CN111951577A

CN111951577A - Rapid management method for tidal traffic road

Info

Publication number: CN111951577A
Application number: CN202010848958.1A
Authority: CN
Inventors: 朱兵
Original assignee: Lu'an Yam Mdt Infotech Ltd
Current assignee: Lu'an Yam Mdt Infotech Ltd
Priority date: 2020-08-21
Filing date: 2020-08-21
Publication date: 2020-11-17

Abstract

The invention discloses a rapid management method for tidal traffic roads, which comprises the following steps: the electric control assembly of the one row of a plurality of buried box starting ends of the deviated city-entering road is electrified during early peak, the guard cylinder in the control buried box is erected to form an isolation area for widening the city-entering road, the electric control assembly of the one row of a plurality of buried box starting ends of the deviated city-exiting road is electrified during late peak, and the guard cylinder in the control buried box is erected to form an isolation area for widening the city-exiting road. According to the invention, the plurality of buried boxes are paved on two sides of the tidal road, and each buried box is internally provided with the protective cylinder which can be electrically controlled to erect and hide, so that the tidal road can be quickly divided into one road of the city, and the management of vehicles entering and exiting the city is facilitated.

Description

Rapid management method for tidal traffic road

Technical Field

The invention relates to the technical field of traffic equipment, in particular to a rapid tidal traffic road management method.

Background

The intelligent transportation system is a real-time, accurate and efficient comprehensive transportation and management system which can play a role in a large range and all directions by effectively and comprehensively applying advanced information technology, data communication technology, sensor technology, electronic control technology, computer technology and the like to the whole transportation and management system. The tidal traffic phenomenon exists in urban traffic, which means that the traffic flow in the urban entering direction is large in the morning, and the traffic flow in the urban leaving direction is large in the evening. Present morning and evening tides one-way and normally travel and have placed one row of guardrail between saying, it carries out the guardrail exchange position on the morning and evening tides way through morning and evening tides way zip fastener car, and then divide the road to act as into city or the lane of leaving city, however morning and evening tides way zip fastener car need account for the lane and travel, influence the traveling of normal lane vehicle, the change of guardrail also needs a period of time simultaneously, it holds not just easily and meets with the vehicle trip peak, and then causes the road jam, because all need change twice at least every day, its vehicle maintenance and refuel, the input total cost of personnel's wage constantly increases, it takes trouble and time to the management and control of morning and.

Disclosure of Invention

The present invention is directed to a method for rapidly managing tidal traffic roads to solve the problems set forth in the background art.

In order to achieve the above object, the present invention provides a rapid management method for tidal traffic roads, comprising the steps of:

dividing a tidal traffic road into city-entering roads:

s1, firstly, the electric control component at the starting end of the buried box deviated from one side of the urban road in the tidal traffic equipment is controlled to be electrified through the background, and then the load connected with the timing switch is switched on after the timing switch is electrified for a set time;

s2, the forward and reverse rotating motors in the plurality of buried boxes are started to rotate forward, the main gear and the driven gear are driven to rotate in reverse synchronously, and the lead screw is driven to move towards the extension direction of the lower end of the lead screw, namely, the protecting cover is driven to retreat to the lower part of the sealing section of the buried boxes to be hidden, so that the square opening is opened;

s3, starting a plurality of servo motors to enable the servo motors to rotate positively, driving the rotating gears to rotate on the surfaces of the fixed tooth columns, and further enabling the protective cylinders to be integrally turned upwards to be vertical and then stopped, so that the buried boxes are exposed to form an isolation area widening into an urban road;

s4, starting the micro motors to enable the micro motors to rotate positively to drive the transmission gears to rotate, and further driving the guard plates to move towards the guard cylinders behind the guard plates, so that square openings are blocked;

after the morning peak, the process is carried out reversely according to the steps to hide a plurality of protective cylinders;

dividing the outgoing roads of the tidal traffic roads:

s5, firstly, the electric control component of the initial end of the buried box deviating from one side of the urban road in the tidal traffic equipment is controlled to be electrified through the background, and then the load connected with the timing switch is switched on after the timing switch is electrified for a set time;

s6, the forward and reverse rotating motors in the plurality of buried boxes are started to rotate forward, the main gear and the driven gear are driven to rotate in reverse synchronously, and the lead screw is driven to move towards the extension direction of the lower end of the lead screw, namely, the protecting cover is driven to retreat to the lower part of the sealing section of the buried boxes to be hidden, so that the square opening is opened;

s7, starting a plurality of servo motors to enable the servo motors to rotate positively, driving the rotating gears to rotate on the surfaces of the fixed tooth columns, and further enabling the protective cylinders to be integrally turned upwards to be vertical and then stopped, so that the buried boxes are exposed to form an isolation area widening out the city road;

s8, starting the micro motors to enable the micro motors to rotate positively to drive the transmission gears to rotate, and further driving the guard plates to move towards the guard cylinders behind the guard plates, so that square openings are blocked;

after the late peak, the steps are carried out reversely to hide a plurality of protective cylinders;

the tidal traffic equipment comprises two rows of a plurality of groups of underground boxes which are buried in the ground, wherein the rear end of each row of underground boxes is provided with an electric control assembly, the electric control assembly comprises a cylindrical barrel in a hollow structure, a timing switch and an assembly switch are arranged in the cylindrical barrel, a plurality of protective barrels which can be switched between a vertical expansion state and a horizontal hiding state are arranged in the underground boxes, a protective cover which can slide and stretch is arranged in the underground boxes and above the protective barrels, the underground boxes are in cuboid cavity structures, square openings are formed in the top surfaces of the underground boxes at intervals, the length of a top surface sealing section of each underground box is equal to that of each square opening and is larger than that of each square opening, tooth columns are fixed at the tops of the inner walls of the rear ends of the underground boxes, rotating gears meshed with the tooth columns are arranged at the bottoms of the protective barrels and in the middle parts close to the rotating edges of the bottom ends of the; the below of protecting cover is provided with its horizontal slip of drive motor that is just reversing, the output shaft one end coaxial coupling of motor that is just reversing has the master gear, one side meshing of master gear has from the driving wheel, there is the lead screw that drives the protecting cover and remove from the centre bore female connection of driving wheel, bury the top surface of ground case and be located the front end middle part department of square mouth and seted up the opening, the internally mounted of opening has micro motor, micro motor's output shaft one end coaxial coupling has drive gear, the top surface seal section sliding connection who buries the ground case has the backplate that is in switching between shutoff state and the hidden state.

As the further improvement of this technical scheme, protect a section of thick bamboo and be halfpace cavity structure and bottom surface opening, the lateral surface interval of protecting a section of thick bamboo is pasted in turn and is had red white light-emitting strip, and the turning radius who protects a section of thick bamboo is less than the length of square opening, and the bottom side symmetry that protects a section of thick bamboo is equipped with the ring piece, and the ring piece rotates through pin and the inner wall of burying the ground case to be connected, protects the bottom of a section of thick bamboo and is located rotating gear one side and has seted up and dodge the mouth, protects the bottom outside of a section of thick bamboo and is equipped.

As a further improvement of the technical scheme, a plurality of tooth-shaped grooves are formed in the center line of the bottom surface of the protection plate at equal intervals, the tooth-shaped grooves are meshed with the transmission gear, limit grooves are formed in the middle parts of the two side surfaces of the wide edge of the buried box and the like, L-shaped clamping strips are arranged at the two side ends of the protection plate, and the clamping strips are inserted into the limit grooves and can slide.

As a further improvement of the technical scheme, the top end edge of the buried box is provided with equal-width edges extending outwards, the inner bottom surface of the buried box is an arched arc surface, the distance from the tooth column to the bottom surface of the buried box is greater than the width of the protective cylinder, and the central axis of the tooth column is perpendicular to the two side surfaces of the buried box.

As the further improvement of this technical scheme, bury the spout that two inboard top departments symmetries of ground case offered rather than the top surface is parallel, half of spout is located the square opening below, and this half section of spout just is close to the both ends department of square opening and offers the chute that the leaner tilt extends, and the size of protecting cover equals with the size of square opening, and the bottom surface front and back end department symmetry of protecting cover is equipped with the horizontal muscle on its both sides limit of perpendicular to, and horizontal muscle is close to outer end department and is connected with the gyro wheel with spout sliding connection through the pin rotation.

As a further improvement of the technical scheme, the distance from the top end center of the chute to the top surface of the buried box and the distance from the top surface of the protecting cover to the center of the roller are equal, the inclination of the chute is equal to the inclination of the oblique angle formed by the top edge of the front end of the protecting cover and the inclination of the oblique angle formed by the bottom edge of the front end of the square opening, the positions and the intervals of the transverse ribs correspond to the positions and the intervals of the chute, and the vertical height of the chute is greater than the thickness of the protecting cover.

As a further improvement of this technical scheme, the upper end of lead screw has the connecting block that is the U type through bolted connection, be equipped with on the bottom surface fore-and-aft direction central line of protecting cover and indulge the muscle, the connecting hole has been seted up to the rear end corner of indulging the muscle, the pin rotation is passed through with the upper end of connecting block to the connecting hole, the outside of just reversing the motor closely overlaps and is equipped with the double ring cover, the double ring cover is that the double ring is side by side to form whole and internal diameter variation in size, wherein the big internal diameter ring bottom of the double ring cover articulates there is the pillar, the pillar passes through bolted fixation in the top surface seal section below of burying the ground case.

As a further improvement of the technical scheme, the timing switch, the assembly switch, the storage battery and the plurality of servo motors are electrically connected in parallel to form a plurality of loops through wires, the timing switch, the assembly switch, the storage battery and the plurality of forward and reverse rotating motors are electrically connected in parallel to form a plurality of loops through wires, the assembly switch comprises a switch for controlling the servo motors to work and a switch for controlling the forward and reverse rotating motors to work, a supporting tube is arranged at the top end of a cylindrical tube, a movable head is connected to the top end of the supporting tube, a telescopic tube which is spliced with the supporting tube and can rotate is arranged at the bottom end of the movable head, and an insertion.

As a further improvement of this technical scheme, the bottom of a cylinder section of thick bamboo is provided with buries ground box, the battery has been placed to the inside of burying ground box, the solar module that can provide electric power is installed on the top of a cylinder section of thick bamboo, the battery passes through wire electric connection with the voltage conversion module of solar module and its inside installation, solar module's the back inlays and is equipped with fixed frame, the inclined to one side bottom department in the back of fixed frame is equipped with the inserted block of pegging graft with the socket, the inserted block passes through pin rotation with the activity head and is connected, the inserted block is 30 degrees to 45 degrees with the contained angle of fixed frame between, the thickness of inserted block is less than the height of socket, bury the line hole that supplies the wire to alternate around the ground case both ends bottom corner and the bottom corner of burying ground.

As the further improvement of this technical scheme, bury ground incasement portion both ends department and be provided with drainage mechanism, drainage mechanism is including installing in the suction pump that buries ground bottom of the case face, and the play water end of suction pump is pegged graft and is had the outlet pipe, buries around the case both ends and be close to the corner and offer the water hole of pegging graft with the outlet pipe, and the outer end of outlet pipe is pegged graft and is had vertical placing and insert the connecting pipe in the ground deeply, buries on the inner wall of ground case and installs liquid level switch with eminence such as suction pump.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the tidal traffic road rapid management method, the plurality of buried boxes are paved on two sides of the tidal road, and each buried box is internally provided with the protective cylinder which can be electrically controlled to erect and hide, so that the tidal road can be rapidly divided into one road for entering and exiting the city, and the management of vehicles for entering and exiting the city is facilitated.

2. According to the tidal traffic road rapid management method, the protective cover which can be electrically controlled to stretch and be in a sealing state and retract and be in a hidden state is arranged in the buried box, so that the buried box on the unused side is in the sealing state, foreign matters such as stones on the road surface are prevented from entering the buried box, the investment time is saved, and resources are saved.

3. According to the tidal traffic road rapid management method, the electric control assembly is arranged at the starting end of each row of the buried boxes and used for controlling the power source for moving the protective cylinder and the protective cover, the network controller is installed in the electric control assembly and is connected to the intelligent traffic system through the network, so that a worker can directly control the electric control assembly to be powered on or powered off at the background, and convenience is brought to tidal traffic management.

4. In the tidal traffic road rapid management method, the solar battery assembly is arranged at the top end of the electronic control assembly, faces upwards to the south, so that sunlight can be absorbed all day long, the voltage is adjusted by the voltage conversion module arranged in the solar battery assembly and is stored by the storage battery, so that power is provided for the power sources of the protective cylinder and the protective cover, the sunlight is renewable resources, the solar battery assembly is fully utilized, and the investment of power cost is greatly saved.

Drawings

FIG. 1 is a schematic view of an overall side-by-side assembly structure of embodiment 1;

FIG. 2 is a schematic structural view of an open state of a protective sleeve in a single-group buried box of embodiment 1;

FIG. 3 is a schematic view of a hidden state structure of a protection sleeve in a single-group buried box of embodiment 1;

figure 4 is one of the full sectional views of the buried box of example 1;

figure 5 is a second full sectional view of the buried box of example 1;

figure 6 is one of the assembled partial cross-sectional views of the inside of the buried box of example 1;

figure 7 is a second partial cross-sectional view of the interior assembly of the buried box of example 1;

figure 8 is a partial cross-sectional view of the buried box of example 1;

FIG. 9 is a schematic view showing the structure of the bottom of the shield in example 1;

figure 10 is one of the inside assembly front views of the buried box of example 1;

fig. 11 is a second front view of the interior assembly of the buried box of example 1;

figure 12 is a partial front view of the buried box of example 1;

FIG. 13 is a schematic view of a structure of a casing according to embodiment 1;

FIG. 14 is a schematic view of the protective cover of embodiment 1;

FIG. 15 is one of the partial assembled structures of the protective cover of embodiment 1;

FIG. 16 is a second partial assembled view of the protective cover of embodiment 1;

FIG. 17 is a schematic structural view of the double-ended drain mechanism according to embodiment 1;

FIG. 18 is a schematic structural view of a drainage mechanism in the middle stage of embodiment 1;

fig. 19 is a schematic view of an assembly structure of the electronic control unit according to embodiment 1;

fig. 20 is a schematic structural view of a buried box of embodiment 1;

FIG. 21 is a schematic view of a cylindrical drum structure of embodiment 1;

FIG. 22 is a schematic view of the movable head structure according to embodiment 1;

fig. 23 is a schematic view of the back surface structure of the solar cell module of example 1.

The various reference numbers in the figures mean:

100. burying a ground box; 101. square opening; 102. a tooth post; 103. a port; 104. a limiting groove; 105. a chute; 106. a chute; 107. a water pore; 108. a wire hole;

110. a guard plate; 111. A toothed groove; 112. Clamping the strip;

120. a micro motor; 121. A transmission gear; 130. A liquid level switch;

200. protecting the cylinder; 201. a circular ring block; 202. avoiding the mouth; 203. sealing the platform;

210. a servo motor; 211. a rotating gear;

300. a protective cover; 301. transverse ribs; 302. a roller; 303. longitudinal ribs; 304. connecting holes;

310. a positive and negative rotation motor; 311. a main gear; 312. a double collar; 313. a pillar;

320. a driven wheel; 321. a fixing ring; 330. a screw rod; 340. connecting blocks;

400. a drainage mechanism;

410. a water pump; 420. a water outlet pipe; 430. managing the tube; 440. a connecting pipe;

500. an electronic control assembly; 510. a cylindrical barrel; 511. burying a ground box; 512. supporting a tube; 513. a movable head; 5130. pipe shrinking; 5131. a socket; 5132. a jack;

520. a storage battery; 530. a timing switch; 540. an assembly switch;

600. a solar cell module; 610. a fixing frame; 611. and (5) inserting the blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "central axis", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

The invention provides a rapid management method for tidal traffic roads, which comprises the following steps:

dividing a tidal traffic road into city-entering roads:

s1, firstly, the electric control component 500 at the starting end of the buried box 100 deviated from one side of the urban road in the tidal traffic equipment is controlled to be electrified through the background, and then the timing switch 530 is electrified to reach the set time and then the load connected with the timing switch is connected;

s2, the forward and reverse rotation motors 310 in the plurality of buried boxes 100 are started to rotate forward, the main gear 311 and the driven gear 320 are driven to rotate in reverse direction, and the lead screw 330 is driven to move toward the extending direction of the lower end, i.e. the protective cover 300 is driven to retract to the lower part of the sealed section of the buried box 100 to be hidden, so that the square opening 101 is opened;

s3, then, the servo motors 210 are started to rotate forward, and the rotating gear 211 is driven to rotate on the surface of the fixed tooth post 102, so that the pile casing 200 is turned upwards to a vertical shape and then stopped, thereby exposing the ground box 100 to form an isolation area widening the city road;

s4, starting the micro motors 120 to rotate forward to drive the transmission gears 121 to rotate, and further driving the guard plates 110 to move towards the guard cylinders 200 behind the guard plates, so as to seal the square opening 101;

after the morning peak, the process is carried out reversely according to the steps to hide the plurality of protective cylinders 200;

dividing the outgoing roads of the tidal traffic roads:

s5, firstly, the electric control component 500 at the starting end of the buried box 100 deviating from one side of the urban road in the tidal traffic equipment is controlled to be electrified through the background, and then the timing switch 530 is electrified to reach the set time and then a load connected with the timing switch is connected;

s6, the forward and reverse rotation motors 310 in the plurality of buried boxes 100 are started to rotate forward, the main gear 311 and the driven gear 320 are driven to rotate in reverse direction, and the lead screw 330 is driven to move toward the extending direction of the lower end, i.e. the protective cover 300 is driven to retract to the lower part of the sealed section of the buried box 100 to be hidden, so that the square opening 101 is opened;

s7, then, the servo motors 210 are started to rotate forward, and the rotating gear 211 is driven to rotate on the surface of the fixed tooth post 102, so that the pile casing 200 is turned upwards to a vertical shape and then stopped, thereby exposing the ground box 100 to form an isolation area widening out the city road;

s8, starting the micro motors 120 to rotate forward to drive the transmission gears 121 to rotate, and further driving the guard plates 110 to move towards the guard cylinders 200 behind the guard plates, so as to seal the square opening 101;

after the late peak, the steps are carried out reversely to hide a plurality of protection cylinders 200;

the tidal traffic equipment comprises two rows of a plurality of groups of buried boxes 100 buried in the ground, the rear end of each row of buried boxes 100 is provided with an electric control assembly 500, the electric control assembly 500 comprises a cylindrical barrel 510 in a hollow structure, a timing switch 530 and an assembly switch 540 are arranged in the cylindrical barrel 510, a plurality of protection barrels 200 capable of switching between a vertically unfolded state and a horizontally buried state are arranged in the buried boxes 100, a slidable telescopic protective cover 300 is arranged in the buried boxes 100 and above the protection barrels 200, the buried boxes 100 are in a cuboid cavity structure, square openings 101 are arranged at intervals on the top surfaces of the buried boxes 100, the length of sealing sections on the top surfaces of the buried boxes 100 is equal to and greater than that of the square openings 101, tooth columns 102 are fixed at the tops of the inner walls of the rear ends of the buried boxes 100, rotating gears 211 meshed with the tooth columns 102 are arranged at the bottom ends of the protection barrels 200 and in the middle parts close to the rotating edges of the protection barrels, and one ends of the rotating gears 211 are coaxially connected with; the lower side of the protecting cover 300 is provided with a positive and negative rotation motor 310 for driving the positive and negative rotation motor 310 to horizontally slide, one end of an output shaft of the positive and negative rotation motor 310 is coaxially connected with a main gear 311, one side of the main gear 311 is meshed with a driven wheel 320, a screw rod 330 for driving the protecting cover 300 to move is connected with an internal thread of a center hole of the driven wheel 320, a through hole 103 is formed in the top surface of the buried box 100 and in the middle of the front end of the square opening 101, a micro motor 120 is installed inside the through hole 103, one end of the output shaft of the micro motor 120 is coaxially connected with a transmission gear 121, and a protecting plate 110 for switching between.

Referring to fig. 1 to 23, the present invention provides a hidden tidal traffic device based on an intelligent traffic system, which includes two rows of a plurality of groups of buried boxes 100 hidden in the ground, wherein the buried boxes 100 are welded by stainless steel plates, and have a hard strength and do not rust. The ground-burying box 100 is internally provided with a plurality of pile casings 200 which can be switched between a vertical unfolding state and a horizontal hiding state and are used for dividing roads to play a striking role. Bury the inside of ground case 100 and be located the top of protecting a section of thick bamboo 200 and install slidable flexible protecting cover 300, when protecting a section of thick bamboo 200 and be located to bury ground case 100 inside, just need protecting cover 300 to seal the top surface of burying ground case 100, avoid foreign matters such as stone on the road to get into it in, cause the cost input because of the clearance produces. The ground box 100 is a rectangular hollow structure and has square openings 101 spaced apart from the top surface thereof so that the casing 200 passes through and stands up. The protective cylinder 200 is of a ladder platform cavity structure, the bottom surface of the protective cylinder is open, the protective cylinder 200 is made of PP plastics, and the protective cylinder is hard in strength, durable, low in cost and suitable for being put into use in large quantities. One side edge of the bottom end of the protective cylinder 200 is rotatably connected with the inner wall of the rear end of the buried box 100, a tooth post 102 is fixed at the top of the inner wall of the rear end of the buried box 100, the central axis of the tooth post 102 is perpendicular to the two side surfaces of the buried box 100, a rotating gear 211 meshed with the tooth post 102 is arranged at the bottom end of the protective cylinder 200 and in the middle of the rotating edge of the bottom end of the protective cylinder, one end of the rotating gear 211 is coaxially connected with a servo motor 210 fixed on the inner wall of the protective cylinder 200, and the conventional technology is adopted, and the description is omitted in. Because the tooth post 102 is fixed and the servo motor 210 is fixed with the pile casing 200 into a whole, after the servo motor 210 is electrified to work, the rotating gear 211 is driven to roll on the surface of the tooth post 102, and the pile casing 200 is driven to turn over;

specifically, the top edge of the underground box 100 is provided with equal width edges extending outwards so as to be lapped on the ground, and the supporting and sealing effects are achieved. The inner bottom surface of the ground-burying box 100 is an arched arc surface so that rainwater penetrating into the ground-burying box 100 flows concentratedly to both inner sides thereof. The length of the top surface sealing section of the buried box 100 is equal to and greater than that of the square openings 101, and the sealing section is the solid part of the top surface of the buried box 100 between the square openings 101. The distance from the tooth post 102 to the bottom surface of the buried box 100 is larger than the width of the protective sleeve 200, so that the protective sleeve 200 is prevented from touching and interfering with the bottom surface of the buried box 100 when hidden in a horizontal position.

Further, a through hole 103 is formed in the middle of the front end of the top surface of the buried box 100 and located at the square opening 101, and a micro motor 120 is installed inside the through hole 103. One end of an output shaft of the micro motor 120 is coaxially connected with a transmission gear 121, a top surface sealing section of the buried box 100 is slidably connected with a protection plate 110, the state of the protection plate 110 is divided into a blocking state extending to the square opening 101 and an original position state returning to the top surface sealing section of the buried box 100, when the protection tube 200 is erected, part of the square opening 101 is exposed, blocking is carried out through extending movement of the protection plate 110, and foreign matters such as stones are prevented from entering the buried box 100.

In addition, a plurality of tooth-shaped grooves 111 are formed in the center line of the bottom surface of the guard plate 110 at equal intervals, the tooth-shaped grooves 111 are meshed with the transmission gear 121, the micro motor 120 is started to rotate in the forward and reverse directions, the transmission gear 121 is driven to rotate, and the guard plate 110 is driven to move back and forth. The middle parts of two side surfaces of the equal width edges of the buried box 100 are provided with limit grooves 104, the two side ends of the guard plate 110 are provided with L-shaped clamping strips 112, the clamping strips 112 are inserted into the limit grooves 104 and can slide, and the structure forms a limit structure for the guard plate 110 to ensure that the guard plate can stably move on the buried box 100.

Specifically, red and white light emitting strips are alternately stuck on the outer side surface of the protective sleeve 200 at intervals, and the sunlight in the daytime and the vehicle light at night can reflect light by the strips, so that the protective sleeve is more striking for a driver. The rotation radius of the casing 200 is smaller than the length of the square opening 101, so that the top end of the casing 200 is prevented from touching and interfering with the front end of the square opening 101. One side edge of the bottom end of the protective cylinder 200 is symmetrically provided with a circular ring block 201, and the circular ring block 201 is rotatably connected with the inner wall of the buried box 100 through a pin. An avoiding opening 202 is formed in the bottom end of the protective cylinder 200 and on one side of the rotating gear 211 to achieve an avoiding effect, so that the rotating gear 211 is constantly in contact and meshed with the toothed column 102. The sealing platform 203 clamped with the square opening 101 is arranged on the outer side of the bottom of the protective cylinder 200, so that the sealing effect is achieved.

Bury ground box 100's two inboard top departments symmetry and seted up spout 105 parallel rather than the top surface, half of spout 105 is located square opening 101 below, and this half section of spout 105 and the both ends department that is close to square opening 101 are seted up the chute 106 that upwards slopes to extend, and half of spout 105 is located the seal segment below. The size of protecting cover 300 equals with the size of square opening 101 to it is sealed inseparable, and the bottom surface front and back end department symmetry of protecting cover 300 is equipped with the horizontal muscle 301 of perpendicular to its both sides limit, and horizontal muscle 301 is close to outer end department and has been connected with the gyro wheel 302 with spout 105 sliding connection through the pin rotation, makes protecting cover 300 supported and is moving in burying ground box 100 inboard. The distance from the top center of the chute 106 to the top surface of the buried box 100 is equal to the distance from the top surface of the protective cover 300 to the center of the roller 302, so that after the roller 302 rolls to the top of the chute 106, the protective cover 300 is clamped with the square opening 101, the top surface of the protective cover 300 is flush with the top surface of the buried box 100, and the protective cover can keep attractive appearance and is sealed tightly. The lower portion of the cover 300 is provided with a forward and backward rotation motor 310 for driving the cover to slide horizontally, which is conventional in the art and will not be described in detail herein. One end of an output shaft of the forward and reverse rotation motor 310 is coaxially connected with a main gear 311, one side of the main gear 311 is meshed with a driven wheel 320, a thread is arranged on the central hole wall of the driven wheel 320, a screw rod 330 is connected with the inner thread of the central hole of the driven wheel 320, the upper end of the screw rod 330 is connected with a U-shaped connecting block 340 through a bolt, the bolt is in threaded connection with a concave hole at the top end of the screw rod 300 and coated with bolt fastening glue, so that the bolt is prevented from loosening and slipping, in addition, the contact surface of a bolt cap and the connecting block 340 needs to be kept in. A longitudinal rib 303 is arranged on the central line of the front and back direction of the bottom surface of the protective cover 300, a connecting hole 304 is formed at the rear end corner of the longitudinal rib 303, and the connecting hole 304 is rotatably connected with the upper end of the connecting block 340 through a pin to ensure that the connecting holes are mutually connected and can rotate relatively;

specifically, the slope of the chute 106 is equal to the slope of the bevel angle formed by the top edge of the front end of the protective cover 300 and the slope of the bevel angle formed by the bottom edge of the front end of the square opening 101, so that after the roller 302 enters the chute 106, the front end of the protective cover 300 is just in clamping fit with the square opening 101. The position and the interval of the transverse rib 301 correspond to the position and the interval of the chute 106, so that the two rollers 302 slide upwards and obliquely at the same time, and the top surface of the protective cover 300 is ensured to move upwards and obliquely. The vertical height of the chute 106 is greater than the thickness of the cover 300, ensuring that the rollers 302 slide from the chute 106 into the chute 105, and the descending height is greater than the thickness of the cover 300, avoiding interference when the cover 300 retracts below the seal segment.

Furthermore, the outer side of the forward and reverse rotation motor 310 is tightly sleeved with a double-sleeve ring 312, the double-sleeve ring 312 is formed by arranging double circular rings in parallel to form a whole, the inner diameters of the double circular rings are different, the bottom of the large inner diameter ring of the double-sleeve ring 312 is hinged with a support column 313, and the protective cover 300 is guided by the chute 106 to move upwards in an inclined mode, so that the hinge structure is beneficial to deflection of the forward and reverse rotation motor 310, and the central axis is consistent with that of the screw rod. The support 313 is fixed below the top sealing section of the underground box 100 through bolts, and one end of the driven wheel 320 is provided with a fixing ring 321 which is sleeved with the small inner diameter ring of the double-sleeve ring 312 and can rotate, so that the driven wheel 320 is ensured to be idle and rotate stably.

Besides, the drainage mechanism 400 is disposed at two ends inside the underground box 100, and the drainage mechanism 400 includes a water pump 410 installed at the bottom surface of the underground box 100. The water pump 410 is located in front of the protective casing 200 in a horizontal state, so as to avoid interference caused by touch. The water outlet end of the water pump 410 is inserted with a water outlet pipe 420, the front end and the rear end of the buried box 100 and the corner near the water outlet pipe are provided with water holes 107 inserted with the water outlet pipe 420, the outer end of the water outlet pipe 420 is inserted with a connecting pipe 440 which is vertically arranged and deeply inserted into the ground so as to lead accumulated water in the buried box 100 to the ground, the inner wall of the buried box 100 and the height equal to that of the water pump 410 are provided with a liquid level switch 130, the existing conventional technology is omitted for description, the liquid level switch 130 is electrically connected with the water pump 410 through a conducting wire, the liquid level switch 130 is preferably a photoelectric liquid level switch, a sensor at the front end of the liquid level switch comprises an infrared light emitting diode and a photoelectric receiver, and light emitted by the light emitting diode is guided. If no liquid is spread, the light emitted by the light emitting diode is reflected directly from the prism back to the receiver. When the liquid flows over the prism, the light is refracted into the liquid, so that the receiver receives no or only a small amount of light. Come through this change of response with this theory of operation, the receiver can drive the work of inside photoelectricity liquid level switch's electric switch to start the outside circuit with electrical apparatus, promptly when burying ground box 100 inside rainwater and amassing to liquid level switch 130, just switch on suction pump 410 makes its work, in time with rainwater pump drainage to the underground, avoid the rainwater to soak other motors and cause the damage.

When the tidal traffic equipment is used for dividing roads into and out of a city, a tidal road needing to be added is selected according to morning and evening peaks, a row of forward and reverse rotating motors 310 in a plurality of buried boxes 100 are started to rotate forward, a main gear 311 and a driven gear 320 are driven to synchronously rotate in reverse directions, a screw rod 330 is driven to move towards the extension direction of the lower end of the screw rod, a protective cover 300 is driven to stably move along a chute 106 and a chute 105 until the forward rotating motor retracts to be hidden below a sealing section of the buried boxes 100, a plurality of servo motors 210 are started to rotate forward, a rotating gear 211 is driven to rotate on the surface of a fixed tooth post 102, the protective cylinder 200 is integrally turned upwards to be vertical, namely, the buried boxes 100 are exposed, a plurality of micro motors 120 are started to rotate forward, a transmission gear 121 is driven to rotate, and the protective plate 110 is driven to move towards the protective cylinder 200 behind the protective cylinder to seal the square opening 101, the casings 200 of the plurality of buried boxes 100 form an isolation area separating the tidal path so that vehicles occupy the tidal path.

The electric control assembly 500 is installed at the rear end of each row of the underground box 100, and the electric control assembly 500 comprises a cylindrical barrel 510 with a hollow structure, which stands at the starting end of the tidal channel and plays a certain role. The timing switch 530 and the assembly switch 540 are installed inside the cylinder 510, which is conventional in the art and will not be described in detail herein. The bottom of the cylindrical barrel 510 is provided with a buried box 511, and a storage battery 520 is placed inside the buried box 511. The solar cell module 600 for supplying power is installed at the top end of the cylindrical barrel 510, which is conventional in the art and will not be described in detail herein. The storage battery 520 is electrically connected with the solar cell module 600 and the voltage conversion module arranged inside the solar cell module through a conducting wire, the timing switch 530, the assembly switch 540, the storage battery 520 and the servo motors 210 are electrically connected in parallel through conducting wires to form a plurality of loops, so that the servo motors 210 can be started regularly, the parallel connection can prevent all the servo motors 210 from being powered on and working, and even if a certain servo motor 210 does not work, the power-on working of other servo motors 210 can not be influenced, and the tide channel division is ensured to be effective. The timing switch 530, the assembly switch 540, the storage battery 520 and the forward and reverse rotating motors 310 are electrically connected in parallel through conducting wires to form a plurality of loops, and the parallel circuit ensures that the forward and reverse rotating motors 310 are independently electrified to work. The assembly switch 540 comprises a switch for controlling the servo motor 210 to work and a switch for controlling the forward and reverse rotation motor 310 to work, and further comprises a switch for controlling the micro motor 120 and a switch for controlling the water pump 410, the timing switch 530, the assembly switch 540, the storage battery 520 and the micro motors 120 are electrically connected in parallel through a lead to form a plurality of loops, the parallel circuit ensures that the micro motors 120 are independently electrified to work, the timing switch 530, the assembly switch 540, the storage battery 520 and the water pumps 410 are electrically connected in parallel through a lead to form a plurality of loops, and the parallel circuit ensures that the water pumps 410 are independently electrified to work.

Specifically, the top end of the cylinder 510 is provided with a support tube 512, the interior of which is communicated with each other for the passage of the line. The support tube 512 is connected at its top end with a movable head 513, and the movable head 513 is hollow inside and open at its bottom end so that the wiring of the solar cell module 600 passes into the cylindrical drum 510. The bottom of activity head 513 is equipped with and pegs graft and rotatable draw 5130 with stay tube 512 to solar module 600 horizontal rotation adjustment direction, and the round hole of in-band screw thread is seted up to the top one side of stay tube 512, has the bolt and then compresses tightly draw 5130 through threaded connection, makes solar module 600 horizontal direction firm. One side of the movable head 513 is provided with a socket 5131, the back of the solar cell module 600 is embedded with a fixing frame 610, and the inclined bottom end of the back of the fixing frame 610 is provided with an insertion block 611 inserted into the socket 5131.

Further, the insertion block 611 is rotatably connected with the movable head 513 through a pin, so that the solar cell module 600 can swing vertically to adjust the direction. The included angle between the insertion block 611 and the fixing frame 610 is 30 degrees to 45 degrees, so that the solar cell module 600 is in a face-up state, and small-range vertical swing is facilitated to meet the irradiation of sunlight. The thickness of the insert 611 is smaller than the height of the socket 5131 so as to leave a rotation space for the insert 611. A corner at the bottom of the front end and the rear end of the buried box 100 and a corner at the bottom of the buried box 511 are both provided with wire holes 108 for inserting wires, and round pipes can be sleeved between the wire holes 108 for protecting the wires.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A rapid management method for tidal traffic roads is characterized in that: the method comprises the following steps:

dividing a tidal traffic road into city-entering roads:

dividing the outgoing roads of the tidal traffic roads:

2. The tidal traffic road rapid management method of claim 1, wherein: it is trapezoidal cavity structure and bottom surface opening to protect a section of thick bamboo, and the lateral surface interval of protecting a section of thick bamboo is pasted in turn and is had red white light-emitting strip, and the turning radius who protects a section of thick bamboo is less than the length of square opening, and a bottom side symmetry of protecting a section of thick bamboo is equipped with the ring piece, and the ring piece rotates with the inner wall of burying the ground case through the pin to be connected, protects the bottom of a section of thick bamboo and is located running gear one side and has seted up and dodge the mouth, protects the bottom outside of a section of thick bamboo and.

3. The tidal traffic road rapid management method of claim 1, wherein: a plurality of tooth-shaped grooves are formed in the center line of the bottom surface of the guard plate at equal intervals and meshed with the transmission gear, limiting grooves are formed in the middle of the two side faces of the wide edge of the buried box and the like, L-shaped clamping strips are arranged at the two side ends of the guard plate, and the clamping strips are connected with the limiting grooves in an inserted mode and can slide.

4. The tidal traffic road rapid management method of claim 1, wherein: the top edge of burying the ground case is equipped with the equal width limit of outside extension, buries the inside bottom surface of ground case and is the arc surface of hunch-up, and tooth post is greater than the width of protecting a section of thick bamboo to the bottom surface distance of burying the ground case, and the axis perpendicular to of tooth post buries the both sides face of ground case.

5. The tidal traffic road rapid management method of claim 1, wherein: bury the spout that two inboard top departments symmetries of ground case seted up rather than the top surface is parallel, and half of spout is located the square opening below, and this half section of spout just is close to the both ends department of square opening and sets up the chute that the leaner tilt extends, and the size of protecting cover equals with the size of square opening, and the bottom surface front and back end department symmetry of protecting cover is equipped with the horizontal muscle on its both sides limit of perpendicular to, and horizontal muscle is close to outer end department and is connected with the gyro wheel with spout sliding connection through the pin rotation.

6. The tidal traffic road rapid management method of claim 5, wherein: the top center of chute equals to the top surface distance of burying ground case and the top surface of protecting cover to the central distance of gyro wheel, and the inclination of chute equals with the inclination homogeneous phase of the oblique angle that the protecting cover front end top limit was seted up and the oblique angle that the square mouth front end bottom limit was seted up, and the position and the interval of horizontal muscle all correspond with the position and the interval of chute and equal, and the vertical height of chute is greater than the thickness of protecting cover.

7. The tidal traffic road rapid management method of claim 1, wherein: the upper end of lead screw has the connecting block that is the U type through bolted connection, be equipped with on the bottom surface fore-and-aft direction central line of protecting cover and indulge the muscle, the connecting hole has been seted up to the rear end corner of indulging the muscle, the connecting hole is passed through the pin rotation with the upper end of connecting block and is connected, the outside of just reversing the motor closely overlaps and is equipped with the double ring cover, the double ring cover is that the double ring is parallelly constituteed wholly and the internal diameter variation in size, wherein the big internal diameter ring bottom of the double ring articulates there is the pillar, the pillar passes through the bolt fastening in buries the top surface seal section below of ground case.

8. The tidal traffic road rapid management method of claim 1, wherein: the timing switch, the assembly switch, the storage battery and the plurality of servo motors are connected in parallel to form a plurality of loops through wires, the timing switch, the assembly switch, the storage battery and the plurality of positive and negative rotating motors are connected in parallel to form a plurality of loops through wires, the assembly switch comprises a switch for controlling the servo motors to work and a switch for controlling the positive and negative rotating motors to work, a supporting tube is arranged at the top end of a cylindrical tube, a movable head is connected to the top end of the supporting tube, a telescopic tube which is spliced with the supporting tube and can rotate is arranged at the bottom end of the movable head, and a socket is formed.

9. The tidal traffic road rapid management method of claim 1, wherein: the bottom of a cylinder section of thick bamboo is provided with buries ground box, the battery has been placed to the inside of burying ground box, the solar module who can provide electric power is installed on the top of a cylinder section of thick bamboo, the battery passes through wire electric connection with solar module and its internally mounted's voltage conversion module, solar module's the back inlays and is equipped with fixed frame, the inclined to one side bottom department in the back of fixed frame is equipped with the inserted block of pegging graft with the socket, the inserted block passes through pin rotation with the activity head and is connected, the inserted block is 30 degrees to 45 degrees with the contained angle of fixed frame between, the thickness of inserted block is less than the height of socket, bury a both ends bottom corner and the bottom corner that buries ground box around the ground case and all set up the line.

10. The tidal traffic road rapid management method of claim 1, wherein: bury ground incasement portion both ends department and be provided with drainage mechanism, drainage mechanism is including installing in the suction pump that buries ground tank face, and the play water end of suction pump is pegged graft and is had the outlet pipe, buries around the case both ends and be close to the corner and offer the water hole of pegging graft with the outlet pipe, and the outer end of outlet pipe is pegged graft and is had vertical placing and insert the connecting pipe in the ground deeply, buries on the inner wall of ground case and installs liquid level switch with eminence such as suction pump.