CN111005333A - Intelligent solar tide protective fence - Google Patents

Abstract

The invention discloses an intelligent solar tide guard rail, which comprises a road surface, wherein fixed rails are arranged at the central position of the road surface at uniform intervals, a sliding movable base is arranged on each two fixed rails, the movable base is provided with a support guardrail, the support guardrail is provided with a solar cell panel, the movable bases are respectively provided with a lifting sliding base, the sliding bases are respectively provided with a driving rotating wheel which rotates on the fixed track, the two sides of the movable base are respectively provided with a locking module corresponding to the track, the locking modules are respectively provided with a locking bracket for clamping and fixing the track, the sliding base controls the locking bracket to clamp the fixed track after rising, and the locking bracket can move on the fixed track through the moving base, thereby carry out the displacement to supporting the guardrail, further avoid moving the trouble that the protection mound caused through large-scale mechanical equipment.

Description

Intelligent solar tide protective fence

Technical Field

The invention relates to a rail transit device, in particular to an intelligent solar tide guard rail, and particularly relates to an intelligent solar tide guard rail capable of automatically moving.

Background

Along with the continuous perfect of urban construction, further continuous upgrading of rail transit equipment has been promoted, in present urban life, central point at the highway all can be provided with the hard shoulder, thereby can realize the control to the traffic through the hard shoulder, through the further control to highway vehicle flow in the realization in the position of removal hard shoulder, thereby guarantee the smooth and easy of traffic, wherein at the in-process that removes the hard shoulder, mostly rely on large-scale mechanical equipment to remove the hard shoulder under the condition of half a night, because the removal of hard shoulder has been carried out to need every day, so just further the increase of work load has been caused, and need rely on large-scale mechanical equipment, so further the increase of traffic maintenance cost has been caused.

Therefore, there is a need to design an intelligent solar energy tidal protection fence to solve the above technical problems.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provides an intelligent solar tide guard rail, wherein a fixed rail is arranged on a road surface, a sliding movable base is arranged on the fixed rail, a supporting guard rail is arranged on the movable base, and a sliding base is arranged on the movable base, so that the sliding of the movable base can be further driven through the sliding of the sliding base, the position of the supporting guard rail is further driven to move, the purpose of adjusting the width of a road can be achieved through the movement of the supporting guard rail, the traffic flow is adjusted, and the trouble caused by adjusting a protective pier through large-scale mechanical equipment is further avoided.

The invention is realized by the following technical scheme:

the utility model provides an intelligence solar energy morning and evening tides rail guard, includes the road surface, road surface central point puts and is provided with the trapped orbit that the interval evenly set up, is provided with gliding removal base on per two trapped orbits, be provided with the support guardrail on the removal base, be provided with solar cell panel on the support guardrail. Be provided with the trapped orbit on the road surface, be provided with gliding removal base on the trapped orbit, be provided with the support guardrail on removing the base, can produce electric power through solar cell panel, further supply power to removing the base.

The movable base is provided with a lifting sliding base respectively, and the sliding base is provided with a driving rotating wheel which rotates on the fixed track respectively. Be provided with the sliding bottom who goes up and down on removing the base, be provided with pivoted drive runner on sliding bottom to can further drive runner through sliding bottom's lift and go up and down on the fixed track, can remove the slip of base on the fixed track through the further drive of rotation of drive runner simultaneously, thereby can drive the displacement that supports the guardrail.

The locking device comprises a sliding base and is characterized in that locking modules corresponding to track rails are respectively arranged on two sides of the sliding base, locking supports for clamping and fixing the tracks are respectively arranged on the locking modules, and the sliding base is controlled to clamp and fix the tracks after rising. Can further will remove base locking through locking module and fix on trapped orbit to further support the guardrail fixedly.

And the sliding base is also provided with a cleaning module for cleaning the fixed track. The fixed rail can be further cleaned through the cleaning module, so that the fixed rail is prevented from being blocked by foreign matters.

Furthermore, a base groove is formed in the bottom of the movable base, the sliding base slides in the base groove, a first motor is arranged on the movable base, a threaded shaft is arranged on the first motor, a threaded hole is formed in the top of the sliding base, the threaded shaft and the threaded hole are correspondingly meshed and connected, the sliding base and the base groove are respectively arranged in a square shape, and the solar panel supplies power to the first motor;

the height of the fixed track is 20-30 mm.

Furthermore, a second rotating shaft is arranged at each of two ends of the movable base, the driving rotating wheels are arranged at two ends of the second rotating wheels, a corresponding first chain wheel is arranged on each second rotating shaft, the two first chain wheels are correspondingly connected through a first chain, a second motor is arranged in the movable base, and the second motor drives the second rotating shaft to rotate.

Furthermore, two ends of the first base are respectively provided with a supporting groove corresponding to the fixed track, two ends of the moving base are respectively provided with a first sliding hole correspondingly communicated with the supporting groove, a sliding first sliding shaft is respectively arranged in the first sliding hole, one end of the first sliding shaft is respectively provided with a connecting shaft, the locking brackets respectively rotate on the connecting shaft, the connecting shaft is respectively provided with two locking brackets, two ends of the moving base are respectively provided with a first sliding chute for supporting the locking brackets to slide, two ends of the first sliding chute are respectively provided with a third rotating shaft, the third rotating shafts are respectively provided with a rotating supporting rotating wheel, the locking brackets respectively slide on the supporting rotating wheels, a third spring is respectively arranged between the two locking brackets, the locking support is L-shaped respectively, a second spring for elastically pressing the first sliding shaft is arranged in the first sliding hole respectively, connecting sliding blocks are arranged at two ends of the sliding base respectively and connected to the first sliding shaft respectively, and a positioning sliding groove for supporting the connecting sliding blocks to slide is arranged on the moving base respectively.

Furthermore, two sides of the fixed track are respectively provided with track grooves corresponding to the locking supports, and the locking supports are respectively clamped in the track grooves.

Furthermore, the bottom of the cleaning module is respectively provided with a brush disc rotating on two sides of the fixed track, and the brush discs are tightly pressed on the fixed track to rotate.

Furthermore, two sides of the cleaning module are respectively provided with a base sliding groove corresponding to the fixed track, a fourth rotating shaft rotating in the cleaning module is respectively arranged in the base sliding grooves, a fifth rotating shaft rotating in the cleaning module is also respectively arranged in the base sliding grooves, the brush discs are respectively arranged on the fourth rotating shaft and the fifth rotating shaft, the fourth rotating shaft and the fifth rotating shaft are respectively provided with a first gear correspondingly meshed and connected, the cleaning module is internally provided with a fourth motor driving the fourth rotating shaft to rotate, the fifth rotating shaft is respectively provided with a second chain wheel, the two second chain wheels are correspondingly connected through a second chain, the cleaning module is internally provided with a module inner cavity, and the module inner cavity is internally provided with an exhaust fan driven by the second motor, the cleaning module is internally provided with air exhaust holes correspondingly communicated with the base sliding grooves, and the air exhaust holes are correspondingly communicated with the inner cavity of the module.

Further, the top of one end base is provided with a first commentaries on classics hole respectively, first commentaries on classics hole is the setting of T type respectively, be provided with a pivoted first pivot in the first commentaries on classics hole respectively, first pivot is the setting of T type respectively, it is fixed connection respectively to support the guardrail support on the guardrail, be provided with a first spring in the first commentaries on classics hole respectively, first spring fixed connection respectively is in the first pivot.

Furthermore, two adjacent support guardrails are correspondingly connected through a connecting rope.

Furthermore, fixed rails are arranged on the road surface at uniform intervals, a sliding movable base is arranged on each of the two fixed rails, and a support guardrail is arranged on each of the movable bases;

the first motor drives the threaded shaft to rotate, the threaded shaft is correspondingly meshed and connected with the threaded hole, the sliding base is further controlled to lift, the driving rotating wheel is controlled to be tightly pressed on the fixed track after the sliding base is lifted, the driving rotating wheel is further driven to rotate through the second motor, the moving base is controlled to slide on the fixed track, the supporting guardrails are further driven to move, the width of a lane on the road surface is controlled, and the traffic flow is adjusted;

when the sliding base rises, the first sliding shaft is further controlled to slide, so that the locking support is pulled to slide, the locking support is further clamped and pressed in the groove of the track, the driving rotating wheel can be separated from the track, the locking support is pressed on the track, the sliding base is further fixed on the ground, and the locking support is further pressed by the elastic pressure of the third spring in the descending process of the sliding base, so that the locking support can be separated from the groove of the track;

can rotate through the brush dish that cleans the interior setting of module, further clean the track to prevent that the foreign matter from blockking up the track recess.

Compared with the prior art, the invention has the beneficial effects that: the road guardrail adjusting device comprises a fixed rail, a sliding movable base, a lifting sliding base, a driving rotating wheel, a solar cell panel, a power supply module and a power supply module, wherein the fixed rail can be arranged on a road surface, the sliding movable base is arranged on the fixed rail, the lifting sliding base is arranged at the bottom of the movable base, the lifting driving rotating wheel can be further driven to lift through the sliding of the lifting base, so that the lifting driving rotating wheel can be further driven to lift through the rotation of the driving rotating wheel, the sliding movable base can be further driven to slide through the rotation of the driving;

when the sliding base rises, the locking support arranged on the moving base can be simultaneously controlled to swing, so that the sliding base can be further clamped on the fixed track through the locking support, the moving base can be fixed on the track, and the supporting guardrail can be further supported and fixed;

meanwhile, the cleaning module is arranged on the sliding base, so that the rail track can be cleaned through the cleaning module, the cleaning of the fixed rail is further ensured, and the blocking of the rail caused by foreign matters is prevented;

thereby can carry out automatic displacement to supporting the guardrail, trouble that the utilization large-scale mechanical equipment that can be further avoided moving the protection mound and cause, the maintenance cost of further improvement road.

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 solar energy tidal guard rail according to an embodiment of the present invention.

Fig. 2 is a schematic view of the overall structure of the fixed rail according to the embodiment of the present invention.

Fig. 3 is a side view of the overall structure of the mobile base according to the embodiment of the invention.

Fig. 4 is a schematic view of the overall structure of the cleaning module according to the embodiment of the invention.

Fig. 5 is a schematic view of the overall structure of the positioning chute according to the embodiment of the invention.

In the figure: 1 ground, 2 fixed tracks, 3 mobile bases, 4 base grooves, 5 sliding bases, 6 first motors, 7 threaded shafts, 8 threaded holes, 9 supporting guardrails, 10 solar panels, 11 first rotating shafts, 12 first rotating holes, 13 first springs, 14 driving rotating wheels, 15 locking supports, 16 connecting sliders, 17 cleaning modules, 18 second motors, 19 first chain wheels, 20 first chains, 21 second rotating shafts, 22 first sliding shafts, 23 second springs, 24 first sliding chutes, 25 third rotating shafts, 26 supporting rotating wheels, 27 third springs, 28 connecting shafts, 29 track grooves, 30 supporting grooves, 31 positioning sliding chutes, 32 third motors, 33 exhaust fans, 34 exhaust holes, 35 base sliding chutes, 36 brush discs, 37 fourth rotating shafts, 38 fourth motors, 39 first gears, 40 fifth rotating shafts, 41 second chain wheels, 42 second chains, 43 first sliding holes, 44 module inner cavities, 45 connecting the ropes, 46 locking the module.

Detailed Description

As shown in fig. 1 to 5, the intelligent solar tide guard rail comprises a pavement 1, wherein fixed rails 2 are arranged at the center of the pavement 1 at uniform intervals, sliding movable bases 3 are arranged on every two fixed rails 2, a support guardrail 9 is arranged on each movable base 3, and a solar panel 10 is arranged on each support guardrail 9.

The fixed rail 2 is arranged at the center of the pavement 1, the number of the fixed rails 2 is set according to the design requirement, the fixed rails 2 are set in a mode that every two fixed rails 2 are in one group, every two fixed rails 2 are provided with one sliding movable base 3, the movable base 3 is provided with a support guardrail 9, the support guardrail 9 is provided with a solar cell panel 10, and the further conversion of light energy can be carried out through the solar cell panel 10.

The movable bases 3 are respectively provided with a lifting sliding base 5, and the sliding bases 5 are respectively provided with a driving rotating wheel 14 which rotates on the fixed track 2.

The movable base 3 is respectively provided with a lifting sliding base 5, the sliding base 5 is lifted up and down at the bottom of the movable base 3, the driving rotating wheels 14 rotating on the sliding base 5, and the driving rotating wheels 14 respectively rotate on the fixed track 2.

The two sides of the movable base 3 are respectively provided with a locking module 46 corresponding to the fixed rail 2, the locking modules 46 are respectively provided with a locking bracket 15 for clamping the fixed rail 2, and the sliding base 5 controls the locking bracket 15 to clamp the fixed rail 2 after rising.

Set up locking module 46 respectively at the both ends of removing base 3, be provided with wobbling locking support 15 on locking module 46 respectively, joint that locking support 15 can be respectively is on trapped orbit 2, thereby can be through the further base 3 of will removing of swing of locking support 15 fix on trapped orbit 2, thereby support guardrail 9 and fix, wherein sliding base 5 can be tight trapped orbit 2 at the in-process that rises the tight trapped orbit 2 of control locking support 15 clamp simultaneously, in-process when drive runner 14 breaks away from trapped orbit 2, locking support 15 can be simultaneously locks trapped orbit 2.

And a sweeping module 17 for cleaning the fixed track 2 is also arranged on the sliding base 5.

The fixed rail 2 can be automatically cleaned by the cleaning module 17, so that the cleanness of the fixed rail 2 can be ensured.

Can be through the drive runner 14 back of removing on trapped orbit 2, the displacement of drive support guardrail 9 that can be further to the adjustment to road width that can be further, thereby can adjust the traffic flow, further avoid utilizing large-scale mechanical equipment to remove the trouble that the protection mound caused.

As shown in fig. 1, a base groove 4 is formed in the bottom of the movable base 3, the sliding base 5 slides in the base groove 4, a first motor 6 is arranged on the movable base 3, a threaded shaft 7 is arranged on the first motor 6, a threaded hole 8 is formed in the top of the sliding base 5, the threaded shaft 7 is in corresponding meshing connection with the threaded hole 8, the sliding base 5 and the base groove 4 are respectively in a square arrangement, and the first motor 6 is powered by the solar cell 10.

Base recess 4 is square setting, sliding base 5 slides in base recess 4, rotate through first motor 6 drive threaded shaft 7, threaded shaft 7 is connected with the corresponding meshing of screw hole 8, thereby can further control sliding base 5's upper and lower slip, thereby control drive runner 14 and fixed track 2's separation, the slip of base 3 is removed in the further drive of drive runner 14 pivoted in-process on fixed track 2, thereby control supports the displacement of guardrail 9, when drive runner 14 breaks away from fixed track 2, thereby remove base 3 and compress tightly on fixed track 2 when can, thereby can support fixedly to supporting guardrail 9, be provided with the battery in removing base 3, the produced electric energy of further storage solar cell panel 10, thereby supply power for first motor 6.

The height of the fixed track 2 is 20-30 mm.

The height of the fixed track 2 is 20-30mm, so that the normal running of the automobile can be ensured, and the influence on the normal running of the automobile caused by the overhigh fixed track 2 is avoided.

As shown in fig. 1 and fig. 2, two ends of the moving base 3 are respectively provided with a rotating second rotating shaft 21, the driving rotating wheels 14 are respectively arranged at two ends of the second rotating wheels 21, the second rotating shafts 21 are respectively provided with a corresponding first chain wheel 19, the two first chain wheels 19 are correspondingly connected through a first chain 20, a second motor 18 is arranged in the moving base 3, and the second motor 18 drives the second rotating shafts 21 to rotate.

Be provided with a pivoted second pivot 21 respectively at the both ends of moving base 3, drive runner 14 sets up respectively in second pivot 21, through the rotation of the further drive second pivot 21 of second motor 18, thereby make 1 drive runner 14 rotate on trapped orbit 2, thereby can drive the slip of moving base 3, connect two first sprockets 19 through first chain 20, thereby can make the synchronous rotation of four drive runners 14, thereby the slip of control removal base 3 that can be further step.

As shown in fig. 1 and 3, two sides of the moving base 3 are respectively provided with a supporting groove 30 corresponding to the fixed rail 2, two ends of the moving base 3 are respectively provided with a first sliding hole 43 correspondingly communicated with the supporting groove 30, a sliding first sliding shaft 22 is respectively arranged in the first sliding hole 43, one end of the first sliding shaft 22 is respectively provided with a connecting shaft 28, the locking brackets 15 respectively rotate on the connecting shaft 28, the connecting shaft 28 is respectively provided with two locking brackets 15, two ends of the moving base 3 are respectively provided with a first sliding groove 24 supporting the locking brackets 15 to slide, two ends of the first sliding groove 24 are respectively provided with a third rotating shaft 25, the third rotating shafts 25 are respectively provided with a rotating supporting rotating wheel 26, the locking brackets 15 respectively slide on the supporting rotating wheels 26, be provided with a third spring 27 between two locking support 15 respectively, locking support 15 is the L type respectively, be provided with one in the first slide opening 43 respectively and suppress first smooth axle 22's second spring 23, sliding base 5's both ends are provided with link block 16 respectively, link block 16 connects respectively on first smooth axle 22, be provided with the support on the removal base 3 respectively link block 16 gliding location spout 31.

The two sides of the moving base 3 are respectively provided with a supporting groove 30 corresponding to the fixed track 2, the distance between the supporting grooves 30 is the same as that of the fixed track 2, the supporting grooves 30 are respectively arranged on the fixed track 2, two ends of the moving base 3 are respectively provided with two first sliding holes 43, the first sliding holes 43 are respectively correspondingly connected with the supporting grooves 30, the first sliding holes 43 are respectively provided with a sliding first sliding shaft 22, the first sliding shaft 22 is of a shaft body structure, one end of the first sliding shaft 22 is respectively provided with a connecting shaft 28, the connecting shaft 28 is respectively provided with two rotating locking brackets 15, so that the swinging of the locking brackets 15 can be further controlled through the up-and-down sliding of the connecting shaft 28;

the two ends of the moving base 3 are respectively provided with a first sliding chute 24 correspondingly connected with the supporting groove 30, the two ends of the first sliding chute 24 are respectively provided with a third rotating shaft 25, the third rotating shafts 25 are respectively provided with a rotating supporting rotating wheel 26, the locking brackets 15 respectively slide on the supporting rotating wheels 26, the two locking brackets 15 are respectively pressed by a third spring 27 so as to separate the two locking brackets 15, when the first sliding shaft 22 is lifted, the two locking brackets 15 can be simultaneously pulled to slide upwards, so that the two locking brackets 15 can be contracted under the pressing force of the two supporting rotating wheels 26, the locking brackets 15 are respectively arranged in an L shape so as to further press the locking brackets 15 on the fixed track 2, the first sliding holes 43 are respectively provided with a second spring 23, the first sliding shaft 22 is pressed by the second spring 23, when the first sliding shaft 22 descends, the locking bracket 15 can be further separated by the elastic pressure of the third spring 27, so that the locking bracket 15 can be separated from the fixed rail 2, and the moving base 3 can be further slid;

the two ends of the sliding base 5 are respectively provided with the connecting sliding blocks 16, and the first sliding shafts 22 are respectively connected to the sliding base 5, so that the synchronous sliding of the first sliding shafts 22 can be controlled in the lifting process of the sliding base 5, the sliding of the connecting sliding blocks 16 can be supported through the positioning sliding grooves 31, and the normal sliding of the connecting sliding blocks is guaranteed.

As shown in fig. 3, two sides of the fixing rail 2 are respectively provided with a rail groove 29 corresponding to the locking bracket 15, and the locking brackets 15 are respectively clamped in the rail grooves 29.

The two sides of the fixed track 2 are respectively provided with a track groove 29, the track grooves 29 are respectively arranged in a concave shape, and the locking brackets 15 are respectively clamped in the track grooves 29.

As shown in fig. 4, the bottom of the cleaning module 1 is respectively provided with brush discs 36 rotating on both sides of the fixed rail 2, and the brush discs 36 are pressed against the fixed rail 2 to rotate.

The bottom of the cleaning module 17 is respectively provided with the brush discs 36 rotating on two sides of the fixed track 2, so that the fixed track 2 can be further cleaned through the rotation of the brush discs 36, the cleanness of the fixed track 2 can be further ensured, and the normal use of the fixed track 2 is ensured.

As shown in fig. 1 and 4, two sides of the cleaning module 17 are respectively provided with a base sliding groove 35 corresponding to the fixed rail 2, the base sliding grooves 35 are respectively provided with a fourth rotating shaft 37 rotating in the cleaning module 17, the base sliding grooves 35 are also respectively provided with a fifth rotating shaft 40 rotating in the cleaning module 17, the brush discs 36 are respectively arranged on the fourth rotating shaft 37 and the fifth rotating shaft 40, the fourth rotating shaft 37 and the fifth rotating shaft 40 are respectively provided with a first gear 39 correspondingly engaged and connected, the cleaning module 17 is internally provided with a fourth motor 38 driving the fourth rotating shaft 37 to rotate, the fifth rotating shaft 40 is respectively provided with a second sprocket 41, the two second sprockets 41 are correspondingly connected through a second chain 42, the cleaning module 17 is internally provided with a module cavity 44, an exhaust fan 33 driven by a third motor 32 is arranged in the module inner cavity 44, exhaust holes 34 correspondingly communicated with the base sliding grooves 35 are respectively arranged in the cleaning module 17, and the exhaust holes 34 are correspondingly communicated with the module inner cavity 44.

A base sliding groove 35 is respectively arranged at two sides of the cleaning module 17, the base sliding groove 35 respectively corresponds to the fixed track 2, a rotating fourth rotating shaft 37 is respectively arranged in the base sliding groove 35, a rotating fifth rotating shaft 40 is also respectively arranged in the base sliding groove 35, the brush discs 36 are respectively arranged on the fourth rotating shaft 37 and the fifth rotating shaft 40, a first gear 39 correspondingly engaged and connected is respectively arranged on the fourth rotating shaft 37 and the fifth rotating shaft 40, the two brush discs 36 are further clamped on the fixed track 2 to rotate through the corresponding engagement and connection of the two first gears 39, a fourth motor 38 is arranged in the cleaning module 17, the fourth rotating shaft 37 is further driven to rotate through the fourth motor 38, so that the brush discs 36 can be driven to rotate, a corresponding second chain wheel 41 is respectively arranged on the fifth rotating shaft 40, and the two second chain wheels 41 are correspondingly connected through a second chain 42, thereby enabling the brush discs arranged at the two sides to synchronously rotate;

still be provided with a module inner chamber 44 in cleaning module 17, be provided with the exhaust fan 33 of a third motor 32 drive in module inner chamber 44, further produce wind-force through the rotation of exhaust fan 33 to discharge through exhaust hole 34, thereby blow fixed track 2, the further effect of cleaning fixed track 2 of assurance, the electric power of third motor 32 comes from solar cell panel simultaneously.

As shown in fig. 1, the top of the base 3 is provided with a first rotating hole 12 respectively, the first rotating hole 12 is arranged in a T shape, the first rotating hole 12 is internally provided with a first rotating shaft 11, the first rotating shaft 11 is arranged in a T shape, the supporting guardrail 9 is fixedly connected to the first rotating shaft 11 respectively, the first rotating hole 12 is internally provided with a first spring 13, and the first spring 13 is fixedly connected to the first rotating shaft 11 respectively.

As shown in fig. 1, two adjacent support guardrails 9 are correspondingly connected through a connecting rope 45.

When in use, when the movable base 3 is in the displacement process, the movable base 3 drives the supporting guardrails 9 to slide, and because the movable bases 3 are arranged in rows, the problem of back and forth movement is inevitable when the movable bases 3 are in the displacement process,

as shown in fig. 1 to 5, fixed rails 2 are arranged on a road surface 1 at uniform intervals, a sliding movable base 3 is arranged on each of the two fixed rails 2, and a support guardrail 9 is arranged on each of the movable bases 3;

the first motor 6 drives the threaded shaft 7 to rotate, the threaded shaft 7 is correspondingly meshed with the threaded hole 8, the sliding base 5 is further controlled to lift, the driving rotating wheel 14 is controlled to be tightly pressed on the fixed track 2 after the sliding base 5 is lifted, the driving rotating wheel 14 is further driven to rotate through the second motor 18, so that the moving base 3 is controlled to slide on the fixed track 2, the supporting guardrail 9 is further driven to move, the width of a lane on the road surface 1 is controlled, and the traffic flow is adjusted;

after the sliding base 5 rises, the first sliding shaft 22 is further controlled to slide, so that the locking bracket 15 is pulled to slide, the locking bracket 15 is further clamped and pressed in the rail groove 29, the rotating wheel 14 is driven to be separated from the rail, the locking bracket 15 is pressed on the rail, and the sliding base 3 is further fixed on the surface of the rail 2;

the locking bracket 15 is further pressed by the pressing force of the third spring 23 in the process of descending the sliding base 3, so that the locking bracket 15 can be disengaged from the track groove 29;

the track 2 can be further cleaned by rotating the brush disc 36 provided in the cleaning module 17, thereby preventing foreign materials from blocking the track groove 29.

The working principle of the invention is as follows: the ground 1 is provided with fixed tracks 2, the fixed tracks 2 are arranged in the center of the road surface and are uniformly arranged at intervals, every two fixed tracks 2 form a group, two fixed tracks 2 are provided with a sliding movable base 3, the bottom of the movable base 3 is provided with a sliding base 5, the sliding bases 5 are respectively provided with a rotating driving rotating wheel 14, and the driving rotating wheels 14 rotate on the fixed tracks 2, so that the sliding of the movable base 3 can be further driven by the rotation of the driving rotating wheels 2, the movement of the position of a supporting guardrail 9 can be driven, the position of the supporting guardrail 9 can be further adjusted, and the purpose of adjusting the traffic flow can be achieved by the supporting guardrail 9;

after the movable base 3 slides to a specified position, the sliding base 5 rises in the base groove 4, so that the driving rotating wheel 14 can be separated from the fixed track 2, the movable base 3 can be pressed on the fixed track 2, the two ends of the movable base 2 are provided with the swinging locking supports 15, when the sliding base 5 rises, the locking supports 15 can be further driven to swing synchronously, so that the locking supports 15 can be tightly pressed and clamped on the fixed track 2, the movable base 3 is further fixed, and the supporting guardrails 9 can be supported and fixed, so that the purpose of vehicle shunting is achieved, the trouble caused by moving the protective piers of the traditional large-scale mechanical equipment is further avoided, the efficiency is improved, and the maintenance cost of roads is reduced;

be provided with on moving base 3 and clean module 17, be provided with pivoted brush dish 36 in cleaning module 17, can further clear up trapped orbit 2 through the rotation of brush dish 36, thereby can prevent that the foreign matter from blockking up trapped orbit 2, be provided with module inner chamber 44 simultaneously in moving base 3, be provided with pivoted exhaust fan 33 in module inner chamber 44, can produce wind-force through the rotation of exhaust fan 33, thereby can further blow fixed orbit 2 through the effect of wind-force, thereby can further assurance to the clean effect to trapped orbit 2.

Claims (10)

1. The utility model provides an intelligence solar energy morning and evening tides rail guard, including the road surface, its characterized in that: the central position of the road surface is provided with fixed tracks which are arranged at uniform intervals, each two fixed tracks are provided with a sliding movable base, the movable bases are provided with supporting guardrails, and the supporting guardrails are provided with solar panels;

the movable bases are respectively provided with a lifting sliding base, and the sliding bases are respectively provided with a driving rotating wheel which rotates on the fixed track;

locking modules corresponding to the track rails are respectively arranged on two sides of the moving base, locking supports for clamping and fixing the tracks are respectively arranged on the locking modules, and the sliding base is controlled to clamp and fix the tracks by the locking supports after rising;

and the sliding base is also provided with a cleaning module for cleaning the fixed track.

2. The intelligent solar energy tidal guard rail of claim 1, wherein: the solar cell panel is characterized in that a base groove is formed in the bottom of the movable base, the sliding base slides in the base groove, a first motor is arranged on the movable base, a threaded shaft is arranged on the first motor, a threaded hole is formed in the top of the sliding base, the threaded shaft and the threaded hole are correspondingly meshed and connected, the sliding base and the base groove are respectively arranged in a square shape, and the solar cell panel supplies power to the first motor;

the height of the fixed track is 20-30 mm.

3. The intelligent solar energy tidal guard rail of claim 1, wherein: the two ends of the movable base are respectively provided with a rotating second rotating shaft, the driving rotating wheels are respectively arranged at the two ends of the second rotating wheels, the second rotating shafts are respectively provided with a corresponding first chain wheel, the two first chain wheels are correspondingly connected through a first chain, a second motor is arranged in the movable base, and the second motor drives the second rotating shafts to rotate.

4. The intelligent solar energy tidal guard rail of claim 1, wherein: the two ends of the first base are respectively provided with a supporting groove corresponding to the fixed track, the two ends of the movable base are respectively provided with a first sliding hole correspondingly communicated with the supporting groove, a sliding first sliding shaft is respectively arranged in the first sliding hole, one end of the first sliding shaft is respectively provided with a connecting shaft, the locking brackets respectively rotate on the connecting shafts, the connecting shafts are respectively provided with two locking brackets, the two ends of the movable base are also respectively provided with a first sliding groove for supporting the locking brackets to slide, the two ends of the first sliding groove are respectively provided with a third rotating shaft, the third rotating shafts are respectively provided with a rotating supporting rotating wheel, the locking brackets respectively slide on the supporting rotating wheels, a third spring is respectively arranged between the two locking brackets, and the locking brackets are respectively in L shapes, the first sliding hole is internally provided with a second spring which is used for elastically pressing the first sliding shaft, two ends of the sliding base are respectively provided with a connecting sliding block, the connecting sliding blocks are respectively connected to the first sliding shaft, and the moving base is respectively provided with a positioning sliding groove which supports the connecting sliding block to slide.

5. The intelligent solar energy tidal guard rail of claim 1, wherein: and track grooves corresponding to the locking supports are respectively arranged on two sides of the fixed track, and the locking supports are respectively clamped in the track grooves.

6. The intelligent solar energy tidal guard rail of claim 1, wherein: the bottom of the cleaning module is respectively provided with brush discs rotating on two sides of the fixed track, and the brush discs are tightly pressed on the fixed track to rotate.

7. The intelligent solar energy tidal guard rail of claim 6, wherein: the cleaning module is characterized in that base sliding grooves corresponding to the fixed rails are respectively arranged on two sides of the cleaning module, a fourth rotating shaft rotating in the cleaning module is respectively arranged in each base sliding groove, a fifth rotating shaft rotating in the cleaning module is also respectively arranged in each base sliding groove, the brush discs are respectively arranged on the fourth rotating shaft and the fifth rotating shaft, the fourth rotating shaft and the fifth rotating shaft are respectively provided with a first gear correspondingly meshed and connected with each other, the cleaning module is internally provided with a fourth motor driving the fourth rotating shaft to rotate, the fifth rotating shaft is respectively provided with a second chain wheel, the two second chain wheels are correspondingly connected with each other through a second chain, the cleaning module is internally provided with a module inner cavity, the module inner cavity is internally provided with an exhaust fan driven by the second motor, and the cleaning module is internally provided with exhaust holes correspondingly communicated with the base sliding grooves, the air exhaust holes are respectively communicated with the inner cavities of the modules correspondingly.

8. The intelligent solar energy tidal guard rail of claim 1, wherein: the top of one end base is provided with a first commentaries on classics hole respectively, first commentaries on classics hole is the setting of T type respectively, be provided with a pivoted first pivot in the first commentaries on classics hole respectively, first pivot is the setting of T type respectively, support guardrail fixed connection respectively on supporting the guardrail, be provided with a first spring in the first commentaries on classics hole respectively, first spring fixed connection respectively is in the first pivot.

9. The intelligent solar energy tidal guard rail of claim 8, wherein: two adjacent support guardrails are correspondingly connected through a connecting rope.

10. A use method of an intelligent solar tide guard rail is characterized by comprising the following steps: the road surface is provided with fixed tracks with uniform intervals, two fixed tracks are respectively provided with a sliding movable base, and the movable bases are respectively provided with a support guardrail;

the first motor drives the threaded shaft to rotate, the threaded shaft is correspondingly meshed and connected with the threaded hole, the sliding base is further controlled to lift, the driving rotating wheel is controlled to be tightly pressed on the fixed track after the sliding base is lifted, the driving rotating wheel is further driven to rotate through the second motor, the moving base is controlled to slide on the fixed track, the supporting guardrails are further driven to move, the width of a lane on the road surface is controlled, and the traffic flow is adjusted;

when the sliding base rises, the first sliding shaft is further controlled to slide, so that the locking support is pulled to slide, the locking support is further clamped and pressed in the groove of the track, the driving rotating wheel can be separated from the track, the locking support is pressed on the track, the sliding base is further fixed on the ground, and the locking support is further pressed by the elastic pressure of the third spring in the descending process of the sliding base, so that the locking support can be separated from the groove of the track;

can rotate through the brush dish that cleans the interior setting of module, further clean the track to prevent that the foreign matter from blockking up the track recess.

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