CN106284017A - A kind of for Large Longitudinal Slope energy storage and energy release assembly road deck - Google Patents

Abstract

The invention discloses a kind of for Large Longitudinal Slope energy storage and energy release assembly road deck, being formed by some road surfaces unit spliced, each road surface unit all includes controller, the first assembled unit, the second assembled unit, moveable panel and for detecting the velocity sensor of car speed on road surface；One end of moveable panel is connected with the side at the second assembled unit top, the other end of moveable panel covers in the open top being fixed on the first assembled unit, first assembled unit can move up and down, it is provided with for storing and discharge the energy-storage system that the first assembled unit moves down the potential energy of generation in first assembled unit, the outfan of velocity sensor is connected with the input of controller, the outfan of controller is connected with the input of energy-storage system, this assembly road deck can absorb kinetic energy during vehicle descending, reduce the speed of vehicle descending, vehicle can be assisted to accelerate climbing simultaneously, reduce energy consumption of vehicles.

Description

A kind of for Large Longitudinal Slope energy storage and energy release assembly road deck

Technical field

The invention belongs to road surface energy storage and trans-utilization field, relate to a kind of for Large Longitudinal Slope energy storage and energy release assembly road surface Plate.

Background technology

We refer in described Large Longitudinal Slope section: during average gradient 3%, and long and steep downgrade length of grade is more than 5km；Average vertical During slope 4%, long and steep downgrade length of grade is more than 4km；During average gradient 5%, long and steep downgrade length of grade is more than 3km.The accident of Large Longitudinal Slope Multi-happening section accounts for section sum 55%, and the vehicle accident that particularly long downslope hypervelocity form causes accounts for 40%, faces Safety problem ratio is more prominent, and situation is the severeest.

In Large Longitudinal Slope section, during vehicle climbing, speed reduces, and energy consumption increases, and conevying efficiency reduces, and adds and runs into This；During descending, conventional truck frictional damping lining temperature is more than 260 degrees Celsius, is easily caused brake efficiency decline and even brakes mistake Spirit, thus cause major traffic accidents.

Different in view of different automobile types climbing capacity at steep slope section, vehicle composite rate is relatively big, unfavorable to traffic safety, reduces The traveling degree of freedom of express, causes reducing in the Large Longitudinal Slope climbing section traffic capacity.Prior art is low by affected by the gradient Speed car shunting and the special climbing lane arranged, then ensure vehicle fast running on main line, it is to avoid overtake other vehicles by force, it is ensured that safety. In order to improve safety and the traffic capacity, the generation of minimizing Large Longitudinal Slope vehicle accident of road, construct and implement effective road Safety devices are the most necessary.

And China is at long downslope, providing deceleration Emergency Vehicle Lane for errant vehicle, this is that one is filled with the most deeply The fine sand road of degree, vehicle quickly reduces speed now after entering, and just can be decelerated to stop in relatively short distance.In order to prevent vehicle from flying Go out Emergency Vehicle Lane, even the crashproof tire in a row linked up with ferrum lock is set in end edge and buffers the shock of vehicle, make Vehicle stops.

But climbing lane and Emergency Vehicle Lane need special additionally setting, compare land occupation resource, do not utilize vehicle Energy solve the problem of existing Large Longitudinal Slope section, and large car power performance on various longitudinal gradients, oil consumption, gradient slope Long restrictions etc. lack argument and analysis, affect highway transportation efficiency.

Summary of the invention

It is an object of the invention to the shortcoming overcoming above-mentioned prior art, it is provided that a kind of for Large Longitudinal Slope energy storage and energy release Assembled road deck, this assembly road deck can absorb kinetic energy during vehicle descending, reduces the speed of vehicle descending, simultaneously can be auxiliary Helping vehicle to accelerate climbing, reduce energy consumption of vehicles, and be able to ensure that vehicle safety, land utilization ratio and highway transportation efficiency are higher.

For reaching above-mentioned purpose, of the present invention single by some road surfaces for Large Longitudinal Slope energy storage and energy release assembly road deck Unit is spliced, each road surface unit all include controller, the first assembled unit, the second assembled unit, moveable panel and for The velocity sensor of car speed on detection road surface；

One end of moveable panel is connected with the side at the second assembled unit top, and the other end of moveable panel covers fixing In the open top of the first assembled unit, the first assembled unit can move up and down, and is provided with for depositing in the first assembled unit Storage and the assembled unit of release first move down the energy-storage system of the potential energy of generation, the outfan of velocity sensor and controller Input is connected, and the outfan of controller is connected with the input of energy-storage system；

In the second assembled unit that the assembled unit of in the unit of later road surface first is embedded in the unit of previous road surface, It is connected between moveable panel and the moveable panel of later road surface unit in the unit of previous road surface；

The velocity information of vehicle in moveable panel monitored in real time by velocity sensor, and by the speed letter of vehicle in moveable panel Breath is forwarded in controller, according to the velocity information of vehicle in moveable panel, controller judges whether the speed of Current vehicle is more than Equal to preset value, when the speed of Current vehicle is more than or equal to preset value, then assert that vehicle is in descending state, vehicle pressing can Dynamic panel, makes the height of moveable panel and the first assembled unit decline, by the assembled unit of energy-storage system storage first and movable Panel height declines produced potential energy；When the speed of Current vehicle is less than preset value, then assert that vehicle is in upward slope state, Controller controls energy-storage system and discharges the energy of its storage, makes the height of moveable panel and the first assembled unit increase.

The cross section of described first assembled unit and the second assembled cell cross-section are by the be sequentially distributed from bottom to top One rectangle structure, trapezium structure and the second rectangle structure composition, wherein, during trapezium structure and the second rectangle structure are It is equipped with energy-storage system in hollow structure, the first rectangle structure and the second rectangle structure.

Described energy-storage system includes the energy storage device for storing and release energy and for controlling described energy storage device Control device.

Described energy storage device for be made up of some springs, the lower end of each spring and the first rectangle in the first rectangle structure The bottom of structure is connected, and in the first rectangle structure, the upper end of each spring is connected with the inside of trapezium structure, and second is rectangular In shape structure, the lower end of each spring is connected with the inside of the second rectangle structure, the lower end of each spring in the second rectangle structure It is connected with the bottom surface of moveable panel.

The first locating part of by T-shaped structure and matching with T-shaped structure in second rectangle structure side and second spacing Part forms, and wherein, the upper end of T-shaped structure is connected with moveable panel, and the two sides of T-shaped structure are respectively equipped with the first groove and the Two grooves, the first locating part includes the first montant and the first cross bar, and one end of the first cross bar is connected with the upper end of the first montant, The other end of the first cross bar is inserted in the first groove, and the second locating part includes the second montant and the second cross bar, the second cross bar One end is connected with the upper end of the second montant, and the other end of the second cross bar is inserted in the second groove, the lower end of the first montant and The lower end of the second montant is all connected with the upper end of trapezium structure, and in the second rectangle structure, the lower end of each spring is all erected with second The inwall of bar is connected.

Rubber waterproof is passed through between moveable panel and the moveable panel of later road surface unit in the unit of previous road surface Film is connected.

The method have the advantages that

Of the present invention for Large Longitudinal Slope energy storage and energy release assembly road deck include controller, the first assembled unit, can Dynamic panel and velocity sensor, Negotiation speed sensor detected vehicle speed, it is judged that vehicle is in upward slope state and still descends ramp shaped State, when vehicle descending, vehicle pressing moveable panel, make the height of moveable panel and the first assembled unit decline, thus will fall The speed of low vehicle, is declined assembled to moveable panel and first unit to the potential energy produced simultaneously and is stored by energy-storage system, When vehicle driving up, energy-storage system releases energy, and makes moveable panel and the first assembled unit increase, the gesture stored by energy-storage system Can discharge, thus raise vehicle, auxiliary vehicle accelerates to go up a slope, and reduces the energy consumption of vehicle, it is ensured that vehicle safety runs, and improves Efficiency of operation, can reduce road construction simultaneously and take up an area, be conducive to building green traffic.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the present invention；

Fig. 2 is the structural representation of road surface unit in the present invention.

Fig. 3 is the sectional view of the second rectangle structure 5 side in the present invention；

Fig. 4 is schematic diagram during the single-row layout of road surface unit；

Fig. 5 is the schematic diagram during unit multiple row layout of road surface.

Wherein, 1 be the first assembled unit, 2 be the second assembled unit, 3 be energy storage device, 4 be the first rectangle structure, 5 Be the second rectangle structure, 6 be moveable panel, 7 for control device, 8 be T-shaped structure, 9 be the first locating part, 10 be the second limit Position part.

Detailed description of the invention

Below in conjunction with the accompanying drawings the present invention is described in further detail:

Of the present invention form by some road surfaces unit spliced for Large Longitudinal Slope energy storage and energy release assembly road deck, each road Face unit all includes controller, the first assembled unit 1, second assembled unit 2, moveable panel 6 and gets on the bus for detecting road surface The velocity sensor of speed；One end of moveable panel 6 is connected with the side at the second assembled unit 2 top, moveable panel 6 The other end covers in the open top being fixed on the first assembled unit 1, and the first assembled unit 1 can move up and down, and first is assembled It is provided with in unit 1 for storing and discharge the energy-storage system that the first assembled unit 1 moves down the potential energy of generation, velocity sensor Outfan be connected with the input of controller, the outfan of controller is connected with the input of energy-storage system；Later In the second assembled unit 2 that the assembled unit 1 of in the unit of road surface first is embedded in the unit of previous road surface, previous road surface is single Moveable panel 6 in unit and being connected between the moveable panel 6 of later road surface unit；Movable surface monitored in real time by velocity sensor The velocity information of vehicle on plate 6, and the velocity information of vehicle in moveable panel 6 being forwarded in controller, controller is according to can On dynamic panel 6, the velocity information of vehicle judges whether the speed of Current vehicle is more than or equal to preset value, when the speed of Current vehicle During more than or equal to preset value, then assert that vehicle is in descending state, vehicle pressing moveable panel 6, make moveable panel 6 and first spell The height of dress unit 1 declines, and declines produced gesture by the assembled unit 1 of energy-storage system storage first and moveable panel 6 height Energy；When the speed of Current vehicle is less than preset value, then assert that vehicle is in upward slope state, controller controls energy-storage system release The energy of its storage, makes the height of moveable panel 6 and the first assembled unit 1 rise.

The cross section of described first assembled unit 1 and the second assembled unit 2 cross section are by being sequentially distributed from bottom to top First rectangle structure 4, trapezium structure and the second rectangle structure 5 form, wherein, and trapezium structure and the second rectangle structure 5 It is hollow structure, in the first rectangle structure 4 and the second rectangle structure 5, is equipped with energy-storage system.

Described energy-storage system includes the energy storage device 3 for storing and release energy and for controlling described energy storage device The control device 7 of 3；Energy storage device 3 is for be made up of some springs, and in the first rectangle structure 4, the lower end of each spring is long with first The bottom of square structure 4 is connected, and in the first rectangle structure 4, the upper end of each spring is connected with the inside of trapezium structure, the In two rectangle structures 5, the lower end of each spring is connected with the inside of the second rectangle structure 5, each in the second rectangle structure 5 The lower end of spring is connected with the bottom surface of moveable panel 6；Second rectangle structure 5 side by T-shaped structure 8 and with T-shaped structure 8 the first locating parts 9 matched and the second locating part 10 form, and wherein, the upper end of T-shaped structure 8 is connected with moveable panel 6, T The two sides of shape structure 8 are respectively equipped with the first groove and the second groove, and the first locating part 9 includes the first montant and the first cross bar, One end of first cross bar is connected with the upper end of the first montant, and the other end of the first cross bar is inserted in the first groove, the second limit Position part 10 includes the second montant and the second cross bar, and one end of the second cross bar is connected with the upper end of the second montant, the second cross bar The other end is inserted in the second groove, and the lower end of the first montant and the lower end of the second montant are all connected with the upper end of trapezium structure Connecing, in the second rectangle structure 5, the lower end of each spring all inwalls with the second montant are connected；In the unit of previous road surface can Move and be connected by rubber waterproof film between panel 6 and the moveable panel 6 of later road surface unit.

The velocity information of vehicle in moveable panel 6 monitored in real time by velocity sensor, and by the speed of vehicle in moveable panel 6 Information is forwarded in controller, and whether controller judges the speed of Current vehicle according to the velocity information of vehicle in moveable panel 6 More than or equal to preset value, when the speed of Current vehicle is more than or equal to preset value, then assert that vehicle is in descending state, vehicle is pressed Pressure moveable panel 6, makes the height of moveable panel 6 and the first assembled unit 1 decline, by the assembled unit of energy-storage system storage first 1 and moveable panel 6 height decline produced potential energy；When the speed of Current vehicle is less than preset value, then assert that vehicle is in Upward slope state, controller controls energy-storage system and discharges the energy of its storage, makes moveable panel 6 and the height of the first assembled unit 1 Rise.

When the volume of traffic is little, then can arrange single-row road surface unit, road surface is fixed on by multiple elongated road surface unit Together, when the volume of traffic is bigger, then can be multiple row shape by road surface unit spliced, be in staggered distribution between the unit of each row road surface.

By controlling the locked spring of device 7 after spring energy storage completes, when needing to discharge the energy in spring, control Device 7 processed then decontrols spring, and described control device is RAR system.

The above implements example, is only the better embodiment of the present invention, not imposes any restrictions the present invention, every Any simple modification, change and the equivalence change made above example formula according to operation principle of the present invention, the most still belongs to In protection scope of the present invention.

Claims (6)

1. one kind is used for Large Longitudinal Slope energy storage and energy release assembly road deck, it is characterised in that formed, respectively by some road surfaces unit spliced Road surface unit all includes controller, the first assembled unit (1), the second assembled unit (2), moveable panel (6) and is used for detecting The velocity sensor of car speed on road surface；

One end of moveable panel (6) is connected with the side at the second assembled unit (2) top, and the other end of moveable panel (6) covers Lid is fixed in the open top of the first assembled unit (1), and the first assembled unit (1) can move up and down, the first assembled unit (1) it is provided with in for storing and discharge the energy-storage system that the first assembled unit (1) moves down the potential energy of generation, velocity sensor Outfan be connected with the input of controller, the outfan of controller is connected with the input of energy-storage system；

The second assembled unit (2) that the assembled unit (1) of in the unit of later road surface first is embedded in the unit of previous road surface In, it is connected between moveable panel (6) and the moveable panel (6) of later road surface unit in the unit of previous road surface；

The velocity information of the upper vehicle of moveable panel (6) monitored in real time by velocity sensor, and by the speed of upper for moveable panel (6) vehicle Information is forwarded in controller, according to the velocity information of vehicle in moveable panel (6), controller judges that the speed of Current vehicle is No more than or equal to preset value, when the speed of Current vehicle is more than or equal to preset value, then assert that vehicle is in descending state, vehicle Pressing moveable panel (6), makes the height of moveable panel (6) and the first assembled unit (1) decline, stores first by energy-storage system Assembled unit (1) and moveable panel (6) height decline produced potential energy；When the speed of Current vehicle is less than preset value, then Assert that vehicle is in upward slope state, controller controls energy-storage system and discharges the energy of its storage, makes moveable panel (6) and first spell The height of dress unit (1) rises.

The most according to claim 1 for Large Longitudinal Slope energy storage and energy release assembly road deck, it is characterised in that described first spells The cross section of dress unit (1) and the second assembled unit (2) cross section are by the first rectangle structure being sequentially distributed from bottom to top (4), trapezium structure and the second rectangle structure (5) composition, wherein, trapezium structure and the second rectangle structure (5) are hollow It is equipped with energy-storage system in structure, the first rectangle structure (4) and the second rectangle structure (5).

The most according to claim 1 for Large Longitudinal Slope energy storage and energy release assembly road deck, it is characterised in that described energy storage system System includes the energy storage device (3) for storing and release energy and the control device being used for controlling described energy storage device (3) (7)。

The most according to claim 1 for Large Longitudinal Slope energy storage and energy release assembly road deck, it is characterised in that described energy storage fills Put (3) for be made up of some springs, the end of the lower end of each spring and the first rectangle structure (4) in the first rectangle structure (4) Portion is connected, and in the first rectangle structure (4), the upper end of each spring is connected with the inside of trapezium structure, the second rectangle structure (5) in, the lower end of each spring is connected with the inside of the second rectangle structure (5), each spring in the second rectangle structure (5) Lower end is connected with the bottom surface of moveable panel (6).

The most according to claim 4 for Large Longitudinal Slope energy storage and energy release assembly road deck, it is characterised in that the second rectangle The first locating part (9) of by T-shaped structure (8) and matching with T-shaped structure (8) in structure (5) side and the second locating part (10) Composition, wherein, the upper end of T-shaped structure (8) is connected with moveable panel (6), and the two sides of T-shaped structure (8) are respectively equipped with first Groove and the second groove, the first locating part (9) includes the first montant and the first cross bar, one end of the first cross bar and the first montant Upper end is connected, and the other end of the first cross bar is inserted in the first groove, and the second locating part (10) includes the second montant and second Cross bar, one end of the second cross bar is connected with the upper end of the second montant, and the other end of the second cross bar is inserted in the second groove, the The lower end of one montant and the lower end of the second montant are all connected with the upper end of trapezium structure, each bullet in the second rectangle structure (5) The lower end of spring all inwalls with the second montant are connected.

The most according to claim 1 for Large Longitudinal Slope energy storage and energy release assembly road deck, it is characterised in that previous road surface It is provided with rubber waterproof between moveable panel (6) and the assembled coupling part of the moveable panel (6) of later road surface unit in unit Film.