CN116605809A - Distribution network live working insulating elevator - Google Patents

Abstract

The invention discloses an insulating elevator for live working of a distribution network, which is mainly applied to the technical field of live working appliances of distribution networks and comprises 1 group of ladder guide rails, a manned bucket, 3 hoops, a bracket, a hoop overturning part, a hoop clamping part, a hoop climbing part and a control console, wherein the ladder guide rails are parallel to an electric pole, the 3 hoops are in sliding connection with the ladder guide rails, the hoop overturning part is used for driving the hoops to overturn so as to separate from the electric pole, the hoop clamping part is used for driving the hoops to clamp or loosen the electric pole, and the hoop climbing part is used for driving the hoops to ascend or descend along the ladder guide rails. The distribution network live working insulating elevator has the advantages of flexible and changeable use mode, convenient operation, convenient maintenance, convenient carrying, safety, reliability, low manufacturing cost, strong adaptability, no ascending of operators, reduced physical consumption of the operators, improved working efficiency, good insulating property and ensured life safety of the operators.

Description

Distribution network live working insulating elevator

Technical Field

The invention relates to the technical field of distribution network live working appliances, in particular to a distribution network live working insulating elevator.

Background

The current hot-line work method for the network overhead line is divided into two methods, namely an insulating glove method and an insulating rod operation method:

the insulating glove method is usually implemented by adopting a live working vehicle and an insulating platform, and has the following problems: 1. the hot-line work vehicle has hard requirements on road traffic conditions, and must meet the traffic requirements; 2. the live working vehicle has higher requirement on the working space, the surrounding requirement of the working point can meet the rotation of a vehicle arm, the working tower of the multilayer cross arm outgoing line and the adjacent live line, the working bucket of the insulating arm vehicle is limited by the space, and the working requirement can not be met; 3. the hot-line work vehicle has higher requirements on geological conditions, and the ground must be flat and firm, so that the hot-line work vehicle is ensured not to incline or sag; 4. the operation site is positioned on an inclined slope section and does not meet the requirement of building an insulating platform; 5. the driver of the live working vehicle must hold class B and above drivers' licenses; 6. the live working vehicle has higher acquisition cost, maintenance cost and use cost.

The insulating rod operation method is used for carrying out live working, and has the following problems: 1. the operation rod is used for live working, so that the operation rod is only suitable for the operation of a T-connection line on a T-connection rod, the rest rod type operation can not be performed on a B-phase lead, and the application range is small; 2. when the same-rod multi-layer line exists, the length of the insulating operation rod needs to be increased, and the operation rod shakes too much during operation, so that the operation difficulty of operators is increased; 3. when the operation rod is adopted for operation, the conventional operation method is to cut off the original drainage wire, and when the drainage wire is recovered, the original drainage wire needs to be spliced, and the resistance of the spliced part is increased; 4. the special quick-assembly anti-loosening drainage wire clamp is required to be purchased for drainage wire recovery, and the installation mode of a single wire clamp is adopted, so that the standard design and the technical requirements cannot be met.

Disclosure of Invention

The invention provides a distribution network live working insulating elevator, which solves the problems of high requirement on working space of a distribution network live working insulating arm vehicle, high cost, corresponding qualification of operators and limited application of an insulating rod operation method.

The technical scheme of the invention is as follows: the utility model provides an join in marriage insulating companion ladder of net live working, includes 1 group cat ladder guide rail, manned fill, 3 staple bolt, bracket, staple bolt upset part, staple bolt clamping part, staple bolt climbing part, control cabinet, the cat ladder guide rail is parallel with the pole, 3 staple bolt and cat ladder guide rail sliding connection, staple bolt upset part is used for driving the staple bolt upset, makes it break away from the pole, staple bolt clamping part is used for driving the staple bolt and presss from both sides tightly or loosen the pole, staple bolt climbing part is used for driving the staple bolt to rise or descend along the cat ladder guide rail, the bracket is with the staple bolt fixed connection at middle part, install manned fill on the bracket, the control cabinet is used for controlling staple bolt upset part, staple bolt clamping part, staple bolt part action.

Preferably, the anchor ear comprises anchor ear mounting bracket, clamping piece support, anchor ear guide pin bushing cup joints with the cat ladder guide rail, anchor ear guide pin bushing can reciprocate along the cat ladder guide rail, anchor ear mounting bracket terminal is articulated with anchor ear guide pin bushing, top and clamping piece support fixed connection, clamping piece is installed to clamping piece support, clamping piece is the arc, through opening and shutting clamping pole.

Preferably, the anchor ear overturning component comprises a steel rope, a push rod support and a first push rod, one end of the steel rope is connected with the anchor ear guide sleeve, the other end of the steel rope is connected with the anchor ear installation frame, the push rod support is arc-shaped, one end of the push rod support is connected with the bottom of the anchor ear guide sleeve, the other end of the push rod support is connected with the first push rod, and the other end of the first push rod is sleeved on the steel rope.

Preferably, the staple bolt clamping part comprises positive and negative lead screw, guide rail, speed reducer, helical gear, positive and negative lead screw is fixed in staple bolt mounting bracket top through the bearing, it is provided with the screw to press from both sides tight piece bottom, positive and negative lead screw passes 2 and presss from both sides tight pieces, the guide rail is installed to staple bolt mounting bracket bottom, it sets up the guide slot to press from both sides tight piece bottom, positive and negative lead screw middle part has the helical gear, speed reducer output shaft and helical gear engaged gear.

Preferably, the anchor ear climbing component is composed of a hydraulic pump and a hydraulic cylinder, the 3 anchor ears are sequentially connected through the hydraulic cylinder, and the hydraulic pump drives the hydraulic cylinder to operate.

Preferably, the anchor ear mounting bracket is terminal articulated through the pivot with the anchor ear guide pin bushing, be provided with the push rod seat in the pivot, be fixed with 1 group second push rod on the push rod seat, the fixed block is connected to second push rod output, the fixed block is the arc, laminating with the pole.

Preferably, the surfaces of the clamping block and the fixing block are coated with rubber materials.

Preferably, the first push rod is an electric push rod.

Preferably, the second push rod is an electric push rod.

Preferably, the ladder guide rail is made of square tubes, and the manned bucket is made of insulating materials.

The principle of the invention is as follows: the main components of the invention can be separated, the occupied space in the transportation process is reduced, meanwhile, the damaged components are convenient to overhaul and replace, and the invention can be put into use after being assembled to a working place, and the specific operation method comprises the following steps: the speed reducer of the lower 2 anchor clamps is controlled by the control console to rotate positively, the bevel gear is driven to rotate by the output shaft of the speed reducer, the positive and negative screw rods rotate along with the bevel gear, then the clamping blocks are driven to approach the center along the guide rail to clamp the electric pole, in addition, the second push rod can be started by the control console to operate, the fixing block is pushed to be clung to the electric pole, and the anchor clamps are prevented from slipping; after the operation personnel get into the manned bucket, the first push rod of the staple bolt at top is started through the control cabinet, first push rod promotes the steel cable, the staple bolt mounting bracket is drawn close to cat ladder guide rail direction, afterwards, start the hydraulic pump, make the pneumatic cylinder operation between top staple bolt and the middle part staple bolt, the top staple bolt moves along cat ladder guide rail upward, after reaching the stroke of pneumatic cylinder, the first push rod of the staple bolt at top is started, make it descend, the staple bolt mounting bracket descends, perpendicular with the cat ladder guide rail, at this moment, the speed reducer of staple bolt at top, the second push rod of restart, make the staple bolt at top clamp the pole, adopt the same method afterwards, with the staple bolt at middle part and manned bucket rising to original top staple bolt place, fix the staple bolt at middle part, adopt the same method, remove the staple bolt at bottom to original middle part staple bolt place, carry out above-mentioned operation through circulation, reach the operation position, after the live working, carry out reverse operation can descend the elevator staple bolt to ground.

The technical problems to be solved by the invention are as follows: the utility model provides a join in marriage net live working insulating companion ladder can solve following technical problem: 1. the live working range is expanded, and the insulating elevator is used for carrying out live working under the condition of limited traffic, topography and soil properties, so that the power supply reliability is further improved; 2. the requirement of live working of almost all poles of the power distribution network is met, even if the poles of the multi-loop outgoing line are required to carry out live working on the upper layer of wires, single person climbing conditions can be provided, and the application range is wider; 3. the climbing personnel can climb and be fixed without auxiliary fixation such as a cable rope, so that the safety distance is not enough due to the fact that the climbing personnel and the electrified lead are crossed, and a relatively wide space is provided for electrified operation; 4. the horizontal occupied space is small, the application range of the flexible insulating elevator can be adjusted, an operator can independently select the most favorable station condition according to the actual condition of the site, and the man-machine efficiency is improved; 5. the operator ascends to work, the original parallel groove clamp is relieved or restored, the drainage wire is prevented from being cut off and connected continuously, the power supply efficiency is improved, and the power supply loss is reduced; 6. the insulating elevator is low in use and maintenance cost, and live working cost is reduced.

The invention has the beneficial effects that: the utility model provides an insulating companion ladder of distribution network live working, the use is nimble changeable, and the simple operation maintains the maintenance convenience, convenient to carry, safe and reliable, low in manufacturing cost, strong adaptability avoids the operating personnel to ascend a height, reduces operating personnel's physical demands, improves operating efficiency, and insulating properties is good, ensures operating personnel life safety.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of the structure of the present invention;

FIG. 3 is a schematic illustration of a hoop structure;

fig. 4 is a schematic diagram of a hoop structure;

FIG. 5 is a schematic diagram of the structure of the present invention;

in the figure, a 1-ladder rail, a 2-manned bucket, a 3-pole, a 4-hoop, a 5-hydraulic pump, a 6-hydraulic cylinder, a 7-bracket, an 8-steel rope, a 9-push rod bracket, an 11-first push rod, a 12-positive and negative screw rod, a 13-clamping block, a 14-rail, a 15-second push rod, a 16-fixed block, a 17-speed reducer, an 18-helical gear, a 19-hoop mounting rack, a 20-console and a 21-hoop guide sleeve.

Detailed Description

The specific implementation mode of the invention is as follows: as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the insulating elevator of net live working is joined in marriage, including 1 group ladder guide rail 1, manned bucket 2, 3 staple bolt 4, bracket 7, staple bolt upset part, staple bolt clamping part, staple bolt climbing part, control cabinet 20, ladder guide rail 1 is parallel with pole 3, 3 staple bolt 4 and ladder guide rail 1 sliding connection, staple bolt upset part is used for driving staple bolt 4 upset, makes it break away from pole 3, staple bolt clamping part is used for driving staple bolt 4 and presss from both sides tightly or loosen pole 3, staple bolt climbing part is used for driving staple bolt 4 to rise or descend along ladder guide rail 1, bracket 7 and staple bolt 4 fixed connection in middle part, install manned bucket 2 on bracket 7, control cabinet 20 is used for controlling staple bolt upset part, staple bolt clamping part, staple bolt climbing part action. The control console 20 can be integrated into an instruction according to the execution action, the instruction rises, the first push rod 11 of the hoop 4 at the top of the integrated part rises, the hoop 4 is folded, the second push rod 15 is retracted and the speed reducer 17 is reversed, the fixed block 16 and the clamping block 13 are separated from the electric pole 3, the hydraulic pump 5 drives the hydraulic cylinder 6 between the top hoop 4 and the middle hoop 4 to extend, the top hoop 4 is driven to rise, other instructions can be integrated according to the operation principle, the control console 20 has various implementation modes, such as PLC and singlechip control, no technical obstacle exists, and the implementation modes are diversified.

Specifically, as shown in fig. 3 and 4, the anchor ear 4 is composed of an anchor ear mounting frame 19, a clamping block 13, a clamping block support and an anchor ear guide sleeve 21, the anchor ear guide sleeve 21 is sleeved with the ladder rail 1, the anchor ear guide sleeve 21 can move up and down along the ladder rail 1, the tail end of the anchor ear mounting frame 19 is hinged with the anchor ear guide sleeve 21, the top end is fixedly connected with the clamping block support, the clamping block 13 is installed in the clamping block support, and the clamping block 13 is arc-shaped and clamps the electric pole 3 by opening and closing. The number of the clamping blocks 13 is 2, the arc shape is attached to the outer edge of the electric pole 3, casting, forging, CNC and other processes can be adopted for manufacturing, the carrying capacity is improved, and the reliability is improved. The hoop guide sleeve 21 can be directly realized by using square tubes, oil-free bushings and the like.

Specifically, as shown in fig. 3, the hoop overturning component is composed of a steel rope 8, a push rod support 9 and a first push rod 11, one end of the steel rope 8 is connected with a hoop guide sleeve 21, the other end of the steel rope is connected with a hoop mounting frame 19, the push rod support 9 is arc-shaped, one end of the steel rope is connected with the bottom of the hoop guide sleeve 21, the other end of the steel rope is connected with the first push rod 11, and the other end of the first push rod 11 is sleeved on the steel rope 8. The wire rope 8 can also use 2 sections of connecting rods to replace, and the top of 1 connecting rod is articulated with the top of staple bolt guide pin bushing 21, and the end is articulated with first push rod 11, and another connecting rod top is articulated with first push rod 11, and the end is articulated with staple bolt mounting bracket 19, and in this case, the staple bolt upset is comparatively sensitive, and is direct.

Specifically, as shown in fig. 3, the hoop clamping component is composed of a forward and reverse screw rod 12, a guide rail 14, a speed reducer 17 and a bevel gear 18, the forward and reverse screw rod 12 is fixed at the top end of a hoop mounting frame 19 through a bearing, screw holes are formed in the bottom of the clamping block 13, the forward and reverse screw rod 12 penetrates through 2 clamping blocks 13, the guide rail 14 is installed at the bottom of the hoop mounting frame 19, a guide groove is formed in the bottom of the clamping block 13, the bevel gear 18 is arranged in the middle of the forward and reverse screw rod 12, and an output shaft of the speed reducer 17 is connected with a gear meshed with the bevel gear 18.

Specifically, the anchor ear climbing component is composed of a hydraulic pump 5 and a hydraulic cylinder 6, the 3 anchor ears 4 are sequentially connected through the hydraulic cylinder 6, and the hydraulic pump 5 drives the hydraulic cylinder 6 to operate. The hydraulic pump 5 is connected with 2 hydraulic cylinders 6 between 3 anchor clamps 4 through independent oil ways, so that the instructions of the control platform 20 can be collected conveniently.

Specifically, as shown in fig. 2, the tail end of the anchor ear mounting rack 19 is hinged to the anchor ear guide sleeve 21 through a rotating shaft, a push rod seat is arranged on the rotating shaft, 1 group of second push rods 15 are fixed on the push rod seat, the output end of each second push rod 15 is connected with a fixing block 16, and each fixing block 16 is arc-shaped and is attached to the electric pole 3.

Specifically, the surfaces of the clamping block 13 and the fixing block 16 are coated with rubber materials. The clamping blocks 13 and the fixing blocks 16 which are coated by the rubber material have large surface friction force with the electric pole 3, and have certain deformation capability, so that the anchor ear 4 is prevented from slipping.

Specifically, the first push rod 11 is an electric push rod. The electric push rod occupies small space, is simple in control mode and is beneficial to miniaturization of equipment.

Specifically, the second pushing rod 15 is an electric pushing rod.

Specifically, the ladder stand guide rail 1 is made of square tubes, and the man bucket 2 is made of insulating materials. The ladder guide rail 1 made of square tubes is high in structural strength and low in cost, and the manned bucket 2 made of the insulating material is good in insulating performance, so that the life safety of operators is guaranteed.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a join in marriage net live working insulating companion ladder which characterized in that: including 1 group cat ladder guide rail (1), manned bucket (2), 3 staple bolt (4), bracket (7), staple bolt upset part, staple bolt clamping part, staple bolt climbing part, control cabinet (20), cat ladder guide rail (1) are parallel with pole (3), 3 staple bolt (4) and cat ladder guide rail (1) sliding connection, staple bolt upset part is used for driving staple bolt (4) upset, makes it break away from pole (3), staple bolt clamping part is used for driving staple bolt (4) to press from both sides tight or loosen pole (3), staple bolt climbing part is used for driving staple bolt (4) to rise or descend along cat ladder guide rail (1), staple bolt (4) fixed connection in bracket (7) and middle part, install manned bucket (2) on bracket (7), control cabinet (20) are used for controlling staple bolt upset part, staple bolt clamping part, staple bolt climbing part action.

2. The distribution network live working insulating elevator according to claim 1, wherein: staple bolt (4) comprises staple bolt mounting bracket (19), clamp block (13), clamp block support, staple bolt guide pin bushing (21) cup joint with cat ladder guide rail (1), staple bolt guide pin bushing (21) can reciprocate along cat ladder guide rail (1), staple bolt mounting bracket (19) are terminal articulated with staple bolt guide pin bushing (21), top and clamp block support fixed connection, install clamp block (13) in the clamp block support, clamp block (13) are the arc, clamp pole (3) through opening and shutting.

3. A distribution network live working insulating elevator according to claim 2, characterized in that: the anchor ear overturning component comprises a steel rope (8), a push rod support (9) and a first push rod (11), one end of the steel rope (8) is connected with an anchor ear guide sleeve (21), the other end of the steel rope is connected with an anchor ear installation frame (19), the push rod support (9) is arc-shaped, one end of the push rod support is connected with the bottom of the anchor ear guide sleeve (21), the other end of the push rod support is connected with the first push rod (11), and the other end of the first push rod (11) is sleeved on the steel rope (8).

4. A distribution network live working insulation elevator according to claim 3, characterized in that: the anchor ear clamping component comprises a positive and negative screw rod (12), a guide rail (14), a speed reducer (17) and a bevel gear (18), the positive and negative screw rod (12) is fixed on the top end of an anchor ear mounting frame (19) through a bearing, a screw hole is formed in the bottom of a clamping block (13), the positive and negative screw rod (12) penetrates through 2 clamping blocks (13), the guide rail (14) is arranged at the bottom of the anchor ear mounting frame (19), a guide groove is formed in the bottom of the clamping block (13), the middle of the positive and negative screw rod (12) is provided with the bevel gear (18), and an output shaft of the speed reducer (17) is connected with a gear meshed with the bevel gear (18).

5. The distribution network live working insulating elevator according to claim 1, wherein: the anchor ear climbing component is composed of a hydraulic pump (5) and a hydraulic cylinder (6), the 3 anchor ears (4) are sequentially connected through the hydraulic cylinder (6), and the hydraulic pump (5) drives the hydraulic cylinder (6) to operate.

6. A distribution network live working insulating elevator according to claim 2, characterized in that: the electric pole is characterized in that the tail end of the anchor ear installation frame (19) is hinged to the anchor ear guide sleeve (21) through a rotating shaft, a push rod seat is arranged on the rotating shaft, 1 group of second push rods (15) are fixed on the push rod seat, the output ends of the second push rods (15) are connected with the fixing blocks (16), and the fixing blocks (16) are arc-shaped and are attached to the electric pole (3).

7. The distribution network live working insulating elevator according to claim 6, wherein: the surfaces of the clamping blocks (13) and the fixing blocks (16) are coated with rubber materials.

8. A distribution network live working insulation elevator according to claim 3, characterized in that: the first push rod (11) is an electric push rod.

9. The distribution network live working insulating elevator according to claim 6, wherein: the second push rod (15) is an electric push rod.

10. The distribution network live working insulating elevator according to claim 1, wherein: the ladder stand guide rail (1) is made of square tubes, and the manned bucket (2) is made of insulating materials.