CN112490942A - Using method of stringing construction equipment for power transmission technology - Google Patents

Abstract

The invention relates to stringing construction equipment, in particular to a using method of stringing construction equipment for a power transmission technology, which comprises the following steps: s1: the utility model provides a power transmission is overhead line construction auxiliary assembly for technique, power transmission is overhead line construction auxiliary assembly for technique includes the basket, wherein: equal fixed mounting in basket top four corners drop department has the curb plate, the equal rotatable drive axle of installing in opposite side of curb plate, S2: dismantle the bolt and take out the horizontal pole, install overhead line construction auxiliary assembly for the transmission of electricity technique on outside overhead transmission line' S wire, S3: starting a driving motor, driving the overhead line construction auxiliary equipment along a conducting wire by using the power transmission technology, and arranging a basket body, a side plate, a driving wheel shaft, a driving wheel, a driving motor and a chain wheel and chain transmission mechanism; the chain wheel and chain transmission mechanism drives the driving wheel shafts at two ends to rotate, so that the flying vehicle can run on the lead without being driven by manpower.

Description

Using method of stringing construction equipment for power transmission technology

Technical Field

The invention relates to stringing construction equipment, in particular to a using method of stringing construction equipment for a power transmission technology.

Background

The existing overhead line construction auxiliary equipment for the power transmission technology is a flying vehicle, wherein a lead of an overhead power transmission line is used as a running track, a friction wheel is driven by manpower or a power device, the flying vehicle runs on the lead by the friction force between the friction wheel and the lead, and the flying vehicle can be used for occasions such as overhead line construction, line maintenance and the like in the power transmission engineering.

According to the existing frame type galloping vehicle, due to the fact that the friction wheels are driven by manpower, labor intensity of constructors is increased, the constructors are prone to exhaustion, and meanwhile the constructors operate in the air, safety risks are increased for stringing construction, and therefore the using method of stringing construction auxiliary equipment for the power transmission technology is provided.

Disclosure of Invention

The invention aims to solve the defect that safety risk is increased by manually driving the stringing construction auxiliary equipment for the power transmission technology in the prior art, and provides stringing construction auxiliary equipment for the power transmission technology.

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

the use method of the stringing construction equipment for the power transmission technology is designed, and comprises the following steps:

s1: provided is overhead line construction auxiliary equipment for power transmission technology, the overhead line construction auxiliary equipment for power transmission technology comprising a basket body, wherein:

side plates are fixedly arranged at the four corners of the top of the basket body, driving wheel shafts are rotatably arranged on the opposite sides of the side plates, a space is reserved between the two driving wheel shafts positioned on the same side, driving wheels are fixedly arranged on the driving wheel shafts, a cross rod is arranged between the two driving wheel shafts positioned on the same side, a rectangular through hole is formed in the cross rod, bolts are arranged on two sides in the rectangular through hole, the bolts penetrate through the cross rod and are in threaded connection with the driving wheel shafts, a box body is fixedly arranged in the basket body, a pipeline is communicated with one side of the box body, one end of the pipeline extends out of the basket body, a driving motor is fixedly arranged in the box body, an output shaft of the driving motor penetrates through the pipeline, the driving wheel shafts positioned on one side penetrate through the side plates, and the driving motor is driven, vertical plates are fixedly mounted on two sides of the top of the basket body, split shaft shafts are rotatably mounted on opposite sides of the two vertical plates, a distributing wheel is fixedly mounted at the end of each split shaft, and the driving wheel and the distributing wheel are respectively positioned on a lead of an external overhead transmission line;

s2: disassembling the bolts and taking out the cross rod, installing the overhead line construction auxiliary equipment for the power transmission technology on a lead of an external overhead power transmission line, then installing the cross rod between two driving wheel shafts, and enabling constructors to enter the basket body and stand on the basket body;

s3: and starting the driving motor, driving the driving wheel shafts at two ends to rotate through the chain wheel and chain transmission mechanism, and enabling the overhead line construction auxiliary equipment for the power transmission technology to run along the lead.

S4: when the overhead line construction auxiliary equipment for the power transmission technology runs to a belt maintenance position, the driving motor is turned off, and the driving wheel, the branching wheel and the lead are quickly braked through friction force between the driving wheel and the lead;

s5: and after the overhaul is finished, starting the driving motor and driving the overhead line construction auxiliary equipment for the power transmission technology to return to the original position, disassembling the bolt and taking out the cross rod, and taking down the overhead line construction auxiliary equipment for the power transmission technology on a lead of an external overhead power transmission line.

Preferably, the opposite sides of the two vertical plates are fixedly provided with supporting blocks, the two supporting blocks are provided with cleaning mechanisms respectively, each cleaning mechanism comprises an L-shaped supporting plate, one end of each L-shaped supporting plate is fixedly arranged on one side of the corresponding supporting block, the lower end of each L-shaped supporting plate is provided with a supporting plate, the supporting plates are provided with two groups of clamping mechanisms, the two groups of clamping mechanisms are arranged in a mirror image mode, each clamping mechanism comprises an arc-shaped clamping plate, the arc-shaped clamping plate is positioned at the lower end of the corresponding supporting plate, the inner ring side of each arc-shaped clamping plate is fixedly connected with a water absorption cotton layer, the outer side of each arc-shaped clamping plate is fixedly provided with a clamping arm, one side of each supporting plate is rotatably provided with a first rotating shaft, each first rotating shaft is fixedly provided with a first incomplete gear, the clamping mechanism comprises a support plate, a first hinge rod, a second hinge rod, a first rotating shaft, a second rotating shaft, a first gear, a second rotating shaft, a screw rod and a clamping arm, wherein the two ends of the first hinge rod are respectively hinged with the first rotating shaft and the clamping arm, the lower ends of the two sides of the support plate are respectively hinged with the second hinge rod, one end of the second hinge rod is hinged with the middle section of the clamping arm, the first rotating shaft in one group of the clamping mechanisms penetrates through the support plate, one end of the first rotating shaft is fixedly provided with the first gear, the support plate is rotatably provided with the second rotating shaft, the second rotating shaft is fixedly provided with the second gear, the second gear is meshed with;

before the driving motor is started in the step S3, the method comprises the following steps:

s31: when water stains are on the surface of a lead of an external overhead transmission line, the screw rod is rotated and detached, the rotating handle is manually rotated anticlockwise, the rotating handle, the second rotating shaft and the second gear are integrally arranged, so that the second gear rotates and drives the first gear to rotate clockwise, the first gear, the first rotating shaft and the first incomplete gear are integrally arranged, so that the two first incomplete gears synchronously rotate and are opposite in steering, the first hinge rod and the second hinge rod are matched to realize that two arc-shaped clamping plates at the front end of the clamping arm move close to each other, and water-absorbing cotton layers on two sides are attached to the lead;

s32: and the screw rod is connected to the support plate, and the screw rod can limit the rotating handle to prevent the rotating handle from rotating clockwise.

Preferably, the top end of the support plate is provided with a swing mechanism, the swing mechanism comprises a round rod, the round rod is fixedly arranged at the top end of the support plate, the round bar is provided with two sections of thread lines which are arranged at intervals, the round bar is sleeved with a movable sleeve, the movable sleeve can move along the round rod, the round rod is in threaded connection with a limiting threaded sleeve, the limiting threaded sleeve can be in threaded connection with the two sections of thread lines, when the device is not in operation, the movable sleeve is positioned at the lower end of the round rod, the limiting threaded sleeve is connected on a threaded line at the lower end through threads, the limiting threaded sleeve is clamped above the movable sleeve, the lower end of the L-shaped supporting plate is fixedly provided with a first motor, an output shaft of the first motor penetrates through the L-shaped supporting plate, a third hinge rod is arranged between the end part of the output shaft of the first motor and the movable sleeve, two ends of the third hinge rod are respectively hinged on the movable sleeve and the end part of the output shaft of the first motor;

in the step S32, the method further includes the following steps after the screw rod is connected to the carrier plate:

s321: rotating the limiting threaded sleeve and connecting the limiting threaded sleeve to a threaded line at the upper end in a threaded manner;

s322: the automatic water absorption device is characterized by comprising a first motor, wherein the first motor drives a third hinge rod to rotate and is matched with a round rod and a movable sleeve, the movable sleeve can move along the round rod, the movable sleeve moves between two sections of thread lines, cleaning mechanisms on the round rod, a support plate and the support plate are connected into a whole, the movable sleeve moves along the round rod, the round rod swings with a wire as a central point, and the water absorption cotton layers on the surfaces of the wire rotate in a reciprocating mode.

Preferably, an intermittent driving mechanism is arranged on one side of the carrier plate, the intermittent driving mechanism comprises a third rotating shaft, one end of the third rotating shaft is rotatably mounted on the carrier plate, a second incomplete gear is fixedly mounted on the third rotating shaft, the second incomplete gear can be meshed with the first gear, a fourth rotating shaft is rotatably mounted on one side of the carrier plate, a third incomplete gear is fixedly mounted on the fourth rotating shaft, the third incomplete gear can be meshed with the first gear, reversing gears are fixedly mounted at the end parts of the third rotating shaft and the fourth rotating shaft, the two reversing gears are meshed, a motor base is fixedly mounted on the carrier plate, a second motor is fixedly mounted on the motor base, and an output shaft of the second motor is fixedly connected with one of the reversing gears;

after the first motor is started in S322, the method further includes the following steps:

s3221: after the absorbent cotton layer absorbs water stains for a period of time, the second motor is started to drive one of the reversing gears to rotate, the two reversing gears are meshed with each other, the rotating speeds of the two reversing gears are the same, the two reversing gears are opposite in rotation, the second incomplete gear on the third rotating shaft and the third incomplete gear on the fourth rotating shaft synchronously rotate and are opposite in rotation, after the second motor works for a period of time, the second incomplete gear is firstly meshed with the first gear and drives the first gear to rotate clockwise, so that the distance between the absorbent cotton layers on the two sides is reduced, the absorbent cotton layer is tightly attached to the wires, the absorbent cotton layer is extruded by the wires and extracts moisture in the absorbent cotton layer, then the third incomplete gear is meshed with the first gear again and drives the first gear to rotate in the reverse direction, and the distance between the absorbent cotton layer and the wires is increased, the absorbent cotton layer is not squeezed by the wires any more and returns to the original shape, and then the cycle is repeated.

Preferably, the basket body is made of stainless steel, and a plurality of reinforcing rods are fixedly mounted on the basket body.

The use method of the stringing construction equipment for the power transmission technology has the beneficial effects that: the basket body, the side plates, the driving wheel shaft, the driving wheel, the driving motor and the chain wheel and chain transmission mechanism are arranged; before the device works, the bolts are disassembled and the cross rods are taken out, the device is installed on a lead of an external overhead transmission line, then the cross rods are installed between two driving wheel shafts, a constructor stands in a basket body, and a driving motor is started to drive the driving wheel shafts at two ends to rotate through a chain wheel and chain transmission mechanism, so that the runaway is realized on the lead without being driven by manpower.

Drawings

Fig. 1 is a schematic structural diagram of a method for using stringing construction equipment for power transmission technology according to the present invention.

Fig. 2 is a side view of a method of using the stringing construction equipment for power transmission technology according to the present invention.

Fig. 3 is a working schematic diagram of a using method of the stringing construction equipment for power transmission technology provided by the invention.

Fig. 4 is an enlarged structural schematic diagram of a cleaning mechanism of a method for using the stringing construction equipment for power transmission technology according to the present invention.

Fig. 5 is a partially enlarged schematic view of fig. 4 illustrating a method of using the stringing construction apparatus for power transmission technology according to the present invention.

Fig. 6 is an enlarged schematic view of a swing mechanism of a method for using the stringing construction equipment for power transmission technology according to the present invention.

Fig. 7 is a cross-sectional view of an intermittent drive mechanism of a method of using the stringing construction equipment for power transmission technology according to the present invention.

In the figure: the device comprises a basket body 1, side plates 2, a driving wheel shaft 3, a driving wheel 4, a cross bar 5, a rectangular through opening 6, bolts 7, a box body 8, a pipeline 9, a driving motor 10, a chain wheel and chain transmission mechanism 11, a vertical plate 12, a branching wheel shaft 13, a branching wheel 14, a supporting block 15, an L-shaped supporting plate 16, a supporting plate 17, an arc-shaped clamping plate 18, a water absorption cotton layer 19, a clamping arm 20, a first rotating shaft 21, a first incomplete gear 22, a first hinged rod 23, a second hinged rod 24, a first gear 25, a second rotating shaft 26, a second gear 27, a rotating handle 28, a screw 29, a round rod 30, a thread 31, a movable sleeve 32, a limiting thread sleeve 33, a first motor 34, a third hinged rod 35, a third rotating shaft 36, a second incomplete gear 37, a fourth rotating shaft 38, a third incomplete gear 39, a reversing gear 40, a motor seat 41, a second motor 42, a conducting wire 43 and a reinforcing rod 44.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1:

referring to fig. 1 to 7, a method for using stringing construction equipment for power transmission technology includes the following steps:

s1: provided is a stringing construction auxiliary device for a power transmission technology, which includes a housing 1, wherein:

side plates 2 are fixedly arranged at four corners of the top of the basket body 1, driving wheel shafts 3 are rotatably arranged on opposite sides of the side plates 2, a space is reserved between the two driving wheel shafts 3 on the same side, driving wheels 4 are fixedly arranged on the driving wheel shafts 3, cross rods 5 are arranged between the two driving wheel shafts 3 on the same side, rectangular through holes 6 are formed in the cross rods 5, bolts 7 are arranged on two sides in the rectangular through holes 6, the bolts 7 penetrate through the cross rods 5 and are connected to the driving wheel shafts 3 in a threaded manner, a box body 8 is fixedly arranged in the basket body 1, one side of the box body 8 is communicated with a pipeline 9, one end of the pipeline 9 extends out of the basket body 1, a driving motor 10 is fixedly arranged in the box body 8, an output shaft of the driving motor 10 penetrates through the pipeline 9, the driving wheel shaft 3 on one side penetrates through the side plates 2, and the driving, vertical plates 12 are fixedly arranged on two sides of the top of the basket body 1, branch line shafts 13 are rotatably arranged on opposite sides of the two vertical plates 12, branch line wheels 14 are fixedly arranged at the end parts of the branch line shafts 13, and the driving wheels 4 and the branch line wheels 14 are respectively positioned on wires 43 of an external overhead transmission line;

s2: disassembling the bolt 7 and taking out the cross rod 5, installing overhead line construction auxiliary equipment for power transmission technology on a lead 43 of an external overhead power transmission line, then installing the cross rod 5 between two driving wheel shafts 3, and enabling constructors to enter the basket body 1 and stand on the basket body 1;

s3: the driving motor 10 is started, the driving wheel shafts 3 at two ends are driven to rotate through the chain wheel and chain transmission mechanism 11, and the overhead line construction auxiliary equipment for the power transmission technology runs along the conducting wire 43.

S4: when the overhead line construction auxiliary equipment for the power transmission technology runs to a belt maintenance position, the driving motor 10 is turned off, and the friction force between the driving wheel 4 and the distributing wheel 14 and the conducting wire 43 is used for performing rapid braking;

s5: after the maintenance is finished, the driving motor 10 is started and drives the overhead line construction auxiliary equipment for the power transmission technology to return to the original position, the bolt 7 is disassembled, the cross rod 5 is taken out, and the overhead line construction auxiliary equipment for the power transmission technology is taken down from the lead 43 of the external overhead power transmission line.

Before the device works, the bolt 7 is detached, the cross rod 5 is taken out, the device is installed on a lead 43 of an external overhead transmission line, the cross rod 5 is installed between two driving wheel shafts 3, a constructor stands in a basket body 1, and the driving motor 10 is started to drive the driving wheel shafts 3 at two ends to rotate through the chain wheel and chain transmission mechanism 11, so that the flying vehicle can run on the lead 43 without being driven by manpower.

The basket body 1 is made of stainless steel, the basket body 1 has high strength and bending resistance, a plurality of reinforcing rods 44 are fixedly arranged on the basket body 1, and the reinforcing rods 44 can enhance the bearing capacity of the basket body 1.

Example 2:

when the device is used in an environment with high humidity or in rainy weather, the friction between the driving wheel 4 and the lead 43 in embodiment 1 is reduced due to the water droplets remaining on the lead 43 of the external overhead power transmission line, which may affect the driving performance of the device and increase the braking distance of the device.

Referring to fig. 1-7, as another preferred embodiment of the present invention, the difference from embodiment 1 is that two supporting blocks 15 are fixedly installed on opposite sides of two vertical plates 12, a cleaning mechanism is installed on each of the two supporting blocks 15, the cleaning mechanism includes an L-shaped supporting plate 16, one end of the L-shaped supporting plate 16 is fixedly installed on one side of the supporting block 15, a supporting plate 17 is installed at the lower end of the L-shaped supporting plate 16, two sets of clamping mechanisms are installed on the supporting plate 17, the two sets of clamping mechanisms are arranged in a mirror image manner, the clamping mechanisms include an arc-shaped clamping plate 18, the arc-shaped clamping plate 18 is located at the lower end of the supporting plate 17, a water absorbent cotton layer 19 is fixedly connected to the inner circumferential side of the arc-shaped clamping plate 18, a clamping arm 20 is fixedly installed on the outer side of the arc-shaped clamping plate 18, a first, a first hinge rod 23 is arranged between the end part of the clamping arm 20 and the end part of the first rotating shaft 21, two ends of the first hinge rod 23 are respectively hinged with the first rotating shaft 21 and the clamping arm 20, the lower ends of two sides of the support plate 17 are respectively hinged with a second hinge rod 24, one end of the second hinge rod 24 is hinged with the middle section of the clamping arm 20, the first rotating shaft 21 of one group of clamping mechanisms penetrates through the support plate 17, one end of the first rotating shaft 21 is fixedly provided with a first gear 25, the support plate 17 is rotatably provided with a second rotating shaft 26, the second rotating shaft 26 is fixedly provided with a second gear 27, the second gear 27 is meshed with the first gear 25, the second rotating shaft 26 is fixedly provided with a rotating handle 28, the support plate 17 is provided with a screw 29, and one end of the screw;

before the driving motor 10 is started in S3, the method includes the following steps:

s31: when water stains are on the surface of a lead 43 of an external overhead transmission line, the screw 29 is rotated and detached, the rotating handle 28 is manually rotated anticlockwise, the rotating handle 28, the second rotating shaft 26 and the second gear 27 are integrally arranged, so that the second gear 27 rotates and drives the first gear 25 to rotate clockwise, the first gear 25, the first rotating shaft 21 and the first incomplete gear 22 are integrally arranged, the two first incomplete gears 22 synchronously rotate and reverse in rotation, the two arc-shaped clamping plates 18 at the front ends of the clamping arms 20 move close to each other by matching with the first hinge rod 23 and the second hinge rod 24, and the water absorption cotton layers 19 on the two sides are attached to the lead 43;

s32: the screw 29 is connected to the carrier plate 17, and the screw 29 can limit the rotation handle 28 to prevent the rotation handle 28 from rotating clockwise.

The top end of the carrier plate 17 is provided with a swing mechanism, the swing mechanism comprises a round rod 30, the round rod 30 is fixedly arranged at the top end of the carrier plate 17, two sections of thread lines 31 are arranged on the round rod 30, the two sections of thread lines 31 are arranged at intervals, a movable sleeve 32 is sleeved on the round rod 30, the movable sleeve 32 can move along the round rod 30, a limit thread sleeve 33 is connected on the round rod 30 in a threaded manner, the limit thread sleeve 33 can be connected with the two sections of thread lines 31 in a threaded manner, when the device is not in operation, the movable sleeve 32 is positioned at the lower end of the round rod 30, the limit threaded sleeve 33 is connected on the thread line 31 at the lower end in a threaded manner, the limiting threaded sleeve 33 is clamped above the movable sleeve 32, the lower end of the L-shaped support plate 16 is fixedly provided with a first motor 34, an output shaft of the first motor 34 penetrates through the L-shaped support plate 16, a third hinge rod 35 is arranged between the end part of the output shaft of the first motor 34 and the movable sleeve 32, and two ends of the third hinge rod 35 are respectively hinged to the movable sleeve 32 and the end part of the output shaft of the first motor 34;

the step of connecting the screw 29 to the carrier plate 17 in S32 further includes the following steps:

s321: the limiting threaded sleeve 33 is rotated and the limiting threaded sleeve 33 is connected to the thread line 31 at the upper end in a threaded manner;

s322: the first motor 34 is started, the first motor 34 drives the third hinge rod 35 to rotate, the round rod 30 and the movable sleeve 32 are matched, the movable sleeve 32 can move along the round rod 30, the movable sleeve 32 moves between the two sections of thread lines 31, the round rod 30, the support plate 17 and the cleaning mechanism on the support plate 17 are connected into a whole, the movable sleeve 32 moves along the round rod 30, the round rod 30 swings by taking the lead 43 as a central point, and the water absorption cotton layers 19 on the two sides rotate on the surface of the lead 43 in a reciprocating mode.

An intermittent driving mechanism is arranged on one side of the carrier plate 17, the intermittent driving mechanism comprises a third rotating shaft 36, one end of the third rotating shaft 36 is rotatably arranged on the carrier plate 17, a second incomplete gear 37 is fixedly arranged on the third rotating shaft 36, the second incomplete gear 37 can be meshed with the first gear 25, a fourth rotating shaft 38 is rotatably arranged on one side of the carrier plate 17, a third incomplete gear 39 is fixedly arranged on the fourth rotating shaft 38, the third incomplete gear 39 can be meshed with the first gear 25, reversing gears 40 are fixedly arranged at the end parts of the third rotating shaft 36 and the fourth rotating shaft 38, the two reversing gears 40 are meshed, a motor base 41 is fixedly arranged on the carrier plate 17, a second motor 42 is fixedly arranged on the motor base 41, and an output shaft of the second motor 42 is fixedly connected with one of the reversing gears 40;

after the first motor 34 is started in S322, the method further includes the following steps:

s3221: after the absorbent cotton layer 19 absorbs water stains for a period of time, the second motor 42 is started to drive one of the reversing gears 40 to rotate, the two reversing gears 40 are meshed, the rotating speeds of the two reversing gears 40 are the same, the rotating directions are opposite, the second incomplete gear 37 on the third rotating shaft 36 and the third incomplete gear 39 on the fourth rotating shaft 38 synchronously rotate, the rotating directions are opposite, after the second motor 42 works for a period of time, the second incomplete gear 37 is firstly meshed with the first gear 25 and drives the first gear 25 to rotate clockwise, so that the space between the absorbent cotton layers 19 on the two sides is reduced, the joint between the absorbent cotton layers 19 and the conducting wires 43 is tighter, the absorbent cotton layers 19 are squeezed by the conducting wires 43 and squeeze out moisture in the absorbent cotton layers 19, then the third incomplete gear 39 is meshed with the first gear 25 again and drives the first gear 25 to rotate reversely, so that the space between the absorbent cotton layers 19 and the conducting wires 43 is increased, the absorbent cotton layer 19 is not pressed by the conductive wire 43 any more and returns to its original shape, and then is circulated repeatedly.

The working principle is as follows: before the device works, the bolt 7 is detached, the cross rod 5 is taken out, the device is installed on a lead 43 of an external overhead transmission line, the cross rod 5 is installed between two driving wheel shafts 3 as shown in a drawing of the specification, a constructor stands in a basket body 1, and a driving motor 10 is started to drive the driving wheel shafts 3 at two ends to rotate through a chain wheel and chain transmission mechanism 11, so that the flying vehicle can run on the lead 43 without being driven by manpower; by arranging the cleaning mechanism, the screw 29 is rotated and disassembled, so that the screw 29 does not limit the position of the rotating handle 28 any more, the rotating handle 28 is manually rotated anticlockwise, the rotating handle 28, the second rotating shaft 26 and the second gear 27 are integrally arranged, so that the second gear 27 rotates and drives the first gear 25 to rotate clockwise, the first gear 25, the first rotating shaft 21 and the first incomplete gear 22 are integrally arranged, so that the two first incomplete gears 22 rotate synchronously and rotate in opposite directions, the two arc-shaped clamping plates 18 at the front ends of the clamping arms 20 move close to each other by matching the first articulated rod 23 and the second articulated rod 24, so that the water-absorbing cotton layers 19 on the two sides are attached to the conducting wires 43, the water-absorbing cotton layers 19 can absorb water drops on the conducting wires 43 through the movement of the device, the screw rods 29 are connected to the support plate 17, the screw 29 can limit the rotating handle 28 to prevent the rotating handle 28 from rotating clockwise, so that the distance between the two arc-shaped clamping plates 18 cannot be increased; by arranging the swinging mechanism, after the water absorption cotton layers 19 on the two sides are attached to the conducting wires 43, the limiting threaded sleeve 33 is rotated and is in threaded connection with the threaded line 31 at the upper end, the first motor 34 is started to rotate and drive the third hinged rod 35 to rotate, the round rod 30 and the movable sleeve 32 are matched, the movable sleeve 32 can move along the round rod 30 and move between the two sections of threaded lines 31, the round rod 30, the supporting plate 17 and the cleaning mechanism on the supporting plate 17 are connected into a whole, the movable sleeve 32 moves along the round rod 30, the round rod 30 swings by taking the conducting wires 43 as a central point, so that the water absorption cotton layers 19 on the two sides rotate on the surfaces of the conducting wires 43 in a reciprocating mode, and the water absorption cotton layers 19 can completely absorb water stains on the surfaces of the conducting wires 43; by arranging the intermittent driving mechanism, after the absorbent cotton layer 19 absorbs water stains for a period of time, the second motor 42 can be started to drive one of the reversing gears 40 to rotate, the two reversing gears 40 are meshed, the rotating speeds of the two reversing gears 40 are the same, the rotating directions are opposite, namely the second incomplete gear 37 on the third rotating shaft 36 and the third incomplete gear 39 on the fourth rotating shaft 38 synchronously rotate and the rotating directions are opposite, after the second motor 42 is started for a period of time, the second incomplete gear 37 is firstly meshed with the first gear 25 and drives the first gear 25 to rotate clockwise, so that the distance between the absorbent cotton layers 19 at two sides is reduced, the absorbent cotton layer 19 is tightly jointed with the wires 43, the absorbent cotton layer 19 is squeezed by the wires 43 and squeezes out water in the absorbent cotton layer 19, then the third incomplete gear 39 is meshed with the first gear 25 again and drives the first gear 25 to rotate reversely, so that the distance between the absorbent cotton layer 19 and the conductive wire 43 is increased, and the absorbent cotton layer 19 is not squeezed by the conductive wire 43 any more and returns to its original shape, and then is circulated repeatedly, thereby reducing the moisture content in the absorbent cotton layer 19.

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

Claims (5)

1. The use method of the stringing construction equipment for the power transmission technology is characterized by comprising the following steps of:

s1: provided is a stringing construction auxiliary device for power transmission technology, which comprises a housing (1), wherein:

the basket is characterized in that side plates (2) are fixedly arranged at four corners of the top of the basket body (1), driving wheel shafts (3) are rotatably arranged on opposite sides of the side plates (2), a space is reserved between the two driving wheel shafts (3) on the same side, driving wheels (4) are fixedly arranged on the driving wheel shafts (3), a cross rod (5) is arranged between the two driving wheel shafts (3) on the same side, a rectangular through hole (6) is formed in the cross rod (5), bolts (7) are arranged on two sides in the rectangular through hole (6), the bolts (7) penetrate through the cross rod (5) and are in threaded connection with the driving wheel shafts (3), a box body (8) is fixedly arranged in the basket body (1), a pipeline (9) is communicated with one side of the box body (8), one end of the pipeline (9) extends out of the basket body (1), and a driving motor (10) is fixedly arranged in the box body (8), an output shaft of the driving motor (10) penetrates through a pipeline (9), the driving wheel shaft (3) positioned on one side penetrates through a side plate (2), the driving motor (10) is driven to the driving wheel shafts (3) at two ends through two groups of chain wheel and chain transmission mechanisms (11), vertical plates (12) are fixedly installed on two sides of the top of the basket body (1), branch shafts (13) are rotatably installed on two opposite sides of the two vertical plates (12), branch wheels (14) are fixedly installed at the end parts of the branch shafts (13), and the driving wheel (4) and the branch wheels (14) are respectively positioned on a lead (43) of an external overhead transmission line;

s2: disassembling the bolts (7) and taking out the cross rod (5), installing the overhead line construction auxiliary equipment for the power transmission technology on a lead (43) of an external overhead power transmission line, then installing the cross rod (5) between two driving wheel shafts (3), and enabling constructors to enter the basket body (1) and stand on the basket body (1);

s3: and starting the driving motor (10), driving the driving wheel shafts (3) at two ends to rotate through the chain wheel and chain transmission mechanism (11), and enabling the overhead line construction auxiliary equipment for the power transmission technology to run along the lead (43).

S4: when the overhead line construction auxiliary equipment for the power transmission technology runs to a belt maintenance position, the driving motor (10) is turned off, and rapid braking is carried out through friction force between the driving wheel (4), the distributing wheel (14) and the lead (43);

s5: and after the overhaul is finished, starting the driving motor (10) and driving the overhead line construction auxiliary equipment for the power transmission technology to return to the original position, disassembling the bolt (7) and taking out the cross rod (5), and taking down the overhead line construction auxiliary equipment for the power transmission technology on a lead (43) of an external overhead power transmission line.

2. The stringing construction auxiliary device according to claim 1, wherein two opposite sides of the vertical plates (12) are fixedly provided with support blocks (15), two support blocks (15) are provided with cleaning mechanisms, each cleaning mechanism comprises an L-shaped support plate (16), one end of each L-shaped support plate (16) is fixedly arranged on one side of the support block (15), a support plate (17) is arranged at the lower end of each L-shaped support plate (16), two groups of clamping mechanisms are arranged on each support plate (17) in a mirror image mode, each clamping mechanism comprises an arc-shaped clamping plate (18), each arc-shaped clamping plate (18) is arranged at the lower end of each support plate (17), a water-absorbing cotton layer (19) is fixedly connected to the inner ring side of each arc-shaped clamping plate (18), a clamping arm (20) is fixedly arranged on the outer side of each arc-shaped clamping plate (18), and a first rotating shaft (21) is rotatably arranged on one side of, the clamping mechanism is characterized in that a first incomplete gear (22) is fixedly mounted on the first rotating shaft (21), the first incomplete gear (22) in the two groups of clamping mechanisms is meshed, a first hinge rod (23) is arranged between the end part of the clamping arm (20) and the end part of the first rotating shaft (21), the two ends of the first hinge rod (23) are hinged to the first rotating shaft (21) and the clamping arm (20) respectively, the lower ends of the two sides of the support plate (17) are hinged to second hinge rods (24), one end of each second hinge rod (24) is hinged to the middle section of the clamping arm (20), one group of the first rotating shaft (21) in the clamping mechanism penetrates through the support plate (17), one end of the first rotating shaft (21) is fixedly mounted with a first gear (25), the support plate (17) is rotatably mounted with a second rotating shaft (26), and a second gear (27) is fixedly mounted on the second rotating shaft (26), the second gear (27) is meshed with the first gear (25), a rotating handle (28) is fixedly installed on the second rotating shaft (26), a screw rod (29) is arranged on the carrier plate (17), and one end of the screw rod (29) is clamped above the rotating handle (28);

before the driving motor (10) is started in S3, the method comprises the following steps:

s31: when water stain exists on the surface of a lead (43) of an external overhead transmission line, the screw rod (29) is rotated and detached, the rotating handle (28) is manually rotated anticlockwise, the rotating handle (28), the second rotating shaft (26) and the second gear (27) are integrally arranged, so that the second gear (27) rotates and drives the first gear (25) to rotate clockwise, the first gear (25), the first rotating shaft (21) and the first incomplete gear (22) are integrally arranged, the two first incomplete gears (22) synchronously rotate and reverse in direction, the first hinge rod (23) and the second hinge rod (24) are matched to realize that two arc-shaped clamping plates (18) at the front end of the clamping arm (20) move close to each other, and therefore the water absorption cotton layers (19) on the two sides are attached to the lead (43);

s32: the screw rod (29) is connected to the carrier plate (17), and the screw rod (29) can limit the rotating handle (28) and prevent the rotating handle (28) from rotating clockwise.

3. The stringing construction auxiliary device for power transmission technology according to claim 1, wherein the top end of the carrier plate (17) is provided with a swing mechanism, the swing mechanism comprises a round bar (30), the round bar (30) is fixedly installed at the top end of the carrier plate (17), two sections of threads (31) are arranged on the round bar (30), the two sections of threads (31) are arranged at intervals, a movable sleeve (32) is sleeved on the round bar (30), the movable sleeve (32) can move along the round bar (30), a limit thread sleeve (33) is connected to the round bar (30) in a threaded manner, the limit thread sleeve (33) can be connected to the two sections of threads (31) in a threaded manner, when the device is not operated, the movable sleeve (32) is located at the lower end of the round bar (30), the limit thread sleeve (33) is connected to the threads (31) at the lower end in a threaded manner, and the limit thread sleeve (33) is clamped above the movable sleeve (32), a first motor (34) is fixedly mounted at the lower end of the L-shaped support plate (16), an output shaft of the first motor (34) penetrates through the L-shaped support plate (16), a third hinge rod (35) is arranged between the end part of the output shaft of the first motor (34) and the movable sleeve (32), and two ends of the third hinge rod (35) are respectively hinged to the movable sleeve (32) and the end part of the output shaft of the first motor (34);

in the step S32, the method for connecting the screw rod (29) to the carrier plate (17) further comprises the following steps:

s321: rotating the limiting threaded sleeve (33) and connecting the limiting threaded sleeve (33) to a thread line (31) at the upper end in a threaded manner;

s322: start first motor (34), first motor (34) drive third hinge pole (35) and rotate, the cooperation round bar (30) and movable sleeve (32), movable sleeve (32) can move along round bar (30), just movable sleeve (32) move between two sections whorl (31), the clean mechanism on round bar (30), support plate (17) and support plate (17) is even as an organic whole, movable sleeve (32) move along round bar (30), round bar (30) use wire (43) as the swing of central point, both sides cotton layer (19) absorb water in wire (43) surface reciprocating rotation.

4. The stringing construction auxiliary device according to claim 1, wherein an intermittent driving mechanism is arranged on one side of the carrier plate (17), the intermittent driving mechanism comprises a third rotating shaft (36), one end of the third rotating shaft (36) is rotatably mounted on the carrier plate (17), a second incomplete gear (37) is fixedly mounted on the third rotating shaft (36), the second incomplete gear (37) can be meshed with the first gear (25), a fourth rotating shaft (38) is rotatably mounted on one side of the carrier plate (17), a third incomplete gear (39) is fixedly mounted on the fourth rotating shaft (38), the third incomplete gear (39) can be meshed with the first gear (25), reversing gears (40) are fixedly mounted on the end portions of the third rotating shaft (36) and the fourth rotating shaft (38), and the two reversing gears (40) are meshed, a motor base (41) is fixedly installed on the carrier plate (17), a second motor (42) is fixedly installed on the motor base (41), and an output shaft of the second motor (42) is fixedly connected with one of the reversing gears (40);

after the first motor (34) is started in the step S322, the method further includes the following steps:

s3221: the cotton layer of absorbing water (19) absorbs water stain a period of time after, starts second motor (42) drives one of them reversing gear (40) and rotates, two mesh between reversing gear (40), two reversing gear (40) rotational speed is the same turns to opposite, second incomplete gear (37) on third pivot (36) and third incomplete gear (39) on fourth pivot (38) synchronous rotation and turn to opposite, second motor (42) work a period of time after, second incomplete gear (37) mesh with first gear (25) earlier, and drive first gear (25) clockwise rotation, thereby both sides the interval between cotton layer of absorbing water (19) reduces, it is tighter that laminating between cotton layer of absorbing water (19) and wire (43), thereby cotton layer of absorbing water (19) is squeezed by wire (43) and squeezes out the moisture in cotton layer of absorbing water (19), and then the third incomplete gear (39) is meshed with the first gear (25) again and drives the first gear (25) to rotate reversely, so that the distance between the absorbent cotton layer (19) and the conducting wire (43) is increased, the absorbent cotton layer (19) is not extruded by the conducting wire (43) any more and returns to the original shape, and then the cycle is repeated.

5. The stringing construction aid for power transmission technology according to claim 1, wherein the casing (1) is made of stainless steel, and a plurality of reinforcing rods (44) are fixedly attached to the casing (1).

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