CN110706544B - Rack for high-altitude rescue training of power transmission line and training system - Google Patents

Abstract

The invention relates to a high-altitude rescue training rack and a training system for a power transmission line, which comprise a first framework body and a second framework body which are arranged between two power transmission line towers for training, a corridor structure is fixed between the top ends of the first frame body and the second frame body, the first frame body is provided with a plurality of first workbenches which are positioned below the corridor structure and are distributed up and down, the second frame body is provided with a plurality of second working tables which are distributed up and down and correspond to the first working tables in position, the second working tables are positioned below the corridor structure, leads are connected between the corresponding first working tables and the second working tables, the outer side surface of the first frame body is connected with a ladder stand, a trainer can enter the first workbench through the ladder stand, the second frame body is internally provided with stairs, training personnel can enter a corridor structure through the stairs, and a teacher can approach and guide the trained personnel by adopting the rack.

Description

Rack for high-altitude rescue training of power transmission line and training system

Technical Field

The invention relates to the technical field of training teaching aids in the power industry, in particular to a rack for high-altitude rescue training of a power transmission line and a training system.

Background

The high-altitude rescue technology training of the power transmission line is to establish a standard power transmission line on a training site, wherein the height of a power transmission line iron tower is higher, generally about 30-50 meters, and the span of the line span is large, generally about 300-500 meters. The power-off maintenance work of the power transmission line is one of the main daily maintenance works, and workers move on the conducting wire which is dozens of meters away from the ground and repair the defects encountered by the power transmission line in the process. During work, operators may slide off the wires to hang in the air due to physical conditions and environmental weather conditions, suspension syndrome may occur when people are in a suspended state, and dizziness, syncope and even death may occur within 5-30 minutes. The training institution in the power industry trains the operating personnel to use a scientific, reasonable and safe rescue technology to carry out self-rescue or other rescue on the high-altitude trapped personnel. The traditional training mode is that the instructor explains and guides on the ground, and the trainee drives the tower to train at a high place, and the inventor finds that the training mode has the following defects: 1. the instructor can not see whether the operation of the trainee at high altitude is standard or not on the ground; 2. the trainees can not hear the instruction of the instructor clearly because the trainees are at a high place and far away from the ground; 3. the ground instructor cannot find and correct the dangerous factors in the operation of the trained personnel in time, or the guardian cannot immediately rescue the trained personnel when the trained personnel is in a dangerous condition; in the last few years, when a trained person performs pole-stepping training, a ground guardian cannot timely find out that the trained person performs high-altitude suspension so as to prevent the trained person from performing high-altitude erroneous operation, and accidents that the trained person does not timely and unreasonably cause death of the trained person occur.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a rack for high-altitude rescue training of a power transmission line, which can enable a trainer to enter a training operation surface to approach and guide a trained person, realize barrier-free communication between the trainer and the trained person, find errors of the trained person at any time and correct the errors in time, and avoid safety accidents.

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

the utility model provides a transmission line is rack for high altitude rescue training, is including being used for setting up first framework and the second framework between two transmission line iron towers for training, be fixed with the corridor structure between first framework and the second framework top, first framework is equipped with a plurality of first workstations that are located corridor structure below and distribute from top to bottom, be equipped with on the second framework with a plurality of distribute from top to bottom and with first workstation position corresponding second workstation, the second workstation is located corridor structure below, is connected with the wire between corresponding first workstation and the second workstation, first framework lateral surface is connected with the cat ladder, and training personnel can get into first workstation through the cat ladder, the internal portion of second framework is equipped with stair, and training personnel can get into the corridor structure through stair.

Further, the first frame body comprises a plurality of first stand columns, the corridor structure penetrates through the space between the plurality of first stand columns and is fixedly connected with the side faces of the tops of the plurality of first stand columns, and the bottom ends of the first stand columns are fixed on the ground foundation.

Furthermore, first workstation sets up the space between many first stands, and first workstation and first stand fixed connection.

Further, the second frame body includes many second stands, and second stand bottom mounting is on ground basis, the space of stair setting between many stands, the second workstation is fixed on the second stand that is close to first frame body.

Further, the corridor structure comprises a first corridor and a second corridor which are arranged in parallel up and down. And two ends of the first corridor and the second corridor are respectively and fixedly connected with the top positions of the first frame body and the second frame body.

Furthermore, the side face, close to the first frame body, of the top of the second frame body is fixedly connected with one end of the corridor structure, a third workbench is fixed to the other side face, training personnel can enter the third workbench through stairs, and a shaft rescue mechanism is fixed to the bottom end face of the third workbench.

Furthermore, the shaft rescue mechanism comprises a first shaft with a circular cross section and a second shaft with a square cross section, the top ends of the first shaft and the second shaft are connected with a third workbench, the bottom ends of the first shaft and the second shaft are located above a ground foundation by a set distance, and the shaft rescue mechanism is used for rescue exercise of trapped people in the limited space.

Furthermore, insulator strings are connected to two ends of the lead, and the insulator strings at two ends of the lead are connected with the first workbench and the second workbench in a hanging mode respectively.

Furthermore, the middle part of the corridor structure is fixedly connected with the top end of the middle support frame, and the bottom end of the middle support frame is fixedly connected with the ground foundation.

The invention also discloses a power transmission line high-altitude rescue training system which comprises two power transmission line iron towers for training and a power transmission line high-altitude rescue training rack arranged between the two power transmission line iron towers for training, wherein a lead is connected between the two power transmission line iron towers, and a corridor structure is positioned below the lowest point of the lead between the two power transmission line iron towers for training.

The invention has the beneficial effects that:

1. according to the rack, when a trainee carries out high-altitude rescue training on the power transmission line, a teacher can enter each training operation surface through the corridor structure to approach and guide the trainee, the teacher and the trainee carry out barrier-free communication, the error operation of the trainee can be found at any time and corrected in time, safety accidents are avoided, and the teacher and a guardian can rapidly and safely assist when the trainee is in a dangerous state and has no self-care capability.

2. The rack is provided with the vertical shaft rescue mechanism, so that rescue exercises of people trapped in a limited space can be performed, and the function diversification of the rack is realized.

3. The rack provided by the invention is provided with a plurality of first working tables and second working tables, different numbers of split conductors can be connected between different corresponding working tables, and rescue environments with different numbers of split conductors can be simulated for trainees to carry out rescue exercises.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application.

FIG. 1 is a schematic view of the overall structure of embodiment 1 of the present invention;

FIG. 2 is a schematic view of the connection between a first column and a reinforced concrete base according to embodiment 1 of the present invention;

fig. 3 is a schematic diagram of the distribution of the first shaft and the second shaft on the bottom surface of the third platform ii in embodiment 1 of the present invention;

fig. 4 is a schematic cross-sectional view of a second guard rail according to embodiment 1 of the present invention;

fig. 5 is a front view schematically illustrating a second guard rail according to embodiment 1 of the present invention;

FIG. 6 is a schematic view showing the arrangement of inlet port plates at a third stage I in example 1 of the present invention;

FIG. 7 is a schematic view showing the arrangement of inlet channel plates at the second stage of the third working table according to example 1 of the present invention;

the novel multi-stage combined type multi-stage combined type multi stage combined type multi stage comprises a multi stage.

Detailed Description

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

For convenience of description, the words "up", "down", "left" and "right" in the present invention, if any, merely indicate correspondence with up, down, left and right directions of the drawings themselves, and do not limit the structure, but merely facilitate the description of the invention and simplify the description, rather than indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As introduced in the background art, in the existing high-altitude rescue training of the power transmission line, a teacher can only guide on the ground and cannot perform approach guidance and dangerous condition treatment of trained personnel.

In an exemplary embodiment of the present application, as shown in fig. 1 to 7, a power transmission line high-altitude rescue training rack is configured to be disposed between two training power transmission line towers, a direction of a connection line of the two training power transmission line towers is located as a first direction, the power transmission line high-altitude rescue training rack includes a first frame body and a second frame body fixed on a ground base, the first frame body and the second frame body are configured to be disposed between the two training power transmission line towers, and the connection line thereof is disposed along the first direction, a corridor structure is fixed on top portions of the first frame body and the second frame body, a setting height of the corridor structure is slightly lower than a lowest point of a wire height between the two training power transmission line towers, that is, the corridor structure is located below the lowest point of a corresponding wire between the two training power transmission line towers.

The corridor structure comprises a first corridor 1 and a second corridor 2 which are arranged in parallel from top to bottom, and two ends of the first corridor and two ends of the second corridor are fixedly connected with the first framework body and the second framework body respectively. First corridor and second corridor all include the bottom plate that is used for the instructor to walk, all are fixed with the third guardrail along two edges of bottom plate of first direction, and the third guardrail is used for preventing that training personnel from falling from first corridor or second corridor.

First framework includes four first stands 3, first stand adopts zinc-plated square pipe, and first corridor and second corridor one end all pass the space between four first stands, and the both sides face in first corridor and second corridor respectively with the top side welded fastening of four first stands.

And reinforcing beams are welded and fixed between the parts of the first corridor and the second corridor, which extend out of the first frame body, and the two first stand columns positioned on the outer side, so that the connecting strength between the first corridor and the first frame body, and the connecting strength between the second corridor and the first frame body are enhanced.

Four first stands between be equipped with parallel arrangement's first workstation I4 and first workstation II 5 from top to bottom, first workstation I and first workstation II are located the second and walk corridor below, first workstation I and first workstation II and four first stand welded fastening, the edge of first direction is fixed with first guardrail along first direction with first workstation II, first guardrail is used for preventing that training personnel from falling from first workstation I and first workstation II.

Two first stand fixedly connected with cat ladders 18 that are located the outside, I position department of first workstation is reachd on the cat ladder top, and training personnel can climb on first workstation I and first workstation II through the cat ladder. An inlet used for a worker to enter is formed in the first guardrails of the first working table I and the first working table II at the corresponding crawling ladder.

The cat ladder periphery is equipped with second guardrail 21 and protects training personnel when training personnel scrambles the cat ladder, leaves the breach in second guardrail bottom for training personnel get into inside the second guardrail.

The second frame body includes four second stands 6, the second stand adopts zinc-plated side pipe, is provided with two between two second stands that are close to first frame body and strengthens stand 7, it also adopts zinc-plated side pipe to strengthen the stand, the tip and two enhancement stand welded fastening in first corridor and second corridor realize corridor structure tip and the side fixed connection that the second frame body is close to first frame body.

The space between four second stands is provided with the stair, first corridor position department is arrived at the stair top, and training personnel can get into first corridor and second corridor through the stair.

The stair comprise a plurality of stair units 8 from bottom to top, the stair units are arranged obliquely upwards, sixth guardrails are arranged on two sides of each stair unit and used for preventing training personnel from falling when climbing the stair, in the adjacent stair units, the top of one stair unit is connected with the bottom of the other stair unit, a connecting channel plate 9 is arranged between the adjacent stair units, and the training personnel can enter the other stair unit from one stair unit through the connecting channel plate. And the connecting channel plates at two ends of the same stair unit are welded and fixed with the second upright post and the reinforcing upright post. The trainers can enter the first corridor and the second corridor through the connecting channel plates at the ends of the first corridor and the second corridor.

Two second stands and two enhancement stands welded fastening that are close to first frame body have second workstation I10 and second workstation II 11 of parallel arrangement from top to bottom, and second workstation I and second workstation II are located the second and walk corridor below, second workstation I is the same with first workstation I height, and second workstation II is the same with II highly advanced of first workstation.

Insulator string hitching mechanisms are arranged on the first workbench I, the first workbench II, the second workbench I and the second workbench II, the insulator string hitching mechanisms adopt the existing insulator string hitching mechanisms, and the specific structure of the insulator string hitching mechanisms is not described in detail herein.

Be connected with four-bundled conductor 19 between first workstation I and the second workstation I, four-bundled conductor both ends all are connected with insulator chain, and four-bundled conductor both ends articulate the mechanism through insulator chain and insulator and articulate respectively with first workstation I and second workstation I and be connected.

Be connected with binary split wire 18 between first workstation II and the second workstation II, binary split wire both ends all are connected with the insulator chain, and binary split wire both ends articulate the mechanism through insulator chain and insulator and articulate respectively with first workstation II and second workstation II and be connected.

Two second stand lateral surfaces welded fastening that the first frame body was kept away from to the second frame body have the width to be greater than the third workstation in first corridor and second corridor, the third workstation has two, and be parallel arrangement's third workstation I12 and third workstation II 13 from top to bottom respectively, the height of third workstation I is the same with the height in first corridor, and the height of third workstation II is the same with the height in second corridor, is provided with the stiffening beam between third workstation I and the second stand, is provided with the stiffening beam between third workstation II and the second stand, and third workstation I and II outside edges of third workstation are provided with the fourth guardrail for prevent that training personnel from falling from the third workstation.

And an inlet channel plate 14 is arranged at a position between four corresponding second upright columns at the positions of the third workbench I and the third workbench II, the inlet channel plate avoids the position of the stair unit and is connected with a connecting channel plate and a corridor structure at the corresponding position, and training personnel can enter the third workbench through the connecting channel plate. And a fifth guardrail is arranged at the edge of the inlet channel plate and used for preventing the trainers from falling from the inlet channel plate.

Training personnel can reach the third workstation I or the second connecting channel plate department of third workstation II position department through the stair unit, then get into third workstation I or third workstation II through connecting channel plate, and training personnel also can get into the import passageway plate through connecting channel plate, then get into first corridor or second corridor through the import passageway plate.

The bottom surface of the third workbench II is connected with a shaft rescue mechanism, the shaft rescue mechanism comprises a first shaft 15 with a circular cross section and a second shaft 16 with a square cross section, the top ends of the first shaft and the second shaft are fixedly connected with the bottom surface of the third workbench II, the bottom ends of the first shaft and the second shaft have a set distance with a ground foundation, and the shaft rescue mechanism is used for rescue exercise of trapped people in a limited space.

The middle position in first corridor and second corridor and the top fixed connection of middle part support frame, the middle part support frame includes four third stands 17, the third stand adopts zinc-plated side's pipe, and first corridor and second corridor pass the space between four third stands, and with four third stand welded fastening.

In this embodiment, the bottom ends of the first, second, third and reinforcing columns are all connected with the ground foundation through a reinforced concrete base 20, and the reinforced concrete base is arranged in a pit hole preset in the ground foundation.

Example 2:

the embodiment discloses a transmission line high altitude rescue training system, which comprises two transmission line iron towers for training and a transmission line high altitude rescue training rack arranged between the two transmission line iron towers, wherein a corridor structure is arranged below the lowest point of a corresponding wire between the two transmission line iron towers for training.

When the trainee walks the line training or when simulation operation personnel are stranded wire and high altitude suspension and carry out high altitude rescue training on the wire between two transmission line towers, the instructor gets into first corridor or second corridor through the stair, can get into each training operation face easily, closes on the instruction to the trainee, and the accessible communicates with the trainee, can discover the error operation of the trainee at any time and in time correct, avoids the emergence of incident. When the trainees are in a dangerous state and have no self-care ability, the instructor and the guardian can quickly and safely assist.

The trainees can also enter the quadripartion lead or the quadripartion lead through the first workbench I or the first workbench II to train, and the height of the quadripartion lead are lower, so that primary high-altitude rescue trainees can train on the quadripartion lead or the quadripartion lead in an adaptive manner.

The trainees can also carry out rescue exercises of people trapped in the underground cable tunnel through the first shaft or the second shaft.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, it is not intended to limit the scope of the present invention, and it should be understood by those skilled in the art that various modifications and variations can be made without inventive efforts by those skilled in the art based on the technical solution of the present invention.

Claims (10)

1. The utility model provides a transmission line is rack for high altitude rescue training, a serial communication port, including being used for setting up first frame body and the second frame body between two training power transmission line iron towers, be fixed with the corridor structure between first frame body and the second frame body top, first frame body is equipped with a plurality of first workstations that are located corridor structure below and distribute from top to bottom, be equipped with a plurality of second workstations that distribute from top to bottom and correspond with first workstation position on the second frame body, the second workstation is located corridor structure below, is connected with the wire of different quantity splits between corresponding first workstation and the second workstation, first frame body lateral surface is connected with the cat ladder, and the personnel of receiving can get into first workstation through the cat ladder, the internal portion of second frame is equipped with stair, and the instructor can get into corridor structure through stair.

2. The rack for power transmission line high altitude rescue training of claim 1, wherein the first frame body comprises a plurality of first upright columns, the corridor structure passes through the space between the plurality of first upright columns and is fixedly connected with the side surfaces of the tops of the plurality of first upright columns, the bottom ends of the first upright columns are fixedly connected with the first base, and the first base is used for being fixed on a ground foundation.

3. The rack for high altitude rescue training of the power transmission line as claimed in claim 2, wherein the first workbench is disposed in a space between the plurality of first columns, and the first workbench is fixedly connected with the first columns.

4. The rack of claim 1, wherein the second frame comprises a plurality of second vertical posts, bottom ends of the second vertical posts are fixed on a second base, the second base is used for being fixed on a ground foundation, the stairs are arranged in spaces among the plurality of vertical posts, and the second workbench is fixed on the second vertical posts close to the first frame.

5. The rack of claim 1, wherein the corridor structure comprises a first corridor and a second corridor which are arranged up and down, and two ends of the first corridor and the second corridor are fixedly connected with the top of the first frame body and the top of the second frame body respectively.

6. The rack of claim 1, wherein the top of the second frame is fixed to one end of the corridor structure near the first frame, the other side of the second frame is fixed to a third working platform, a trainee can enter the third working platform through a staircase, and a shaft rescue mechanism is fixed to the bottom end of the third working platform.

7. The rack for power transmission line high altitude rescue training of claim 6, wherein the shaft rescue mechanism comprises a first shaft with a circular section and a second shaft with a square section, the top ends of the first shaft and the second shaft are connected with a third workbench, the bottom ends of the first shaft and the second shaft are located above a ground foundation for a set distance, and the shaft rescue mechanism is used for rescue training of trapped people in a limited space.

8. The rack for high altitude rescue training of the power transmission line according to claim 1, wherein insulator strings are connected to two ends of the wire, and the insulator strings at the two ends of the wire are respectively connected with the first workbench and the second workbench in a hanging manner.

9. The rack of claim 1, wherein the middle part of the corridor structure is fixedly connected with the top end of the middle support frame, and the bottom end of the middle support frame is fixed on the ground foundation.

10. A training system for high-altitude rescue of power transmission lines, which is characterized by comprising two power transmission line towers for training and the rack for high-altitude rescue training of power transmission lines, wherein the rack is arranged between the two power transmission line towers for training and is according to any one of claims 1 to 9, a lead is connected between the two power transmission line towers for training, and a corridor structure is positioned below the lowest point of the lead between the two power transmission line towers for training.

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