CN109094408B - Intelligent new energy automobile charging highway based on road networking - Google Patents

Abstract

The invention discloses an intelligent new energy automobile charging road based on a road network, which comprises a road surface, wherein charging sliding plates connected in parallel are arranged on the road surface, first grooves are respectively arranged on the charging sliding plates, rubber pads connected to the charging sliding plates are respectively arranged in the first grooves, protective wire sleeves are respectively arranged on the rubber pads in parallel, corresponding sealing sliding grooves are respectively arranged on the protective wire sleeves, a sliding charging cable is arranged in the sealing sliding grooves arranged in parallel, a charging base is arranged on an automobile chassis, a sliding first carbon brush rod and a sliding second carbon brush rod are arranged on the charging base, so that the charging cable and the charging sliding plates can be further connected through the sliding of the first carbon brush rod and the second carbon brush rod, thereby completing the charging of the storage battery.

Description

Intelligent new energy automobile charging highway based on road networking

Technical Field

The invention relates to new energy charging equipment, in particular to an intelligent new energy automobile charging highway based on road networking, and particularly relates to an intelligent new energy automobile charging highway which can be provided with charging equipment on the road surface and can charge an automobile in the driving process of a new energy automobile.

Background

With the continuous development of scientific technology, the increase of automobile demand is further promoted, wherein the continuous development of new energy automobiles is further promoted due to air pollution and lack of petroleum resources in the development process of the current automobile industry, wherein the batteries are mostly used for supplying energy to the automobiles in the development process of the current new energy automobiles, the stored electric energy of the batteries is limited, so that the driving distance of the automobiles is further limited, when the automobiles are driven on expressways, the problem that the automobiles cannot normally drive due to the limitation of the supply of the electric power can occur, although the charging problem of the automobiles can be solved through equipment such as charging piles, the following problems also exist:

because the charging piles are mostly arranged in the service areas, when the vehicle needs to supply power, the vehicle needs to be driven to the nearby service area for power supply, although the charging purpose can be achieved through the charging piles in the service areas, under the condition that the new energy vehicle is popularized, the charging piles in the service areas can not meet the charging service of the existing vehicle obviously due to the increase of the number of the vehicles;

and when the new energy automobile is widely popularized, queuing is needed, so that the charging time is further increased, and further troubles are caused for charging the automobile.

Therefore, it is necessary to design an intelligent new energy vehicle charging highway based on road networking to solve the above technical problems.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provides an intelligent new energy automobile charging road based on a road network, wherein charging sliding plates which are correspondingly connected are arranged on the road surface, corresponding first grooves are respectively arranged on the charging sliding plates, the first grooves are respectively connected in a sealing way through a rubber pad, corresponding protective wire sleeves are respectively arranged on the sealing pads, sealing sliding grooves are respectively arranged on the protective wire sleeves, sliding charging cables are arranged in the sealing sliding grooves, a charging base is arranged on an automobile chassis, a first sliding groove is arranged on the charging base, a sliding charging seat is arranged in the first sliding groove, so that the first carbon brush rod and the second carbon brush rod can be further correspondingly connected with the charging sliding plates and the charging cables through the sliding of the sliding charging seat, thereby enabling the charging of the vehicle to be completed.

The invention is realized by the following technical scheme:

the utility model provides an intelligence new energy automobile highway that charges based on road network, is provided with the wheel including highway face, car on the car, is provided with vehicle chassis bottom the car, be provided with the slide that charges who connects side by side on the highway face, be provided with a first recess on the slide that charges respectively, be provided with one in the first recess respectively and connect rubber pad on the slide that charges, side by side be provided with a protection wire cover on the rubber pad respectively, be provided with a corresponding sealed spout on the protection wire cover respectively, be provided with a gliding charging cable in the sealed spout that sets up side by side, be provided with a plurality of second control seats on the slide that charges, be provided with a gliding pull rod in the second control seat respectively, the pull rod controls respectively charging cable's slip. Be provided with the slide that charges that corresponds the connection side by side on public road surface be provided with a first recess on the slide that charges respectively be provided with a rubber pad in the first recess respectively to can pass through the rubber pad can be right first recess seals be provided with a protection wire cover on the rubber pad respectively be provided with a sealed spout on the protection wire cover respectively be provided with gliding charging cable in the sealed spout, thereby can pass through the slip of charging cable can be further charges the vehicle.

The two sides of the first groove respectively comprise a plurality of first control seats arranged in the charging sliding plate side by side, a sliding third sliding block is arranged in each first control seat, a fifth air hole and a sixth air hole are respectively arranged in each first control seat, a first air hole which is correspondingly communicated is respectively arranged in each charging sliding plate, each fifth air hole is correspondingly communicated with each first air hole, the sliding of each third sliding block controls the communication and the closing of each fifth air hole and each sixth air hole, the two sides of each first groove respectively comprise second air holes which are arranged in the charging sliding plate, each sixth air hole is correspondingly communicated with each second air hole, a seventh air hole which is correspondingly communicated with each sixth air hole is respectively arranged in each first control seat, and the inflation of the seventh air holes respectively controls the sliding of the pull rod, and the charging sliding plate is respectively provided with an exhaust valve which is correspondingly communicated with the first groove. Can pass through aerifing of first recess, can further messenger the rubber pad inflation to drive that can step forward the action of protection wire cover can step forward simultaneously can pass through the slip of pull rod can step forward the slip of charging cable, thereby can step forward the messenger the charging cable can slide in the sealed spout, thereby can make the charging cable roll-off sealed spout to the assurance that can step forward the charging cable can charge the car.

Be provided with a charging base on the vehicle chassis, be provided with a first spout on the charging base, be provided with one in the first spout and connect rubber air cushion on the charging base, be provided with one on the rubber air cushion gliding sliding charging seat in the first spout, be provided with one in the rubber air cushion and aerify the chamber, it drives to aerify the chamber drive the slip of sliding charging seat, the bottom of sliding charging seat is provided with a gliding second carbon brush-holder stud, aerify the chamber and aerify back simultaneous control the slip of second carbon brush-holder stud, the both sides of second carbon brush-holder stud are equipped with second magnet respectively, after the charging base slides second magnet control the slip of third slider, second carbon brush-holder stud with the corresponding connection of cable that charges. Can pass through the slip of slip charging seat can further make first carbon brush pole with second carbon brush pole respectively with the slide that charges with the cable that charges carries out corresponding connection to can further completion charges to the battery, thereby can make the vehicle charge simultaneously at the in-process that traveles, thereby can further avoid charging the trouble that causes because of the vehicle is in the service area.

Still be provided with a gliding first carbon brush-holder stud on the slip charging seat, aerify the chamber and control simultaneously after charging the slip of first carbon brush-holder stud, the slip of first carbon brush-holder stud with the slide of charging is corresponding to be connected.

Further, the rubber pad and the protective line sleeve are respectively made of soft rubber materials, a plurality of first grooves are respectively arranged, the first grooves are spaced by rubber partition plates, a plurality of correspondingly connected supporting slide blocks are respectively arranged in the sealing sliding grooves, the charging cable is connected on the supporting sliding blocks which are arranged side by side, the pull rods respectively slide in the first grooves, one end of each pull rod is respectively connected on the supporting sliding blocks, the second control seat is internally provided with a first sliding cavity respectively, the other end of the pull rod is provided with a first sliding block which slides in the first sliding cavity respectively, the first sliding cavity is internally provided with a first spring for elastically pressing the first sliding block, the second control seat is respectively provided with a third air hole correspondingly communicated with the first sliding cavity, and the seventh air hole is correspondingly communicated with the third air hole;

the sealing slide groove is internally provided with a supporting pad corresponding to the pull rod, and the protecting wire sleeve is respectively provided with a cutting groove corresponding to the first groove.

Furthermore, a third sliding cavity is respectively arranged in the first control seat, the third sliding blocks respectively slide in the third sliding cavities, a second sliding cavity is respectively arranged in the first control seat, a second sliding block which slides is respectively arranged in the second sliding cavity, a first sliding shaft is respectively arranged on the second sliding blocks, the third sliding blocks are respectively connected on the first sliding shafts, the third sliding cavity and the third sliding blocks are respectively arranged in a square shape, a fourth air hole is respectively arranged on the third sliding blocks, two ends of the fourth air hole respectively correspond to the fifth air hole and the sixth air hole, a second spring which can elastically press the second sliding blocks is respectively arranged in the second sliding cavities, a first magnet is respectively arranged on the second sliding blocks, and the second magnet correspondingly repels the first magnet, the charging sliding plate is made of aluminum.

Furthermore, the first groove is internally provided with an exhaust hole which is arranged on the charging sliding plate, the exhaust valve is correspondingly communicated with the exhaust hole, and the exhaust valve is controlled to be opened and closed through time.

Furthermore, the first sliding groove comprises a third sliding groove arranged on the charging base respectively, the rubber air cushion is arranged in the third sliding chute, the bottom of the sliding charging seat is provided with a second sliding chute, the second carbon brush rod slides in the second sliding chute, two fourth sliding cavities are arranged in the sliding charging seat, two ends of the second carbon brush rod are respectively connected with a second sliding shaft which slides in the fourth sliding cavity, the second sliding shaft is respectively provided with a fourth sliding block which slides in a fourth sliding cavity, the fourth sliding cavity is in sealing connection with the fourth sliding block, a third spring arranged on the second sliding shaft is respectively arranged in the second sliding chutes, the third spring respectively biases the second carbon brush rod, and the fourth sliding cavity is correspondingly communicated with the inflation cavity through an eighth air hole.

Furthermore, a fourth sliding groove is formed in the bottom of the sliding charging seat, the first carbon brush rod slides in the fourth sliding groove, a fifth sliding cavity is formed in the sliding charging seat, a third sliding shaft is connected to the first carbon brush rod, a fifth sliding block which slides in the fifth sliding cavity is arranged on the third sliding shaft, the fifth sliding cavity is connected with the fifth sliding block in a sealing mode, a fourth spring which is arranged on the third sliding shaft is arranged in the fourth sliding groove respectively, the fourth spring elastically presses the first carbon brush rod, and the fifth sliding cavity is communicated with the inflatable cavity through a ninth air hole correspondingly.

Furthermore, the both sides of slide that charges are in including one row of setting respectively spacing inductor on the road surface, the position of spacing inductor response car.

Furthermore, a wireless control module is arranged in the charging sliding plate.

Compared with the prior art, the invention has the beneficial effects that: the charging sliding plates are correspondingly connected side by side on a public road surface, the charging sliding plates are respectively provided with a first groove, the first grooves are respectively connected in a sealing mode through a rubber gasket, the sealing gaskets are respectively provided with a protective wire sleeve, the protective wire sleeves are respectively provided with a sealing sliding groove, a sliding charging cable is arranged in the sealing sliding grooves which are arranged side by side, the charging sliding plates are provided with a plurality of second control seats, and a sliding pull rod is arranged in each second control seat, so that the sliding of the charging cable can be further driven through the sliding of the pull rod, and the charging of vehicles can be further facilitated after the charging cable slides out of the sealing sliding grooves;

in the running process of a vehicle, compressed air can be further conveyed into the first groove through the inflation of the first air hole, so that the rubber pad can be further in an expanded state, the action of the protective wire sleeve can be further driven, meanwhile, the sliding of the pull rod can be further controlled through the inflation of the seventh air hole, and the sliding of the charging cable can be further controlled;

can be at the in-process that traveles of vehicle, can pass through the drive that the slip of slip charging seat can be further the slip of second magnet, thereby can be further pass through second magnet control the slip of third slider, thereby can further make second carbon brush-holder stud with the corresponding connection of charging cable can make simultaneously first carbon brush-holder stud with the corresponding connection of slide that charges, thereby can further realization supplies power to the battery of car, thereby can be in the in-process that traveles of vehicle the power supply of carrying on the car in step, can further avoid because of the trouble that the car charges at the in-process that the server caused, avoid lining up the waste of the time that charges and cause, the efficiency that can further improve to charge, the percentage of popularization of new energy automobile that can further improve.

Drawings

The invention is further described below with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of an intelligent new energy automobile charging road according to an embodiment of the invention.

Fig. 2 is a side view of the overall structure of the charging slide plate according to the embodiment of the invention.

Fig. 3 is a schematic view of an overall structure of a first control seat according to an embodiment of the present invention.

Fig. 4 is a schematic view of the overall structure of the sliding charging base according to the embodiment of the invention.

In the figure: 1 highway surface, 2 automobile chassis, 3 wheels, 4 charging sliding plates, 5 first grooves, 6 rubber pads, 7 charging cables, 8 first sliding chutes, 9 sliding charging seats, 10 charging bases, 11 limit sensors, 12 first air holes, 13 first control seats, 14 second air holes, 15 sealing sliding chutes, 16 supporting sliding blocks, 17 protective wire sleeves, 18 supporting pads, 19 pull rods, 20 dividing grooves, 21 second control seats, 22 first sliding cavities, 23 first sliding blocks, 24 first springs, 25 third air holes, 26 exhaust holes, 27 exhaust valves, 28 second sliding cavities, 29 second sliding blocks, 30 first sliding shafts, 31 third sliding cavities, 32 third sliding blocks, 33 fourth air holes, 34 fifth air holes, 35 sixth air holes, 36 seventh air holes, 37 first magnets, 38 second springs, 39 second sliding chutes, 40 third springs, 41 second sliding shafts, 42 fourth sliding cavities, 43 fourth sliding blocks, 44 eighth air holes, 45 third runner, 46 rubber air cushion, 47 air charging cavity, 48 fourth runner, 49 first carbon brush rod, 50 fourth spring, 51 third slide shaft, 52 fifth slide cavity, 53 fifth slide block, 54 ninth air hole, 55 second magnet and 56 second carbon brush rod.

Detailed Description

As shown in fig. 1 to 4, an intelligent new energy automobile charging road based on road networking comprises a road surface 1 and automobiles, wherein the automobiles are provided with wheels 3, the bottom of the automobile is provided with an automobile chassis 2, the road surface 1 is provided with charging sliding plates 4 which are connected side by side, the charging sliding plate 4 is respectively provided with a first groove 5, the first grooves 5 are respectively provided with a rubber pad 6 connected with the charging sliding plate 4, the rubber pads 6 are respectively provided with a protective wire sleeve 17, the protective wire sleeves 17 are respectively provided with a corresponding sealing sliding chute 15, a sliding charging cable 7 is arranged in the sealing sliding chute 15 which is arranged side by side, a plurality of second control seats 21 are arranged on the charging sliding plate 4, a sliding pull rod 19 is respectively arranged in the second control seat 21, and the sliding of the charging cable 7 is respectively controlled by the pull rods 19.

The highway surface 1 is provided with a charging sliding plate 4, the charging sliding plate 4 is a square plate, the charging sliding plate 4 is provided with a plurality of sliding plates 4 which are connected in parallel and correspondingly, the number of the charging sliding plates 4 is set according to the length of the highway surface 1, the charging sliding plate 4 is provided with a first groove 5 respectively, two ends of the first groove 5 are provided with a rubber partition respectively, a rubber pad 6 is arranged in the first groove 5, so that the first groove 5 can be a sealed cavity after the rubber pad 6 and the rubber partitions 6 arranged at two ends are correspondingly connected, the rubber pad 6 is provided with a protective wire sleeve 17 respectively, the protective wire sleeve 17 is provided with a sealing sliding chute 15 respectively, the sealing sliding chutes 15 are connected in parallel and correspondingly, and the charging cable 7 is arranged in the first groove 5, the length of the charging cable 7 corresponds to the length of the charging sliding plate 4, a plurality of second control seats 21 are arranged on the charging sliding plate 4, a sliding pull rod 19 is arranged in each second control seat 21, and the sliding of the pull rod 19 can drive the charging cable 7 to slide in the sealing sliding groove 15.

The two sides of the first groove 5 respectively comprise a plurality of first control seats 13 arranged in the charging sliding plate 4 side by side, a sliding third slider 32 is arranged in each first control seat 13, a fifth air hole 34 and a sixth air hole 35 are arranged in each first control seat 13, a first air hole 12 correspondingly communicated with each other is arranged in each charging sliding plate 4, each fifth air hole 34 is correspondingly communicated with each first air hole 12, the sliding of each third slider 32 controls the communication and the closing of each fifth air hole 34 and each sixth air hole 35, the two sides of the first groove 5 respectively comprise second air holes 14 arranged in the charging sliding plate, each sixth air hole 35 is correspondingly communicated with each second air hole 14, a seventh air hole 36 correspondingly communicated with each sixth air hole 35 is arranged in each first control seat 13, the inflation of the seventh air hole 36 controls the sliding of the pull rod 19, and the charging slide plate 4 is provided with an exhaust valve 27 correspondingly communicated with the first groove 5.

A plurality of first control seats 13 arranged side by side are respectively arranged on two sides of the first groove 5, the first control seats 13 are arranged in the charging sliding plate 4 and are respectively provided with a plurality of rows, the number of the first control seats 13 can be set according to the design requirement, a sliding third slider 32 is respectively arranged in the first control seats 13, a corresponding first air hole 12 is respectively arranged in the charging sliding plate 4, two adjacent first air holes 12 are correspondingly communicated through a connecting pipe, a fifth air hole 34 and a sixth air hole 35 are respectively arranged in the first control seats 13, the sliding of the third slider 32 can control the communication and the closing of the fifth air hole 34 and the sixth air hole 35, the fifth air hole 34 is correspondingly communicated with the first air holes 12, and second air holes 14 are respectively arranged on two sides of the first groove 5, the sixth air holes 35 are respectively communicated with the second air holes 14 correspondingly, a seventh air hole 36 is respectively arranged on the first control seat 13, so that the sliding of the pull rod 19 can be further controlled through the ventilation of the seventh air hole 36, and the sliding of the charging cable 7 can be further pulled, and the exhaust valves 27 correspondingly communicated with the first grooves 5 are respectively arranged on the charging sliding plate 4;

when the first air hole 12 is inflated, compressed air can be further conveyed into the fifth air hole 34, when the fifth air hole 34 and the sixth air hole 35 are correspondingly communicated, compressed air can be further conveyed into the sixth air hole 35, and can be further conveyed into the second air hole 14, and can be further conveyed into the first groove 5, the rubber pad 6 and the protective wire sleeve 17 are made of soft rubber materials, so that the rubber pad 6 can be further expanded in the process of filling the first groove 5 with air, so that the protective wire sleeve 17 can be further driven to move, and meanwhile, through inflation of the seventh air hole 36, the sliding of the pull rod 19 can be further driven, so that the charging cable 7 can be further driven to slide in the sealing chute 15, therefore, the charging cable 7 can be further jacked out of the sealing sliding groove 15 through jacking of the pull rod 17, the charging cable 7 can be further exposed outside the protective wire sleeve 17, meanwhile, through inflation and expansion of the first groove 5, the protective wire sleeve 17 can be further higher than the charging sliding plate 4, and accordingly the charging cable 7 can be further conveniently used for charging the automobile.

The automobile chassis 2 is provided with a charging base 10, the charging base 10 is provided with a first chute 8, a rubber air cushion 46 connected to the charging base 10 is arranged in the first sliding chute 8, the rubber air cushion 46 is provided with a sliding charging seat 9 which slides in the first sliding chute 8, an inflation cavity 47 is arranged in the rubber air cushion 46, the inflation cavity 47 drives the sliding charging seat 9 to slide after being inflated, the bottom of the sliding charging seat 9 is provided with a sliding second carbon brush rod 56, the inflation cavity 47 is inflated to control the sliding of the second carbon brush rod 56, second magnets 55 are respectively arranged on two sides of the second carbon brush rod 56, the second magnets 55 control the sliding of the third sliding block 32 after the sliding charging seat 9 slides, and the second carbon brush rod 56 is correspondingly connected with the charging cable 7.

A charging base 10 is arranged on the automobile chassis 2, a first chute 8 is arranged on the charging base 10, a rubber air cushion 46 is arranged in the first chute 8, an inflation cavity 47 is arranged in the rubber air cushion 46, so that the inflation cavity 47 can be inflated when the automobile needs to be charged, and the sliding charging seat 9 can be further driven to slide in the first chute 8, so that the sliding charging seat 9 can be further made to slide to the position of the charging sliding plate 4, a sliding second carbon brush rod 56 is arranged at the bottom of the sliding charging seat 9, so that the second carbon brush rod 56 can be further pressed on the charging cable 7, and the electric energy can be further transmitted to the second carbon brush rod 56 through the charging cable 7, the automobile storage battery can be further charged through the second carbon brush rod 56, the second magnet 55 is arranged on the charging base 9, so that after the sliding charging seat 9 slides, the sliding of the third slider 32 can be further controlled through the second magnet 55, the inflation of the first groove 5 and the sliding of the pull rod 19 can be further controlled, the sliding of the charging cable 7 can be further controlled, and the second carbon brush rod 56 can be further ensured to be pressed on the charging cable 7, so that the automatic charging can be realized in the driving process of the automobile.

The sliding charging seat 9 is further provided with a sliding first carbon brush rod 49, the inflatable cavity 47 controls the sliding of the first carbon brush rod 49 after charging, and the sliding of the first carbon brush rod 49 is correspondingly connected with the charging sliding plate 4.

Still be provided with a gliding first carbon brush-holder stud 49 on the sliding charging seat 9, work as aerify chamber 47 at the gas filled in-process, control that can be further first carbon brush-holder stud 49's slip, thereby can be further slide charging seat 9 gliding messenger that can be further when first carbon brush-holder stud 49 compresses tightly on the charging base 4, thereby can pass through charging cable 7 with the connection of second carbon brush-holder stud 56, through first carbon brush-holder stud 49 with the connection of charging base 4 forms the return circuit of an electric power, thereby can be further reach the purpose of charging the battery, can further fill electric pile and avoided the vehicle to utilize the trouble that charges the car at the server, the efficiency that can further improvement charges, avoided the vehicle to queue the trouble that charges and cause simultaneously.

As shown in fig. 1 and 2, the rubber pad 6 and the protective wire sheath 17 are made of soft rubber, the first grooves 5 are provided with a plurality of grooves, the first grooves 5 are separated by rubber partitions, the sealing sliding chute 15 is provided with a plurality of supporting sliders 16 correspondingly connected, the charging cable 7 is connected to the supporting sliders 16 arranged side by side, the pull rods 19 respectively slide in the first grooves 5, one ends of the pull rods 19 are respectively connected to the supporting sliders 16, the second control seat 21 is provided with a first sliding cavity 22, the other ends of the pull rods 19 are respectively provided with a first slider 23 sliding in the first sliding cavity 22, the first sliding cavity 22 is provided with a first spring 24 elastically pressing the first slider 23, the second control seat 21 is provided with a third air hole 25 correspondingly communicated with the first sliding cavity 22, the seventh air holes 36 are respectively communicated with the third air holes 25.

The rubber pad 6 and the protective wire sleeve 17 are made of soft rubber respectively, so that the rubber pad 6 and the protective wire sleeve 17 made of soft rubber can further utilize the insulating property to further prevent the leakage point of the charging cable 7, and simultaneously can further enable the rubber pad 6 and the protective wire sleeve 17 to support and protect the charging cable 7 under the condition of deformation by utilizing the property of soft rubber, a plurality of first grooves 5 are arranged, the first grooves 5 are separated by rubber partitions so as to be divided into a plurality of sealed cavities at intervals, supporting sliders 16 are respectively arranged in the sealed sliding grooves 15 and can support the charging cable 7 through the supporting sliders 16 so as to further support the charging cable 7 to slide in the sealed sliding grooves 15, a pull rod 19 is respectively arranged in the first groove 5, one end of the pull rod 19 is respectively connected to the support slider 16, so that the support slider 16 can be further driven to slide by the sliding of the pull rod 19, the charging cable 7 can be supported by the support slider 16, a first sliding cavity 22 is respectively arranged in the second control seat 21, a first slider 23 sliding in the first sliding cavity 22 is respectively arranged at the other end of the pull rod 19, and the charging cable can be further conveyed into the first sliding cavity 22 through the seventh air hole 36 in the process of inflating the seventh air hole 36, so that the first slider 23 can be further pressed to slide, the pull rod 19 can be further driven to slide, and the support slider 16 can be further driven to slide, the charging cable 7 can be further slid out of the sealing chute 15, the charging cable 7 can be further charged, and the first slider 23 can be urged by the first spring 24, so that the pull rod 19 can be further returned.

A supporting pad 18 corresponding to the pull rod 19 is respectively arranged in the sealing slide groove 15, and a dividing groove 20 corresponding to the first groove 5 is respectively arranged on the protective wire sleeve 17.

The sealing sliding grooves 15 are respectively provided with a supporting pad 18 corresponding to the pull rod 19, so that the pull rod 19 can be supported by the supporting pad 18, and the pull rod 19 can be supported by the supporting pad 18, so that the pull rod 19 can be further ensured to be pulled by the supporting pad 18 in the sliding process, the bottom of the protective wire sleeve 17 is respectively provided with a dividing groove 20 correspondingly communicated with the first groove 5, the dividing groove 20 is arranged in a conical shape, so that the first spring 24 can further pull the sliding of the pull rod 19 in the process of biasing the first sliding block 23, the supporting block 16 can further pull the sliding of the supporting block 16, and the supporting pad 18 can further press the protective wire sleeve 17, the protection wire sleeve 17 can be further pulled to deform, so that the charging cable 7 can be further extruded in the sealing sliding groove 15 due to the deformation of the two sides of the sealing sliding groove 15, the sealing sliding groove 15 can further protect the charging cable 7 in the deformation process, normal running of other vehicles on the road surface 1 can be further ensured, the leakage point problem can be further prevented, and the charging cable 7 can be further extruded and protected by the fact that the sealing sliding groove 15 can be deformed by the dividing groove 20.

As shown in fig. 1 and 3, a third sliding cavity 31 is respectively disposed in the first control seat 13, the third sliding blocks 32 respectively slide in the third sliding cavities 31, a second sliding cavity 28 is respectively disposed in the first control seat 13, a second sliding block 29 is respectively disposed in the second sliding cavity 28, a first sliding shaft 30 is respectively disposed on the second sliding blocks 29, the third sliding blocks 32 are respectively connected to the first sliding shaft 30, the third sliding cavity 31 and the third sliding blocks 32 are respectively disposed in a square shape, a fourth air hole 33 is respectively disposed on the third sliding blocks 32, two ends of the fourth air hole 33 respectively correspond to the fifth air hole 34 and the sixth air hole 35, a second spring 38 for biasing the second sliding blocks 29 is respectively disposed in the second sliding cavity 28, a first magnet 37 is respectively disposed on the second sliding blocks 29, the second magnet 55 is repelled from the first magnet 37, and the charge sliding plate 4 is made of aluminum.

A third sliding cavity 31 is respectively arranged in the first control seat 13, the first control seats 13 are respectively arranged at two sides of the first groove 5, a plurality of first sliding cavities 28 are respectively arranged at two sides of the first groove 5 and are arranged side by side correspondingly, a plurality of rows of first control seats 13 are respectively arranged, the distances between the first control seats 13 correspond, the third sliding blocks 32 respectively slide in the third sliding cavities 31, a second sliding cavity 28 is respectively arranged in the first control seat 13, a sliding second sliding block 29 is respectively arranged in the second sliding cavity 28, a first magnet 37 is respectively arranged on the second sliding block 29, so that the second magnet 55 can further repel the first magnet 37 correspondingly in the running process of the vehicle, and the sliding of the second sliding block 29 can be further driven, thereby the first sliding shaft 30 can be further driven to slide, so that the third sliding block 32 can be further driven to slide by the sliding of the first sliding shaft 30, the third sliding block 32 is respectively provided with a fourth air hole 33, so that the fifth air hole 34 and the sixth air hole 35 can be further correspondingly communicated by the fourth air hole 33 through the sliding of the third sliding block 32, so that the communication and the closing of the fifth air hole 34 and the sixth air hole 35 can be further controlled by the second magnet 55, the inflation of the first groove 5 can be further controlled, the inflation of the first sliding cavity 22 can be further controlled, the sliding of the charging cable 7 can be further controlled, the expansion of the rubber pad 6 can be controlled, and the charging of the automobile can be further controlled, meanwhile, the second slider 29 can be further reset by the spring of the second spring 38, so that the third slider 32 can be driven to reset, and the fourth air hole 33 is arranged in a Z shape.

As shown in fig. 2, the first recess 5 includes an exhaust hole 26 disposed on the charging slide plate 4, the exhaust valves 27 are correspondingly communicated with the exhaust holes 26, and the exhaust valves 27 control the opening and closing of the exhaust valves 27 by time.

The charging sliding plate 4 is provided with exhaust holes 26 communicated with the first grooves 5 correspondingly, the exhaust valves 27 are communicated with the exhaust holes 26 correspondingly, the exhaust valves 27 can further exhaust the first grooves 5 through the exhaust valves 27, and the exhaust valves 27 can be set to be time-controlled exhaust valves, so that the first grooves 5 can be further exhausted after the vehicle runs, the charging cable 7 can be further reset, the charging cable 7 can be made to slide in the sealing sliding groove 15 in a telescopic mode, and the charging cable 7 can be further protected.

As shown in fig. 1 and 4, the first sliding chute 8 includes a third sliding chute 45 disposed on the charging base 10, the rubber cushion 46 is disposed in the third sliding chute 45, the bottom of the sliding charging seat 9 is provided with a second sliding chute 39, the second carbon brush rod 56 slides in the second sliding chute 39, the sliding charging seat 9 is provided with two fourth sliding cavities 42, two ends of the second carbon brush rod 56 are respectively connected with a second sliding shaft 41 sliding in the fourth sliding cavities 42, the second sliding shaft 41 is provided with a fourth sliding block 43 sliding in the fourth sliding cavities 42, the fourth sliding cavities 42 and the fourth sliding blocks 43 are in sealed connection, the second sliding chute 39 includes a third spring 40 disposed on the second sliding shaft 41, the third spring 40 respectively biases the second carbon brush rod 56, the fourth sliding chamber 42 and the inflation chamber 47 are correspondingly communicated through an eighth air hole 44.

A third chute 45 is arranged in the first chute 8, the rubber air cushion 46 can be supported through the third chute 45, so that the normal sliding of the rubber air cushion 46 can be further ensured, a second chute 39 is arranged at the bottom of the sliding charging seat 9, the second carbon brush rod 56 and the second carbon brush rod are transversely arranged in the second chute 39, and can be further conveyed into the fourth sliding cavity 42 through the eighth air hole 44 in the process of inflating the inflating cavity 47, so that the sliding of the fourth sliding block 43 can be further driven, so that the second sliding shaft 41 can be further driven to slide through the fourth sliding block 43, so that the sliding of the second carbon brush rod 56 can be further driven, and the second carbon brush rod 56 can be further pressed on the charging cable 7, so that the electric energy of the charging cable 7 can be further transmitted to the second carbon brush bar 56, and thus the transmission of the electric power can be completed, and two fourth sliding cavities 42 are provided, so that the two ends of the second carbon brush bar 56 can be further slid simultaneously, so that the second carbon brush bar 56 can be further pressed against the charging cable 7, and thus the connection between the charging cable 7 and the second carbon brush 56 can be further ensured.

As shown in fig. 4, a fourth sliding slot 48 is disposed at the bottom of the sliding charging seat 9, the first carbon brush rod 49 slides in the fourth sliding slot 48, a fifth sliding cavity 52 is disposed in the sliding charging seat 9, a third sliding shaft 51 is connected to the first carbon brush rod 49, a fifth sliding block 53 sliding in the fifth sliding cavity 52 is disposed on each third sliding shaft 51, the fifth sliding cavity 52 is hermetically connected to the fifth sliding block 53, a fourth spring 50 disposed on the third sliding shaft 51 is disposed in each fourth sliding slot 48, the fourth spring 50 biases the first carbon brush rod 49, and the fifth sliding cavity 52 is correspondingly communicated with the air charging cavity 47 through a ninth air hole 54.

A fourth sliding chute 48 is arranged at the bottom of the sliding charging seat 9, the first carbon brush rod 49 is vertically arranged in the fourth sliding chute 48, a fifth sliding cavity 52 is arranged in the sliding charging seat 9, and during the inflation process of the inflation cavity 47, the ninth air hole 54 can be further utilized to convey compressed air into the fifth sliding cavity 52, so that the fifth sliding block 53 can be further driven to slide, the fifth sliding block 53 can be further driven to further drive the third sliding shaft 51 to slide, the third sliding shaft 51 can be further driven to slide, so that the first carbon brush rod 49 can be further driven to slide, the first carbon brush rod 49 can be pressed against the charging sliding plate 4, and the zero line and the fire line can be further formed to be respectively connected with the first carbon brush rod 49 and the second carbon brush rod 56, therefore, the automobile storage battery can be further charged, the charging can be further completed in the running process of the automobile, and the fifth sliding block 53 can be further driven to reset through the fourth spring 50.

As shown in fig. 1, two sides of the charging skateboard 4 respectively include a row of limit sensors 11 disposed on the road surface 1, and the limit sensors 11 sense the position of the vehicle.

The two sides of the charging sliding plate 4 are respectively provided with the limiting inductors 11, so that the driving track of the vehicle can be further limited through the limiting inductors 11, the second carbon brush rod 56 can be further ensured to be in normal contact with the charging cable 7, and charging can be completed.

As shown in fig. 1, a wireless control module is disposed in the charging sled 4. Thereby can be through the wireless control module can further control the charging condition of car, can further accomplish through thing networking module simultaneously and charge the service of charging of car.

Claims (6)

1. The utility model provides an intelligence new energy automobile highway that charges based on road networking, is provided with the wheel including highway face, car on the car, is provided with vehicle chassis, its characterized in that bottom the car: the road surface is provided with charging sliding plates which are connected side by side, the charging sliding plates are respectively provided with a first groove, a rubber pad connected to the charging sliding plates is respectively arranged in the first grooves, the rubber pads are respectively arranged on the side by side, a protective wire sleeve is respectively arranged on the side by side, the protective wire sleeve is respectively provided with a corresponding sealing sliding groove, a sliding charging cable is arranged in the sealing sliding grooves which are arranged side by side, the charging sliding plates are provided with a plurality of second control seats, the second control seats are respectively internally provided with a sliding pull rod, and the pull rods respectively control the sliding of the charging cable;

the two sides of the first groove respectively comprise a plurality of first control seats arranged in the charging sliding plate side by side, a sliding third sliding block is arranged in each first control seat, a fifth air hole and a sixth air hole are respectively arranged in each first control seat, a first air hole which is correspondingly communicated is respectively arranged in each charging sliding plate, each fifth air hole is correspondingly communicated with each first air hole, the sliding of each third sliding block controls the communication and the closing of each fifth air hole and each sixth air hole, the two sides of each first groove respectively comprise second air holes which are arranged in the charging sliding plate, each sixth air hole is correspondingly communicated with each second air hole, a seventh air hole which is correspondingly communicated with each sixth air hole is respectively arranged in each first control seat, and the inflation of the seventh air holes respectively controls the sliding of the pull rod, the charging sliding plates are respectively provided with an exhaust valve correspondingly communicated with the first grooves;

the automobile chassis is provided with a charging base, the charging base is provided with a first sliding groove, a rubber air cushion connected to the charging base is arranged in the first sliding groove, a sliding charging seat sliding in the first sliding groove is arranged on the rubber air cushion, an inflation cavity is arranged in the rubber air cushion, the inflation cavity drives the sliding charging seat to slide after being inflated, a sliding second carbon brush rod is arranged at the bottom of the sliding charging seat, the inflation cavity controls the sliding of the second carbon brush rod simultaneously after being inflated, second magnets are respectively arranged on two sides of the second carbon brush rod, the second magnets control the sliding of the third sliding block after the charging base slides, and the second carbon brush rod is correspondingly connected with the charging cable;

the sliding charging seat is also provided with a sliding first carbon brush rod, the inflatable cavity controls the sliding of the first carbon brush rod after being charged, and the sliding of the first carbon brush rod is correspondingly connected with the charging sliding plate;

a third sliding cavity is respectively arranged in the first control seat, the third sliding blocks respectively slide in the third sliding cavities, the first control seat is internally provided with a second sliding cavity respectively, the second sliding cavity is internally provided with a second sliding block which slides respectively, the second sliding blocks are respectively provided with a first sliding shaft, the third sliding blocks are respectively connected with the first sliding shafts, the third sliding cavity and the third sliding block are respectively arranged in a square shape, the third sliding block is respectively provided with a fourth air hole, two ends of the fourth air hole respectively correspond to the fifth air hole and the sixth air hole, a second spring for elastically pressing the second sliding block is respectively arranged in the second sliding cavity, the second sliding blocks are respectively provided with a first magnet, the second magnets repel correspondingly to the first magnets, and the charging sliding plate is made of aluminum;

the first sliding groove is internally provided with a third sliding groove arranged on the charging base, the rubber air cushion is arranged in the third sliding groove, the bottom of the sliding charging seat is provided with a second sliding chute, the second carbon brush rod slides in the second sliding chute, two fourth sliding cavities are arranged in the sliding charging seat, two ends of the second carbon brush rod are respectively connected with a second sliding shaft which slides in the fourth sliding cavities, the second sliding shaft is respectively provided with a fourth sliding block which slides in a fourth sliding cavity, the fourth sliding cavity is in sealing connection with the fourth sliding block, a third spring arranged on the second sliding shaft is respectively arranged in the second sliding chutes, the third spring respectively biases the second carbon brush rod, and the fourth sliding cavity is correspondingly communicated with the inflation cavity through an eighth air hole.

2. The road based on road networking that charges of intelligent new energy automobile of claim 1, its characterized in that: the rubber pad and the protective wire sleeve are respectively made of soft rubber materials, a plurality of first grooves are respectively arranged on the first groove, the first grooves are spaced by rubber partition plates, a plurality of correspondingly connected supporting slide blocks are respectively arranged in the sealing sliding grooves, the charging cable is connected on the supporting sliding blocks which are arranged side by side, the pull rods respectively slide in the first grooves, one end of each pull rod is respectively connected on the supporting sliding blocks, the second control seat is internally provided with a first sliding cavity respectively, the other end of the pull rod is provided with a first sliding block which slides in the first sliding cavity respectively, the first sliding cavity is internally provided with a first spring for elastically pressing the first sliding block, the second control seat is respectively provided with a third air hole correspondingly communicated with the first sliding cavity, and the seventh air hole is correspondingly communicated with the third air hole;

the sealing slide groove is internally provided with a supporting pad corresponding to the pull rod, and the protecting wire sleeve is respectively provided with a cutting groove corresponding to the first groove.

3. The road based on road networking that charges of intelligent new energy automobile of claim 1, its characterized in that: the first groove is internally provided with an exhaust hole which is arranged on the charging sliding plate, the exhaust valve is communicated with the exhaust hole correspondingly, and the exhaust valve controls the opening and closing of the exhaust valve through time.

4. The road based on road networking that charges of intelligent new energy automobile of claim 1, its characterized in that: the carbon brush rod is arranged in the sliding charging seat, a first sliding groove is formed in the bottom of the sliding charging seat, a first carbon brush rod slides in the first sliding groove, a first sliding cavity is formed in the sliding charging seat, a first sliding shaft is connected to the first carbon brush rod, a first sliding block sliding in the first sliding cavity is arranged on the first sliding shaft, a second sliding block sliding in the second sliding cavity is arranged on the second sliding shaft, the first sliding cavity is connected with the second sliding block in a sealing mode, a fourth spring arranged on the second sliding shaft is arranged in the fourth sliding groove, the second spring is used for elastically pressing the first carbon brush rod, and the second sliding cavity is correspondingly communicated with the inflation cavity through a ninth air hole.

5. The road based on road networking that charges of intelligent new energy automobile of claim 1, its characterized in that: the both sides of the slide that charges are in including one row of setting respectively spacing inductor on the road surface, the position of spacing inductor response car.

6. The road based on road networking that charges of intelligent new energy automobile of claim 1, its characterized in that: and a wireless control module is arranged in the charging sliding plate.

Images