of the conductor block, a limit ball is arranged at the position, close to the conductor block, of the linkage pull rod, a balancing weight is fixedly connected to the bottom end of the linkage pull rod, two front-back symmetrical displacement limit guide rods are fixedly connected to the left side surface and the right side surface of the inside of the second fixing column, the displacement limit guide rods are in sliding connection with the balancing weight in common, a clamping hole is formed in the lower surface of the balancing weight, two left-right symmetrical displacement limit grooves are formed in the inside of the clamping hole, two left-right symmetrical limit balls are fixedly connected to the bottom end of the inner surface of the second fixing column, two left-right symmetrical limit convex balls are connected to the circumferential surface of the clamping limit column in a sliding manner, a fifth connecting spring is arranged between the opposite surfaces of the two limit convex balls, the size of the clamping limit column is matched with the size of the clamping hole on the balancing weight, the size of the limit convex balls is matched with the size of the displacement limit groove in the inside of the clamping hole, and a third connecting spring is arranged between the lower surface of the balancing weight and the inside of the second fixing column.

Preferably, the first connecting mechanism comprises a first fixed column, a first cover plate is detachably mounted on the front surface of the first fixed column, a standby battery is clamped in the first fixed column, two poles of the standby battery are respectively connected with two elastic telescopic electric contact mounting seats in the second fixed column through wires, the elastic telescopic electric contact mounting seats are connected with a power supply circuit of a railing through wires, an alarm is fixedly connected to the inner part of the first fixed column, and the alarm is connected with the standby battery through wires.

Preferably, the splicing mechanism comprises two fixed connection plates fixedly connected to the back sides of the second cover plate and the first fixed column, two splicing bolts which are vertically symmetrical are fixedly connected to the left side faces of the fixed connection plates on the first fixed column, two splicing clamping sleeves which are vertically symmetrical are fixedly connected to the right side faces of the fixed connection plates on the second cover plate, a connecting touch plate is connected to the inner side of each splicing clamping sleeve in a sliding mode, and a fourth connecting spring is arranged between the connecting touch plate and the inner portion of each splicing clamping sleeve.

Preferably, the conductor block is located between the opposite faces of the two elastic telescopic electric contact installation seats, the limiting ball on the linkage pull rod is located in the third through hole on the fixed block and is attached to the upper surface of the second limiting clamping plate, and the linkage pull rod always penetrates through the third through hole on the fixed block up and down.

In summary, the present application includes at least one of the following beneficial technical effects: 1. the setting through second coupling mechanism can be timely after the guardrail is destroyed disconnection power connection with stand-by power supply access to the guardrail, makes the guardrail electric power can guarantee to continue the circular telegram on the guardrail after being destroyed, makes the guardrail still can continue to play the protective effect, improves the security of guardrail to protection power equipment's safety.

Can splice in the guardrail through the setting of concatenation mechanism, the naked degree of difficulty that can strengthen the guardrail and destroyed of less avoiding wire to improve the protection effect of guardrail, reduce the probability that the guardrail was destroyed.

Through the setting of siren, can be when stand-by power supply begins the work, switch in the route with the siren, send out the alarm sound after the guardrail is destroyed to warn wild animal or destructor, can further improve the protection to power equipment.

Drawings

Fig. 1 is a schematic perspective view of the present application.

Fig. 2 is a schematic partial cross-sectional view of the present application.

Fig. 3 is a front view of fig. 2 of the present application.

Fig. 4 is a front cross-sectional view of the tension member of the present application.

Fig. 5 is a top view of a second hemispherical structure of the present application.

Fig. 6 is a schematic partial cross-sectional view of a second fixing post according to the present application.

Fig. 7 is an enlarged view of section a of fig. 6 in accordance with the present application.

Fig. 8 is an enlarged view of section B of fig. 6 in accordance with the present application.

Figure 9 is a front cross-sectional view of the weight construction of the present application.

Fig. 10 is a top cross-sectional view of a second stop member of the present application.

Reference numerals illustrate: 1. a first connection mechanism; 2. folding the grille; 3. a second connection mechanism; 4. a splicing mechanism; 11. a first cover plate; 12. a standby battery; 13. a first fixing column; 31. a second cover plate; 32. a tension member; 33. a first electromagnet; 34. a conductor block; 35. a first limiting member; 36. a pulling member; 37. an elastically telescopic electrical contact mounting seat; 38. a second limiting piece; 39. a second fixing column; 41. fixing the connecting plate; 42. splicing the bolts; 43. splicing the cutting ferrule; 44. a contact plate; 321. a first hemisphere; 322. a pull rope; 323. a limit connecting column; 324. limiting clamping balls; 325. a limit connecting groove; 326. a second hemisphere; 327. installing a clamping groove; 351. a hinged connection seat; 352. the first limiting clamping plate; 361. a displacement limiting guide rod; 362. balancing weight; 363. a linkage pull rod; 364. limiting convex balls; 365. clamping the limit column; 366. a displacement limiting groove; 381. a fixed block; 382. a displacement connecting seat; 383. a second electromagnet; 384. a magnetic block; 385. and the second limiting clamping plate.

Detailed Description

The present application is described in further detail below with reference to fig. 1 to 10.

The embodiment of the application discloses a spliced electric power guardrail of outdoor electric power equipment, which can realize that a standby power supply can timely electrify the guardrail again after the electric power guardrail is damaged in the normal protection process after the electric power guardrail is damaged so as to ensure the normal protection work of the guardrail.

Embodiment one: referring to fig. 1, including first coupling mechanism 1, the right side of first coupling mechanism 1 articulates there is folding grid 2, and folding grid 2's right-hand member articulates and is provided with the second coupling mechanism 3 that is used for carrying out the secondary protection to the guardrail, is provided with the concatenation mechanism 4 that is used for the guardrail concatenation on first coupling mechanism 1 and the second coupling mechanism 3 respectively.

In this case, the standby power supply 12 is timely connected to the guardrail after the guardrail is powered off through the second connecting mechanism 3, so that the guardrail is powered on again, and the guardrail can play a protective role again.

The exposed wires can be reduced as little as possible through the splicing mechanism 4 in the case, and the difficulty of damaging the guardrail is improved.

The case can give out an alarm sound after the guardrail is destroyed by the alarm to frighten wild animals or destructors.

Referring to fig. 3, the second connection mechanism 3 includes a second fixing post 39, a second cover plate 31 is detachably mounted on a front surface of the second fixing post 39, a first electromagnet 33 is fixedly connected to an inside of the second fixing post 39, a tensioning member 32 located above the first electromagnet 33 is disposed inside the second fixing post 39, a conductor block 34 is fixedly connected to a bottom end of the tensioning member 32, two first limiting members 35 which are symmetrically located below the first electromagnet 33 are disposed inside the second fixing post 39, a pulling member 36 is disposed on a lower surface of the conductor block 34, an elastic telescopic electric contact mounting seat 37 located below the first limiting member 35 is fixedly connected to left and right side surfaces of the inside of the second fixing post 39, and a second limiting member 38 located below the elastic telescopic electric contact mounting seat 37 is disposed inside the second fixing post 39.

Referring to fig. 1 and 2, the first connection mechanism 1 includes a first fixing post 13, a first cover plate 11 is detachably mounted on a front surface of the first fixing post 13, a standby battery 12 is clamped in the first fixing post 13, two poles of the standby battery 12 are respectively connected with two elastic telescopic electric contact mounting seats 37 in a second fixing post 39 through wires, and the elastic telescopic electric contact mounting seats 37 are connected with a power supply circuit of a railing through wires.

Referring to fig. 2, the splicing mechanism 4 includes two fixed connection plates 41 fixedly connected to opposite sides of the second cover plate 31 and the first fixed column 13, two splicing bolts 42 that are symmetrical up and down are fixedly connected to a left side surface of the fixed connection plate 41 on the first fixed column 13, two splicing clamping sleeves 43 that are symmetrical up and down are fixedly connected to a right side surface of the fixed connection plate 41 on the second cover plate 31, a connection contact plate 44 is slidingly connected to an inner side of the splicing clamping sleeve 43, and a fourth connection spring is arranged between the connection contact plate 44 and an inner portion of the splicing clamping sleeve 43.

Can splice in the guardrail through the setting of splicing mechanism 4, the naked degree of difficulty that can strengthen the guardrail and destroyed of less avoiding wire to improve the protection effect of guardrail, reduce the probability that the guardrail was destroyed.

When the guardrail splicing device is specifically used, after the position between the first fixing column 13 and the second fixing column 39 is determined, the first fixing column 13 and the second fixing column 39 are fixed on the ground, then the new first fixing column 13 and the new second fixing column 39 are spliced on the first fixing column 13 and the second fixing column 39 which are already installed, the splicing plug pin 42 on the new first fixing column 13 is clamped on the splicing clamping sleeve 43 on the second fixing column 39 which is already installed, and the guardrail is spliced through the limiting pin, the connecting contact plate 44 is matched with the fourth connecting spring between the connecting contact plate 44 and the splicing clamping sleeve 43 through the arrangement of the connecting contact plate 44, so that the connecting contact plate 44 is always clung to the splicing plug pin 42, and poor contact during adjustment of the position of the spliced guardrail is avoided.

Embodiment two: referring to fig. 4 and 5, the tensioning member 32 includes a pull rope 322 disposed on a second fixing column 39, a first through hole adapted to the pull rope 322 is provided at the top end of the second fixing column 39, a first hemisphere 321 is fixedly connected with the bottom end of the pull rope 322, a plurality of limit connecting columns 323 are uniformly distributed on the lower surface of the first hemisphere 321, the lengths of the plurality of limit connecting columns 323 are different, a second hemisphere 326 is disposed below the first hemisphere 321, the bottom end of the second hemisphere 326 is fixedly connected with the pull rope 322, a plurality of limit connecting grooves 325 are provided on the upper surface of the second hemisphere 326, the depths of the plurality of limit connecting grooves 325 are different, two mounting clamping grooves 327 are provided inside the limit connecting grooves 325, limit clamping balls 324 are slidably connected inside the mounting clamping grooves 327, limit grooves are provided on the upper and lower sides of the mounting clamping balls 324, the limit clamping balls 324 are slidably connected with the limit grooves, the plurality of limit connecting columns 323 are correspondingly provided with the first hemispheres 33, and the second hemispheres 33 are correspondingly provided with the first through hole.

When the guardrail is in specific use, after the guardrail is installed, the conductor block 34 is driven to move upwards through the pulling rope 322 to be clung to the lower surface of the first electromagnet 33, the conductor block 34 inside all the second fixing columns 39 is clung to the first electromagnet 33, meanwhile, the conductor block 34 drives the pulling piece 36 to move in the second fixing columns 39, and the third connecting spring is stretched, then the guardrail is electrified, at this moment, the first electromagnet 33 generates magnetic force, the conductor block 34 is adsorbed on the conductor block 34, then the pulling rope 322 is pulled by the force, at this moment, the first hemisphere 321 continues to bear force, the first hemisphere 321 is separated from the second hemisphere 326, the first hemisphere 321 is clung to the second hemisphere 326 in an initial state, the limit connecting column 323 is clamped in the inside of the limit connecting groove 325, and limit is carried out limit through the limit clamping ball 324, and the elasticity of the first connecting spring between the limit clamping ball 324 and the installation clamping groove 327 is larger than the elasticity of the third connecting spring between the pulling piece 36 and the second fixing columns 39, when the pulling rope 322 is pulled, at first hemisphere 321 and second hemisphere 322 are synchronously moved, then the pulling rope 322 is pulled by the force, at this moment, the first hemisphere 321 is continuously stressed by the first hemisphere 321, the first hemisphere 321 is separated from the second hemisphere 326 is avoided from the first hemisphere, the first hemisphere is not damaged by the first hemisphere, the electric contact point is avoided from the first hemisphere, the first hemisphere is not is connected with the second hemisphere, and the first hemisphere is not connected with the first hemispherical, and the first hemispherical contact point is not connected with the first hemispherical, and the second hemispherical, and is easy to be connected with the first expansion joint, and is easy to be broken, and broken by the second expansion joint is easy, and safe, and is easy to be broken.

Referring to fig. 6 and 7, the first limiting member 35 on the left side includes two hinge connection bases 351 which are fixedly connected to the left side surface inside the second fixing column 39 and are symmetrical front and back, a first limiting clamping plate 352 is hinged between opposite surfaces of the two hinge connection bases 351, and a second connecting spring is arranged between the bottom end of the first limiting clamping plate 352 and the second fixing column 39.

Referring to fig. 6-8, the pulling member 36 includes a linkage pull rod 363 fixedly connected to the lower surface of the conductor block 34, a limit ball is disposed at a position on the linkage pull rod 363 near the conductor block 34, a balancing weight 362 is fixedly connected to the bottom end of the linkage pull rod 363, two front-back symmetrical displacement limit guide rods 361 are fixedly connected to the left and right inner sides of the second fixing column 39, the plurality of displacement limit guide rods 361 are slidably connected with the balancing weight 362 together, a clamping hole is formed in the lower surface of the balancing weight 362, two left-right symmetrical displacement limit grooves 366 are formed in the clamping hole, a clamping limit column 365 is fixedly connected to the bottom end of the inner surface of the second fixing column 39, two left-right symmetrical limit balls 364 are slidably connected to the circumferential surface of the clamping limit column 365, a fifth connecting spring (not shown in the drawing) is disposed between the opposite surfaces of the two limit balls 364, the size of the clamping limit column 365 is matched with the size of the clamping hole on the balancing weight 362, the size of the limit ball 364 is matched with the size of the displacement limit groove 366 in the clamping hole, and a third connecting spring is disposed between the lower surface of the balancing weight 39 and the inner surface of the second fixing column.

Referring to fig. 10, the second limiting member 38 includes a fixed block 381 fixedly connected to the inside of the second fixing column 39, a third through hole is formed in the fixed block 381, a second electromagnet 383 is fixedly connected to the left and right sides of the inside of the fixed block 381, a displacement connecting seat 382 is fixedly connected to the front and rear sides of the fixed block 381, a magnetic block 384 is fixedly connected between the two front and rear displacement connecting seats 382, one surface of the magnetic block 384 away from the second electromagnet 383 is fixedly connected with a second limiting clamping plate 385, the magnetic poles of the second electromagnet 383 and the adjacent surface of the magnetic block 384 are the same, the standby battery 12 does not supply power to the second electromagnet 383 and the first electromagnet 33, the conductor block 34 is located between the opposite surfaces of the two elastic telescopic electrical contact mounting seats 37, a limiting ball on the linkage pull rod 363 is located in the inside of the third through hole on the fixed block 381 and is attached to the upper surface of the second limiting clamping plate 385, and the linkage pull rod 363 always penetrates the third through hole on the fixed block 381 vertically.

The setting through second coupling mechanism 3 can be timely after the guardrail is destroyed disconnection power connection with stand-by power supply access to the guardrail, makes the guardrail electric power can guarantee to continue the circular telegram on the guardrail after being destroyed, makes the guardrail still can continue to play the protective effect, improves the security of guardrail to protection power equipment's safety.

When the guardrail is powered on, the second electromagnet 383 generates magnetic force to generate adsorption force to the magnetic block 384, at the moment, the displacement connecting seat 382 is compressed, and the second limit clamping plate 385 is driven to retract to the inside of the fixed block 381, after the guardrail is powered off, the magnetic force of the second electromagnet 383 disappears, the magnetic block 384 and the second limit clamping plate 385 are pushed to move away from the direction of the second electromagnet 383 under the action of the elasticity of the displacement connecting seat 382, at the moment, one end of the second limit clamping plate 385 close to the linkage pull rod 363 is clung to the circumferential surface of the linkage pull rod 363, at the same time, the first electromagnet 33 loses magnetic force and does not generate adsorption force to the conductor block 34, under the action of the elasticity of the third connecting spring, the first electromagnet 33 pulls the conductor block 34 to move downwards, when the limit ball on the linkage pull rod 363 moves to be matched with the upper surface of the second limit clamping plate, the second limit clamping plate 385 generates limit effect on the limit ball, at the moment, the conductor block 34 is not moved any more, and is positioned between the two elastic telescopic electrical contact mounting seats 37, a passage is formed between the two elastic telescopic electrical contact mounting seats 37, the guardrail 12 is connected to the guardrail again, the first limit clamping plate 352 is connected to the first limit clamping plate 352, and the first clamping plate 352 is completely rotates under the action of the elasticity of the first clamping plate 352, and the first clamping plate 352 is completely rotates under the action of the first limit clamping plate 352, and the first clamping plate 352 is connected to the limit clamping plate 352 under the action of the limit clamping plate 352.

When the conductor block 34 is not limited in specific use, the conductor block 34 is driven to slide downwards by the linkage pull rod 363 under the combined action of the elasticity of the third connecting spring and the gravity of the balancing weight 362, meanwhile, the balancing weight 362 is ensured to slide downwards vertically under the action of the displacement limit guide rod 361, when a worker needs to repair the guardrail, the worker electrifies the guardrail again, at the moment, the second electromagnet 383 is electrified to generate magnetic force, the magnetic block 384 is driven to generate adsorption force, the magnetic block 384 is driven to move, the second limit clamping plate 385 is driven to move, at the moment, the second limit clamping plate 385 loses the limit of the limit ball on the linkage pull rod 363, the balancing weight 362 continues to slide downwards, the clamping hole at the bottom end of the balancing weight 362 is clamped with the clamping limit column 365 along with the continuous downward sliding of the balancing weight 362, simultaneously, two limit convex balls 364 on the clamping limit column 365 are compressed to the inside of the clamping limit column 365, meanwhile, a fifth connecting spring between the two limit convex balls 364 is compressed, when the clamping limit column 365 enters into the inside of the clamping hole, and then the limit convex balls 364 move to the position of a displacement limit groove 366 in the inside of the clamping hole, under the action of the elastic force of the fifth connecting spring, the limit convex balls 364 are pushed outwards on the clamping limit column 365, the limit convex balls 364 are clamped in the displacement limit groove 366, so that the position of the balancing weight 362 is limited, meanwhile, the conductor block 34 is kept relatively fixed, the conductor block 34 is prevented from sliding between two elastic telescopic electric contact mounting seats 37 in the maintenance process of a worker, the damage to the worker caused by the re-electrifying of the guardrail is avoided, then the worker cuts off the power supply of the guardrail to maintain the guardrail, the spare battery 12 is replaced by opening the first cover plate 11 on the first fixing column 13, the conductor block 34 is reset by opening the second cover plate 31 on the second fixing column 39, meanwhile, the first hemisphere 321 is reconnected to the second hemisphere 326, the pull rope 322 on the first hemisphere 321 is penetrated out of the second fixing column 39 again, finally, the first fixing column 13 and the second cover plate 31 are reset, and after all parts are maintained, the guardrail can be put into use again.

The implementation principle of the application is as follows: (1) The two ends of the folding grill 2 are first connected to the first fixing post 13 and the second fixing post 39, respectively, and then the relative distance between the first fixing post 13 and the second fixing post 39 is adjusted according to the installation position.

(2) After the relative distance between the first fixing post 13 and the second fixing post 39 is adjusted, the first fixing post 13 and the second fixing post 39 are respectively fixed on the ground, and then new first fixing post 13 and second fixing post 39 are continuously installed.

(3) When the new first fixing column 13 and the new second fixing column 39 are installed, the splicing plug pin 42 on the new first fixing column 13 is clamped on the splicing clamping sleeve 43 on the second fixing column 39 after the installation is completed, and the splicing plug pins are connected through the fixing pins.

(4) After all guardrails are installed, the conductor blocks 34 are pulled to be close to the first electromagnets 33 through the tensioning pieces 32, and then the guardrails are electrified, at the moment, the first electromagnets 33 absorb the conductor blocks 34, and all guardrails are electrified.

(5) When the guardrail is damaged, the guardrail power is disconnected, at this moment, the first electromagnet 33 cancels the adsorption force to the conductor block 34, under the action of the self-elastic force of the third connecting spring, the pulling piece 36 drives the conductor block 34 to move towards the bottom end direction of the second fixing column 39, and the second limiting piece 38 limits the conductor block 34, so that the conductor block 34 can only move to be in contact with the elastic telescopic electric contact mounting seat 37, and at this moment, the power of the standby battery 12 is re-introduced onto the guardrail, so that the guardrail is electrified to continue to play a protective role.

(6) When the staff maintains the damaged guardrail, after the guardrail is re-connected with the power supply, the second limiting piece 38 cancels the limiting of the conductor block 34, the conductor block 34 is continuously pulled by the pulling piece 36 under the action of the self elastic force of the third connecting spring, the conductor block 34 is far away from the elastic telescopic electric contact mounting seat 37, and the standby power supply is disconnected.

(7) And then the staff cuts off the power supply and starts to repair the guardrail.

The embodiments of the present application are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (4)

1. The utility model provides an outdoor power equipment's concatenation formula electric power guardrail which characterized in that: the novel guardrail splicing device comprises a first connecting mechanism (1), wherein the right side of the first connecting mechanism (1) is hinged with a folding grille (2), the right end of the folding grille (2) is hinged with a second connecting mechanism (3) for carrying out secondary protection on a guardrail, and splicing mechanisms (4) for splicing the guardrail are respectively arranged on the first connecting mechanism (1) and the second connecting mechanism (3);

the second connecting mechanism (3) comprises a second fixed column (39), a second cover plate (31) is detachably arranged on the front surface of the second fixed column (39), a first electromagnet (33) is fixedly connected to the inside of the second fixed column (39), a tensioning piece (32) located above the first electromagnet (33) is arranged inside the second fixed column (39), a conductor block (34) is fixedly connected to the bottom end of the tensioning piece (32), two bilaterally symmetrical first limiting pieces (35) located below the first electromagnet (33) are arranged inside the second fixed column (39), a pulling piece (36) is arranged on the lower surface of the conductor block (34), an elastic telescopic electric contact mounting seat (37) located below the first limiting piece (35) is fixedly connected to the left side and right side face inside the second fixed column (39), and a second limiting piece (38) located below the elastic telescopic electric contact mounting seat (37) is arranged inside the second fixed column (39).

The left first limiting part (35) comprises two front-back symmetrical hinged connection seats (351) fixedly connected to the left side surface inside the second fixed column (39), a first limiting clamping plate (352) is hinged between opposite surfaces of the two hinged connection seats (351), and a second connecting spring is arranged between the bottom end of the first limiting clamping plate (352) and the second fixed column (39);

the second limiting part (38) comprises a fixed block (381) fixedly connected inside a second fixed column (39), a third through hole which is arranged up and down is formed in the fixed block (381), a second electromagnet (383) is fixedly connected to the left side and the right side of the inside of the fixed block (381), a displacement connecting seat (382) is fixedly connected to the inside of the fixed block (381) and positioned on the front side and the rear side of the second electromagnet (383), a magnetic block (384) is fixedly connected between the two front displacement connecting seats (382) and the two rear displacement connecting seats (382), a second limiting clamping plate (385) is fixedly connected to one surface, far away from the second electromagnet (383), of the magnetic block (384), and the magnetic poles of the adjacent surfaces of the second electromagnet (383) and the magnetic block (384) are identical;

the pulling piece (36) comprises a linkage pull rod (363) fixedly connected to the lower surface of the conductor block (34), a limiting ball is arranged at the position, close to the conductor block (34), of the linkage pull rod (363), a balancing weight (362) is fixedly connected to the bottom end of the linkage pull rod (363), two front-back symmetrical displacement limiting guide rods (361) are fixedly connected to the left and right inner side surfaces of the second fixing column (39), a plurality of displacement limiting guide rods (361) are slidably connected with the balancing weight (362) together, a clamping hole is formed in the lower surface of the balancing weight (362), two laterally symmetrical displacement limiting grooves (366) are formed in the inner side of the clamping hole, two laterally symmetrical limiting convex balls (364) are slidably connected to the circumferential surface of the clamping limiting column (365), a fifth connecting spring is arranged between the opposite surfaces of the two limiting convex balls (364), the size of the clamping limiting column (365) is matched with the size of the inner side surface of the second fixing column (39), and the size of the inner limiting groove (366) is matched with the size of the inner limiting column (364);

the conductor block (34) is located between opposite faces of the two elastic telescopic electric contact installation seats (37), a limiting ball on the linkage pull rod (363) is located in a third through hole on the fixed block (381) and is attached to the upper surface of the second limiting clamping plate (385), and the linkage pull rod (363) always penetrates through the third through hole on the fixed block (381) up and down.

2. The spliced power guardrail of an outdoor power equipment of claim 1, wherein: the tensioning piece (32) comprises a pull rope (322) arranged on a second fixed column (39), a first through hole matched with the pull rope (322) is formed in the top end of the second fixed column (39), a first hemisphere (321) is fixedly connected with the bottom end of the pull rope (322), a plurality of limit connecting columns (323) are uniformly distributed on the lower surface of the first hemisphere (321), the length of the limit connecting columns (323) is different, a second hemisphere (326) is arranged below the first hemisphere (321), a plurality of limit connecting grooves (325) are formed in the upper surface of the second hemisphere (326), the depths of the limit connecting grooves (325) are different, two bilaterally symmetrical installation clamping grooves (327) are formed in the inside of the limit connecting grooves (325), limit clamping balls (324) are connected in a sliding mode in the inside of the installation clamping grooves (327), limit clamping balls (324) are arranged between the limit clamping balls (324) and the installation clamping grooves (327) in a mode, the limit clamping grooves (327) are correspondingly arranged on the two sides of the limit connecting columns (324) in a sliding mode, the limit clamping grooves (327) are correspondingly arranged on the two sides of the limit connecting grooves (324) in a sliding mode, the first electromagnet (33) is provided with a second through hole which is matched with the first hemisphere (321) and the second hemisphere (326).

3. The spliced power guardrail of an outdoor power equipment of claim 1, wherein: the utility model provides a battery pack, including first coupling mechanism (1), including first fixed column (13), the front surface demountable installation of first fixed column (13) has first apron (11), the inside joint of first fixed column (13) has reserve battery (12), the two poles of the earth of reserve battery (12) are connected through the wire with two inside elastic expansion electrical contact mount pad (37) of second fixed column (39) respectively, elastic expansion electrical contact mount pad (37) are connected through the wire with the power supply circuit of railing, the inside fixedly connected with siren of first fixed column (13), and the siren passes through the wire with reserve battery (12) and is connected.

4. A spliced power guardrail for outdoor power equipment according to claim 3, characterized in that: the splicing mechanism (4) comprises two fixed connection plates (41) fixedly connected to the back sides of a second cover plate (31) and a first fixed column (13), two splicing bolts (42) which are vertically symmetrical are fixedly connected to the left side face of the fixed connection plate (41) on the first fixed column (13), two splicing clamping sleeves (43) which are vertically symmetrical are fixedly connected to the right side face of the fixed connection plate (41) on the second cover plate (31), a connecting touch plate (44) is connected to the inner side sliding connection of each splicing clamping sleeve (43), and a fourth connecting spring is arranged between the connecting touch plate (44) and the inner side of each splicing clamping sleeve (43).