CN113525209A - Multifunctional electric power maintenance vehicle - Google Patents

Abstract

The invention belongs to the technical field of maintenance vehicles, in particular to a multifunctional electric power maintenance vehicle, which aims at solving the problems that the existing maintenance personnel usually work by means of a ladder, but the existing ladder is often placed stably by means of external buildings such as a wall body and the like, the height of the existing ladder cannot be adjusted, the function is single, and great inconvenience is brought to the maintenance personnel. The multifunctional horizontal position adjusting device is convenient to use, can adjust the height and the horizontal position simultaneously, can meet maintenance requirements, is convenient to take and place tools, has multiple functions, can work without using a ladder, and improves maintenance efficiency.

Description

Multifunctional electric power maintenance vehicle

Technical Field

The invention relates to the technical field of maintenance vehicles, in particular to a multifunctional electric power maintenance vehicle.

Background

The electric power system is composed of links of power generation, power transmission, power transformation, power distribution, power utilization and the like, in order to ensure the safe, stable and economic operation of the system, various automatic control and communication systems are required to be configured on different levels according to different requirements to form an information and control subsystem, and the information and control subsystem becomes a neural network for realizing the information transmission of the electric power system, so that the electric power system has observability and controllability, and the normal operation of the electric energy production and consumption process and the emergency treatment under an accident state are ensured.

At present maintenance personal usually carries out work with the help of the ladder, but current ladder often need just can put steadily with the help of outside buildings such as wall body, highly can't adjust moreover, and the function singleness brings very big inconvenience for the maintainer.

Disclosure of Invention

The invention aims to solve the problems that maintenance personnel usually work by means of a ladder at present, but the existing ladder is often placed stably by means of external buildings such as a wall body and the like, the height of the existing ladder cannot be adjusted, the function is single, and great inconvenience is brought to the maintenance personnel.

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

a multifunctional electric power maintenance car comprises a car head and a car plate, wherein the top of the car plate is fixedly connected with a transverse moving mechanism, the transverse moving mechanism is connected with a sliding plate, the top of the sliding plate is provided with two sliding strips in a sliding manner, the tops of the two sliding strips are respectively and rotatably provided with one end of two inclined supporting rods, the other ends of the four inclined supporting rods are respectively and rotatably connected with the same lifting plate, the top of the lifting plate is provided with two vertical plates, one sides of the two vertical plates, which are close to each other, are respectively and fixedly provided with a transverse plate, a double-shaft motor is embedded in the transverse plate, the tops and the bottoms of the two vertical plates are respectively provided with a telescopic groove, the four telescopic grooves are respectively and rotatably provided with a telescopic plate, the two telescopic plates below the vertical plates are respectively and fixedly arranged with the top of the lifting plate, the two telescopic plates above the vertical plates are respectively and fixedly provided with the same bearing plate, and the bearing plate is provided with a protection structure, the top fixedly connected with rolling structure of loading board, the last instrument of being connected with of rolling structure is placed the basket, the cavity has all been seted up on two vertical boards, all rotate on two cavities and be connected with double-threaded screw, double-threaded screw's both ends extend to two flexible inslots that correspond respectively, the screw rod groove has all been seted up to the one side that two expansion plates that lie in on the same vertical board and are close to each other, the screw thread in two screw rod grooves is revolved to on the contrary, double-threaded screw and two vertical boards of corresponding screw rod groove looks adaptation all transversely rotate and are connected with horizontal axle, two horizontal axles all with biax motor looks adaptation, two horizontal axles respectively with two double-threaded screw looks adaptations.

Preferably, a first bevel gear and a polygonal rod sleeve are fixedly mounted on two output shafts of the double-shaft motor respectively, two second bevel gears are meshed with the first bevel gear and fixedly mounted with two transverse shafts respectively, a driving gear is fixedly mounted at one end, away from each other, of each of the two transverse shafts, driven gears are fixedly sleeved on the outer sides of the two double-headed screws, and the two driving gears are meshed with the two driven gears respectively.

Preferably, the top of the sliding plate is rotatably connected with a polygonal rod, the polygonal rod is slidably connected with a polygonal rod sleeve, the top of the sliding plate is rotatably provided with a threaded rod, the outer side of the threaded rod is provided with worm threads, the bottom end of the polygonal rod is fixedly provided with a worm wheel, the worm wheel is meshed with the worm threads, and the polygonal rod sleeve is movably connected with the lifting plate.

Preferably, four sliding chutes are formed in the top of the sliding plate, sliding blocks are arranged in the four sliding chutes in a sliding mode, the four sliding blocks are fixedly arranged on the two sliding strips respectively, threaded holes are formed in one sides, close to each other, of the two sliding strips, the thread turning directions of the two threaded holes are opposite, and the two threaded holes are meshed with the threaded rods.

Preferably, the transverse moving mechanism comprises a guide rail plate, two supporting blocks, a guide rail block, a guide rail screw rod and a guide rail motor, the guide rail motor and the guide rail plate are fixedly connected to the top of the vehicle plate, a guide rail groove and two supporting grooves are formed in the top of the guide rail plate, the guide rail block is slidably connected with the guide rail groove, the two supporting blocks are slidably connected with the two supporting grooves respectively, the guide rail block and the two supporting blocks are fixedly installed on the sliding plate, the guide rail screw rod is rotatably installed in the guide rail groove, and an output shaft of the guide rail motor is fixedly installed on the guide rail screw rod.

Preferably, the protection structure comprises a plurality of guard rails and a connecting rod, the guard rails are all of telescopic rod structures, the guard rails are all fixedly connected with the connecting rod, and the connecting rod is of a rectangular structure.

Preferably, the winding structure comprises a support, a winding motor, a winding wheel, a steel wire rope and a tool placing basket, the support is fixedly connected to the top of the bearing plate, the winding motor is fixedly connected with the support, the winding wheel is rotatably installed on the support, an output shaft of the winding motor is fixedly connected with the winding wheel, one end of the steel wire rope is fixedly connected with the winding wheel, and the other end of the steel wire rope is fixedly connected with the tool placing basket.

Preferably, four telescopic links of top fixedly connected with of sliding plate, the top of four telescopic links all with the bottom fixed connection of lifter plate, the spacing groove has been seted up to one side of expansion plate, and slidable mounting has the stopper in the spacing groove, stopper and the one side inner wall fixed mounting in the expansion groove that corresponds.

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

(1) according to the scheme, the protective guard and the connecting rods are used for protecting workers, and the heights of the plurality of protective guards can be adjusted, so that the protective guard can adapt to different heights;

(2) according to the scheme, the double-shaft motor drives the polygonal rod sleeve and the first bevel gear to rotate, the polygonal rod sleeve drives the threaded rod to rotate through the polygonal rod, the worm gear and the worm pattern, the threaded rod drives the two sliding strips to be close to each other, the two sliding strips respectively drive the two diagonal rods to turn over, the four diagonal rods push the lifting plate to move upwards, and the lifting plate pushes the four telescopic plates and the two vertical plates to move upwards so as to drive the bearing plate to move upwards;

(3) Meanwhile, the first bevel gear drives the two second bevel gears to rotate, the two second bevel gears drive the two double-headed screws to rotate through the two transverse shafts, the two driving gears and the two driven gears, the double-headed screws enable the telescopic plates to stretch out and draw back to leave the corresponding telescopic grooves, and due to the relation between acting force and reacting force, the height of the bearing plate is further adjusted, so that the conveying requirement can be met;

(4) when a tool is needed to be used, the tool placing basket is driven to lift through the winding structure, the tool can be conveyed to the bearing plate, and the tool is convenient for a worker to take;

(5) if the maintenance position is far, the transverse moving mechanism drives the sliding plate to horizontally move, so that the bearing plate is driven to horizontally move, and workers can be placed to adjust the horizontal position, so that the maintenance is convenient;

the multifunctional horizontal position adjusting device is convenient to use, can adjust the height and the horizontal position simultaneously, can meet maintenance requirements, is convenient to take and place tools, has multiple functions, can work without using a ladder, and improves maintenance efficiency.

Drawings

Fig. 1 is a schematic structural view of a multifunctional electric maintenance vehicle according to the present invention;

fig. 2 is a schematic structural view of a part a of the multifunctional electric maintenance vehicle according to the present invention;

Fig. 3 is a schematic structural view of a part B of the multifunctional electric maintenance vehicle according to the present invention;

fig. 4 is a schematic structural view of a part C of the multifunctional electric maintenance vehicle according to the present invention;

fig. 5 is an exploded view of the guide block, the support block, the sliding plate, the sliding bar and the sliding block of the multifunctional electric maintenance vehicle according to the present invention;

fig. 6 is an exploded structure diagram of a vertical plate and two telescopic plates of the multifunctional electric power maintenance vehicle provided by the invention.

In the figure: 1 locomotive, 2 vehicle plates, 3 guide rail plates, 4 guide rail blocks, 5 guide rail screw rods, 6 guide rail motors, 7 sliding plates, 8 lifting plates, 9 vertical plates, 10 transverse plates, 11 threaded rods, 12 worm threads, 13 polygonal rods, 14 polygonal rod sleeves, 15 worm gears, 16 sliding strips, 17 threaded holes, 18 telescopic rods, 19 diagonal rods, 20 sliding blocks, 21 sliding grooves, 22 double-shaft motors, 23 first bevel gears, 24 second bevel gears, 25 transverse shafts, 26 cavities, 27 double-threaded screws, 28 telescopic grooves, 29 driving gears, 30 driven gears, 31 screw grooves, 32 limiting blocks, 33 telescopic plates, 34 bearing plates, 35 protective guards, 36 connecting rods, 37 supports, 38 winding wheels, 39 tool placing baskets and 40 supporting blocks.

Detailed Description

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

Example one

Referring to fig. 1-6, a multifunctional electric power overhaul vehicle comprises a vehicle head 1 and a vehicle board 2, wherein the top of the vehicle board 2 is fixedly connected with a transverse moving mechanism, the transverse moving mechanism is connected with a sliding plate 7, the top of the sliding plate 7 is slidably provided with two sliding strips 16, the tops of the two sliding strips 16 are rotatably provided with one ends of two inclined supporting rods 19, the other ends of the four inclined supporting rods 19 are rotatably connected with the same lifting plate 8, the top of the lifting plate 8 is provided with two vertical plates 9, one side of the two vertical plates 9 close to each other is fixedly provided with the same transverse plate 10, the transverse plate 10 is embedded with a double-shaft motor 22, the top and the bottom of the two vertical plates 9 are respectively provided with a telescopic groove 28, the four telescopic grooves 28 are respectively slidably provided with a telescopic plate 33, the two telescopic plates 33 positioned below the vertical plates 9 are respectively fixedly arranged with the top of the lifting plate 8, the two telescopic plates 33 positioned above the vertical plates 9 are respectively fixedly provided with the same bearing plate 34, the bearing plate 34 is provided with a protection structure, the top of the bearing plate 34 is fixedly connected with a rolling structure, the rolling structure is connected with a tool placing basket 39, two vertical plates 9 are both provided with cavities 26, two cavities 26 are both rotatably connected with double-headed screws 27, two ends of the double-headed screws 27 respectively extend into two corresponding telescopic grooves 28, one sides of the two telescopic plates 33 on the same vertical plate 9, which are close to each other, are both provided with screw grooves 31, the screw rotating directions of the two screw grooves 31 are opposite, the double-headed screws 27 are matched with the corresponding screw grooves 31, the two vertical plates 9 are both transversely rotatably connected with transverse shafts 25, the two transverse shafts 25 are both matched with a double-shaft motor 22, the two transverse shafts 25 are respectively matched with the two double-headed screws 27, the double-headed screws 27 drive the two telescopic plates 33 to be away from each other through the two screw grooves 31, so that the telescopic plates 33 can stretch out and draw back from the corresponding telescopic grooves 28, due to the relation between the acting force and the reacting force, the height of the bearing plate 34 can be further adjusted, and the conveying requirement can be met.

In this embodiment, there are first bevel gear 23 and multilateral pole sleeve pipe 14 respectively fixed mounting on two output shafts of biax motor 22, the meshing has two second bevel gears 24 on the first bevel gear 23, two second bevel gears 24 respectively with two horizontal axle 25 fixed mounting, the equal fixed mounting of one end that two horizontal axles 25 kept away from each other has drive gear 29, two double-end screw 27's the outside is all fixed the cover and is equipped with driven gear 30, two drive gear 29 respectively with two driven gear 30 meshing, first bevel gear 23 drives two second bevel gears 24 and rotates, two second bevel gears 24 drive two horizontal axles 25 respectively and rotate, two horizontal axles 25 drive two drive gear 29 respectively and rotate, two drive gear 29 drive two driven gear 30 rotations respectively, two driven gear 30 drive two double-end screw 27 rotations respectively.

In this embodiment, the top of the sliding plate 7 is rotatably connected with a polygonal rod 13, the polygonal rod 13 is slidably connected with a polygonal rod sleeve 14, the top of the sliding plate 7 is rotatably provided with a threaded rod 11, the outer side of the threaded rod 11 is provided with a worm line 12, the bottom end of the polygonal rod 13 is fixedly provided with a worm wheel 15, the worm wheel 15 is meshed with the worm line 12, the polygonal rod sleeve 14 is movably connected with the lifting plate 8, the polygonal rod 13 and the polygonal rod sleeve 14 can telescopically slide, and meanwhile, the polygonal rod sleeve 14 can drive the polygonal rod 13 to rotate.

In this embodiment, four sliding chutes 21 have been seted up at the top of sliding plate 7, equal slidable mounting has sliding block 20 in four sliding chutes 21, four sliding blocks 20 respectively with two sliding strip 16 fixed mounting, threaded hole 17 has all been seted up to one side that two sliding strip 16 are close to each other, the screw thread of two threaded hole 17 revolves to opposite, two threaded hole 17 all meshes with threaded rod 11, because threaded rod 11 and two threaded hole 17 threaded connection, and the screw thread of two threaded hole 17 revolves to opposite, threaded rod 11 drives two sliding strip 16 through two threaded hole 17 and is close to each other or keep away from each other.

In this embodiment, the lateral shifting mechanism includes guide rail plate 3, two supporting shoes 40, guide rail block 4, guide rail lead screw 5 and guide rail motor 6, guide rail motor 6 and the equal fixed connection of guide rail plate 3 are at the top of sweep 2, guide rail groove and two support grooves have been seted up at the top of guide rail plate 3, guide rail block 4 and guide rail groove sliding connection, two supporting shoes 40 are respectively with two support groove sliding connection, guide rail block 4 and two supporting shoes 40 all with sliding plate 7 fixed mounting, guide rail lead screw 5 rotates and installs in the guide rail inslot, the output shaft of guide rail motor 6 and guide rail lead screw 5 fixed mounting, guide rail motor 6 drives guide rail lead screw 5 and rotates, guide rail lead screw 5 drives guide rail block 4 and removes, guide rail block 4 is at guide rail inslot horizontal migration, guide rail block 4 drives sliding plate 7 and carries out horizontal migration.

In this embodiment, the protection structure includes a plurality of guard rails 35 and a connecting rod 36, the plurality of guard rails 35 are all telescopic rod structures, the plurality of guard rails 35 are all fixedly connected with the connecting rod 36, the connecting rod 36 is a rectangular structure, workers are protected by the guard rails 35 and the connecting rod 36, and the height of the plurality of guard rails 35 can be adjusted, so that the protection structure can be adapted to different heights.

In this embodiment, the rolling structure includes support 37, the rolling motor, wind-up wheel 38, basket 39 is placed to wire rope and instrument, support 37 fixed connection is at the top of loading board 34, rolling motor and support 37 fixed connection, wind-up wheel 38 rotates and installs on support 37, rolling motor's output shaft and wind-up wheel 38 fixed connection, wire rope's one end and wind-up wheel 38 fixed connection, basket 39 fixed connection is placed to wire rope's the other end and instrument, the rolling motor drives wind-up wheel 38 and rotates, wind-up wheel 38 can drive the work piece to the wire rope rolling and place basket 39 and go up and down, can get and put the instrument.

In this embodiment, four telescopic links 18 of top fixedly connected with of sliding plate 7, the top of four telescopic links 18 all with the bottom fixed connection of lifter plate 8, the spacing groove has been seted up to one side of expansion plate 33, slidable mounting has stopper 32 in the spacing groove, stopper 32 and the one side inner wall fixed mounting of the flexible groove 28 that corresponds, stopper 32 and spacing groove cooperation are spacing to expansion plate 33, prevent that expansion plate 33 from breaking away from flexible groove 28, telescopic link 18 plays the guide effect to lifter plate 8.

Example two

Referring to fig. 1-6, a multifunctional electric power maintenance car comprises a car head 1 and a car plate 2, the top of the car plate 2 is fixedly connected with a transverse moving mechanism through screws, the transverse moving mechanism is connected with a sliding plate 7, the top of the sliding plate 7 is slidably provided with two sliding bars 16, the tops of the two sliding bars 16 are rotatably provided with one end of two inclined supporting rods 19, the other ends of the four inclined supporting rods 19 are rotatably connected with the same lifting plate 8, the top of the lifting plate 8 is provided with two vertical plates 9, one sides of the two vertical plates 9 close to each other are fixedly provided with the same transverse plate 10 through welding, the transverse plate 10 is embedded with a double-shaft motor 22, the tops and the bottoms of the two vertical plates 9 are respectively provided with a telescopic groove 28, the four telescopic grooves 28 are respectively slidably provided with a telescopic plate 33, the two telescopic plates 33 positioned below the vertical plates 9 are fixedly provided with the tops of the lifting plates 8 through welding, the two expansion plates 33 positioned above the vertical plates 9 are fixedly provided with the same bearing plate 34 through welding, the bearing plate 34 is provided with a protective structure, the top of the bearing plate 34 is fixedly connected with a winding structure through screws, the winding structure is connected with a tool placing basket 39, the two vertical plates 9 are both provided with cavities 26, the two cavities 26 are both rotatably connected with double-headed screws 27, both ends of the double-headed screws 27 respectively extend into the corresponding two expansion grooves 28, one sides of the two expansion plates 33 positioned on the same vertical plate 9, which are close to each other, are both provided with screw grooves 31, the screw thread rotating directions of the two screw grooves 31 are opposite, the double-headed screws 27 are matched with the corresponding screw grooves 31 and are both transversely rotatably connected with transverse shafts 25 on the two vertical plates 9, the two transverse shafts 25 are both matched with the double-shaft motor 22, and the two transverse shafts 25 are respectively matched with the two double-headed screws 27, the double-end screw 27 drives the two expansion plates 33 to be away from each other through the two screw grooves 31, so that the expansion plates 33 stretch out and draw back to leave the corresponding expansion grooves 28, and due to the relation between the acting force and the reacting force, the bearing plate 34 is further adjusted in height, and the conveying requirement can be met.

In this embodiment, a first bevel gear 23 and a polygonal rod sleeve 14 are respectively installed on two output shafts of a dual-shaft motor 22 through welding and fixing, two second bevel gears 24 are engaged on the first bevel gear 23, the two second bevel gears 24 are respectively installed through welding and fixing with two transverse shafts 25, one ends of the two transverse shafts 25, which are far away from each other, are respectively installed with a driving gear 29 through welding and fixing, driven gears 30 are respectively fixedly installed on the outer sides of the two double-headed screws 27, the two driving gears 29 are respectively engaged with the two driven gears 30, the first bevel gear 23 drives the two second bevel gears 24 to rotate, the two second bevel gears 24 respectively drive the two transverse shafts 25 to rotate, the two transverse shafts 25 respectively drive the two driving gears 29 to rotate, the two driving gears 29 respectively drive the two driven gears 30 to rotate, and the two driven gears 30 respectively drive the two double-headed screws 27 to rotate.

In this embodiment, the top of the sliding plate 7 is rotatably connected with a polygonal rod 13, the polygonal rod 13 is slidably connected with a polygonal rod sleeve 14, the top of the sliding plate 7 is rotatably provided with a threaded rod 11, the outer side of the threaded rod 11 is provided with a worm line 12, the bottom end of the polygonal rod 13 is fixedly provided with a worm wheel 15 by welding, the worm wheel 15 is meshed with the worm line 12, the polygonal rod sleeve 14 is movably connected with the lifting plate 8, the polygonal rod 13 and the polygonal rod sleeve 14 can telescopically slide, and meanwhile, the polygonal rod sleeve 14 can drive the polygonal rod 13 to rotate.

In this embodiment, four sliding chutes 21 have been seted up at the top of sliding plate 7, equal slidable mounting has sliding block 20 in four sliding chutes 21, four sliding blocks 20 pass through welded fastening with two sliding strips 16 respectively and install, threaded hole 17 has all been seted up to one side that two sliding strips 16 are close to each other, the screw thread of two threaded hole 17 revolves to opposite, two threaded hole 17 all meshes with threaded rod 11, because threaded rod 11 and two threaded hole 17 threaded connection, and the screw thread of two threaded hole 17 revolves to opposite, threaded rod 11 drives two sliding strips 16 through two threaded hole 17 and is close to each other or keep away from each other.

In this embodiment, the lateral shifting mechanism includes guide rail plate 3, two supporting shoes 40, guide rail block 4, guide rail lead screw 5 and guide rail motor 6, guide rail motor 6 and guide rail plate 3 all pass through screw fixed connection at the top of sweep 2, guide rail groove and two support grooves have been seted up at the top of guide rail plate 3, guide rail block 4 and guide rail groove sliding connection, two supporting shoes 40 are respectively with two support groove sliding connection, guide rail block 4 and two supporting shoes 40 all pass through welded fastening installation with sliding plate 7, guide rail lead screw 5 rotates and installs in the guide rail inslot, guide rail motor 6's output shaft and guide rail lead screw 5 pass through welded fastening installation, guide rail motor 6 drives guide rail lead screw 5 and rotates, guide rail lead screw 5 drives guide rail block 4 and removes, guide rail block 4 is at guide rail inslot horizontal migration, guide rail block 4 drives sliding plate 7 and carries out horizontal migration.

In this embodiment, the protection structure includes a plurality of guard rails 35 and a connecting rod 36, the plurality of guard rails 35 are all telescopic rod structures, the plurality of guard rails 35 are all fixedly connected with the connecting rod 36 through screws, the connecting rod 36 is a rectangular structure, workers are protected through the guard rails 35 and the connecting rod 36, and the height of the plurality of guard rails 35 can be adjusted, so that the protection structure can be adapted to different heights.

In this embodiment, the rolling structure includes support 37, the rolling motor, wind-up wheel 38, basket 39 is placed to wire rope and instrument, support 37 passes through screw fixed connection at the top of loading board 34, the rolling motor passes through screw fixed connection with support 37, wind-up wheel 38 rotates and installs on support 37, the output shaft of rolling motor passes through screw fixed connection with wind-up wheel 38, wire rope's one end passes through screw fixed connection with wind-up wheel 38, basket 39 passes through screw fixed connection is placed with the instrument to wire rope's the other end, the rolling motor drives wind-up wheel 38 and rotates, wind-up wheel 38 can drive the work piece to place basket 39 and go up and down to the wire rope rolling, can get and put the instrument.

In this embodiment, four telescopic links 18 of screw fixedly connected with are passed through at the top of sliding plate 7, screw fixed connection is all passed through with lifter plate 8's bottom on the top of four telescopic links 18, the spacing groove has been seted up to one side of expansion plate 33, slidable mounting has stopper 32 in the spacing groove, stopper 32 passes through welded fastening with one side inner wall of the flexible groove 28 that corresponds and installs, stopper 32 and spacing groove cooperation are spacing to expansion plate 33, prevent that expansion plate 33 from breaking away from flexible groove 28, telescopic link 18 plays the guide effect to lifter plate 8.

In the embodiment, when the device is used, the electrical equipment is powered on and the controller, the worker moves to the top of the bearing plate 34, the worker is protected by the guard rails 35 and the connecting rods 36, the heights of the guard rails 35 can be adjusted to adapt to different heights, the double-shaft motor 22 is started, the double-shaft motor 22 drives the polygonal rod sleeve 14 and the first bevel gear 23 to rotate, the polygonal rod sleeve 14 drives the polygonal rod 13 to rotate, the polygonal rod 13 drives the worm wheel 15 to rotate, the worm wheel 15 drives the threaded rod 11 to rotate through the worm patterns 12, because the threaded rod 11 is in threaded connection with the two threaded holes 17, the thread directions of the two threaded holes 17 are opposite, the threaded rod 11 drives the two sliding strips 16 to approach each other through the two threaded holes 17, the two sliding strips 16 respectively drive the two inclined support rods 19 to overturn, and the four inclined support rods 19 push the lifting plate 8 to move upwards, the four telescopic rods 18 play a guiding role for the lifting plate 8, the lifting plate 8 pushes the four telescopic plates 33 and the two vertical plates 9 to move upwards, and further drives the bearing plate 34 to move upwards, meanwhile, the first bevel gear 23 drives the two second bevel gears 24 to rotate, the two second bevel gears 24 respectively drive the two transverse shafts 25 to rotate, the two transverse shafts 25 respectively drive the two driving gears 29 to rotate, the two driving gears 29 respectively drive the two driven gears 30 to rotate, the two driven gears 30 respectively drive the two double-headed screws 27 to rotate, the double-headed screws 27 drive the two telescopic plates 33 to be away from each other through the two screw grooves 31, so that the telescopic plates 33 are telescopic and separated from the corresponding telescopic grooves 28, due to the relationship between acting force and reacting force, the bearing plate 34 is further adjusted in height, the conveying requirement can be met, when a tool is needed, the tool placing basket 39 is driven by a structure to be rolled up and down, can deliver the instrument to on loading board 33, make things convenient for the staff to take, if the position of maintenance is far away, start guide rail motor 6, guide rail motor 6 drives guide rail lead screw 5 and rotates, guide rail lead screw 5 drives guide rail piece 4 and removes, guide rail piece 4 is at guide rail inslot horizontal migration, guide rail piece 4 drives sliding plate 7 and carries out horizontal migration, and then drive loading board 34 and carry out horizontal migration, can place the staff and carry out horizontal position control, convenient maintenance, after the use is accomplished, reverse start-up double-shaft motor 22, make loading board 34 descend to resume to the normal position can.

The above description is only a 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 as the technical solutions and the inventive concepts of the present invention in the technical scope of the present invention.

Claims (8)

1. A multifunctional electric power overhaul vehicle comprises a vehicle head (1) and a vehicle plate (2), and is characterized in that a transverse moving mechanism is fixedly connected to the top of the vehicle plate (2), a sliding plate (7) is connected to the transverse moving mechanism, two sliding strips (16) are slidably mounted on the top of the sliding plate (7), one ends of two inclined supporting rods (19) are rotatably mounted on the tops of the two sliding strips (16), the other ends of the four inclined supporting rods (19) are rotatably connected with a same lifting plate (8), two vertical plates (9) are arranged on the top of the lifting plate (8), a same transverse plate (10) is fixedly mounted on one side, close to each other, of the two vertical plates (9), a double-shaft motor (22) is embedded in the transverse plate (10), telescopic grooves (28) are formed in the tops and the bottoms of the two vertical plates (9), and telescopic plates (33) are slidably mounted in the four telescopic grooves (28), two expansion plates (33) below the vertical plate (9) are fixedly mounted on the top of the lifting plate (8), two expansion plates (33) above the vertical plate (9) are fixedly mounted with the same bearing plate (34), the bearing plate (34) is provided with a protective structure, the top of the bearing plate (34) is fixedly connected with a winding structure, the winding structure is connected with an instrument placing basket (39), two vertical plates (9) are provided with cavities (26), two cavities (26) are connected with a double-end screw (27) in a rotating mode, two ends of the double-end screw (27) extend into two corresponding expansion grooves (28) respectively, one side, close to each other, of the two expansion plates (33) on the same vertical plate (9) is provided with screw grooves (31), the threads of the two screw grooves (31) are opposite in rotating direction, the double-end screw (27) is matched with the corresponding screw grooves (31) and two vertical plates (9) are connected with transverse shafts (25) in a rotating mode The two transverse shafts (25) are matched with the double-shaft motor (22), and the two transverse shafts (25) are matched with the two double-head screws (27) respectively.

2. The multifunctional electric power maintenance vehicle as claimed in claim 1, wherein a first bevel gear (23) and a polygonal rod sleeve (14) are fixedly mounted on two output shafts of the biaxial motor (22) respectively, two second bevel gears (24) are meshed with the first bevel gear (23), the two second bevel gears (24) are fixedly mounted with two transverse shafts (25) respectively, a driving gear (29) is fixedly mounted at one end of each transverse shaft (25) far away from the transverse shafts, a driven gear (30) is fixedly sleeved on the outer sides of the two double-head screws (27), and the two driving gears (29) are meshed with the two driven gears (30) respectively.

3. The multifunctional electric power maintenance vehicle according to claim 1, wherein a polygonal rod (13) is rotatably connected to the top of the sliding plate (7), the polygonal rod (13) is slidably connected with a polygonal rod sleeve (14), a threaded rod (11) is rotatably mounted on the top of the sliding plate (7), worm threads (12) are arranged on the outer side of the threaded rod (11), a worm wheel (15) is fixedly mounted at the bottom end of the polygonal rod (13), the worm wheel (15) is meshed with the worm threads (12), and the polygonal rod sleeve (14) is movably connected with the lifting plate (8).

4. The multifunctional electric power maintenance vehicle according to claim 1, wherein the top of the sliding plate (7) is provided with four sliding grooves (21), sliding blocks (20) are slidably mounted in the four sliding grooves (21), the four sliding blocks (20) are respectively and fixedly mounted with the two sliding bars (16), the two sliding bars (16) are provided with threaded holes (17) on the sides close to each other, the threaded directions of the two threaded holes (17) are opposite, and the two threaded holes (17) are engaged with the threaded rod (11).

5. The multifunctional electric power maintenance vehicle of claim 1, wherein the transverse moving mechanism comprises a guide rail plate (3), two support blocks (40), a guide rail block (4), a guide rail screw rod (5) and a guide rail motor (6), the guide rail motor (6) and the guide rail plate (3) are both fixedly connected to the top of the vehicle plate (2), a guide rail groove and two support grooves are formed in the top of the guide rail plate (3), the guide rail block (4) is slidably connected with the guide rail groove, the two support blocks (40) are respectively slidably connected with the two support grooves, the guide rail block (4) and the two support blocks (40) are both fixedly installed with the sliding plate (7), the guide rail screw rod (5) is rotatably installed in the guide rail groove, and an output shaft of the guide rail motor (6) is fixedly installed with the guide rail screw rod (5).

6. The multifunctional electric power tool car as claimed in claim 1, wherein the protection structure comprises a plurality of protection fences (35) and a connecting rod (36), the plurality of protection fences (35) are all telescopic rod structures, the plurality of protection fences (35) are all fixedly connected with the connecting rod (36), and the connecting rod (36) is a rectangular structure.

7. The multifunctional electric power overhaul vehicle according to claim 1, wherein the winding structure comprises a support (37), a winding motor, a winding wheel (38), a steel wire rope and a tool placing basket (39), the support (37) is fixedly connected to the top of the bearing plate (34), the winding motor is fixedly connected with the support (37), the winding wheel (38) is rotatably mounted on the support (37), an output shaft of the winding motor is fixedly connected with the winding wheel (38), one end of the steel wire rope is fixedly connected with the winding wheel (38), and the other end of the steel wire rope is fixedly connected with the tool placing basket (39).

8. The multifunctional electric power overhaul vehicle of claim 1, wherein four telescopic rods (18) are fixedly connected to the top of the sliding plate (7), the top ends of the four telescopic rods (18) are fixedly connected to the bottom of the lifting plate (8), one side of the telescopic plate (33) is provided with a limiting groove, a limiting block (32) is slidably mounted in the limiting groove, and the limiting block (32) is fixedly mounted on the inner wall of one side of the corresponding telescopic groove (28).

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