CN113920764A - Fence for tidal lane based on smart city and working method thereof - Google Patents

Abstract

The invention belongs to the field of smart cities, and particularly relates to a fence for a tidal lane based on a smart city and a working method of the fence. The method is matched with a fence for tidal lanes based on a smart city and a working method thereof, the method is matched with a fence for tidal lanes based on a smart city and a working device thereof, this fence for tidal lane based on wisdom city and equipment includes bituminous paving, the last bed frame that has set firmly of bituminous paving, the installation frame has set firmly in the bed frame, the positioning mechanism has set firmly in the installation frame, the last frame has set firmly in the bed frame, the sealing mechanism has set firmly in the last frame, sealed exit has been seted up in the last frame, it has found the traveller to have butted the hydraulic pressure in the sealed exit, the hydraulic pressure stands the traveller and has butted the upper installation frame, be equipped with removal power and control mechanism in the upper installation frame, be equipped with hydraulic pressure mechanism in the upper installation frame, the last yielding rubber packing ring that has set firmly of hydraulic pressure mechanism, the yielding rubber packing ring sets firmly the stand shell.

Description

Fence for tidal lane based on smart city and working method thereof

Technical Field

The invention belongs to the field of smart cities, and particularly relates to a fence for a tidal lane based on a smart city and a working method of the fence.

Background

Due to rapid development of economy, a vehicle family becomes more and more, and the driving on and off duty enables the personal time to be fully mastered and utilized, but as the working place is generally in the center of a city, and the residence is mostly concentrated on the periphery, the road traffic tide phenomenon around the city is serious. Due to the tidal phenomenon of traffic, namely, the traffic flow in the morning direction is large and the reverse flow is small; and the traffic in the coming-out direction is large at night, so that the congestion phenomenon is aggravated. Aiming at the situation, the traffic organization is carried out in a lane-variable mode in traffic diversion transformation, namely, when the number of vehicles entering the city at the early peak is large, the number of lanes in the direction of entering the city is increased, the number of lanes in the direction of leaving the city is reduced, and when the number of vehicles leaving the city at the late peak is large, the number of lanes in the direction of leaving the city is increased, and the number of lanes in the direction of entering the city is reduced.

The tidal lane is an effective means for solving the road traffic jam phenomenon, the traffic tidal phenomenon can be effectively relieved with less investment in construction cost, but the tidal lane needs a long-time adaptation process, many drivers in other places without knowing the situation or local drivers unfamiliar with the traffic situation are easy to drive in the tidal lane, and traffic accidents are easy to cause; the original road needs to be damaged by the guardrail with some designs, and the investment is large in the early stage of use; therefore, the original road subgrade can be damaged to a certain extent, and the service life of the road is shortened. Therefore, it is necessary to design a fence for tidal lanes and a working method thereof, which can alleviate the damage to the original roads, do not need manual movement, and relieve traffic.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a fence for a tidal lane based on a smart city and a working method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme: a fence for tidal lanes based on a smart city and a working method thereof are provided, the method is carried out by matching with the fence for tidal lanes based on the smart city and a working device thereof, the fence for the tidal lane based on the smart city and the working device thereof comprise an asphalt pavement, wherein a lower frame is fixedly arranged on the asphalt pavement, an installation frame is fixedly arranged in the lower frame, a positioning mechanism is fixedly arranged on the installation frame, an upper frame is fixedly arranged on the lower frame, the upper frame is fixedly provided with a sealing mechanism, the upper frame is provided with a sealing inlet and a sealing outlet, a hydraulic vertical sliding column is butted in the sealing inlet and the sealing outlet, the hydraulic vertical sliding column is connected with an upper mounting frame in a butting way, a moving power and control mechanism is arranged on the upper mounting frame, the hydraulic mechanism is arranged on the upper mounting rack, a damping rubber gasket is fixedly arranged on the hydraulic mechanism, and an upright shell is fixedly arranged on the damping rubber gasket.

Preferably, the positioning mechanism comprises the installation rack, two positioning sliding bodies are symmetrically and fixedly arranged on the installation rack, a positioning sliding groove is formed in each positioning sliding body, each positioning sliding block capable of sliding back and forth is arranged in each positioning sliding groove, a positioning spring is fixedly arranged between each positioning sliding block and the corresponding positioning sliding groove, each positioning rack is fixedly arranged on each positioning sliding block, two positioning motor racks are symmetrically and fixedly arranged on the lower rack, each positioning motor is fixedly arranged on each positioning motor rack, each positioning motor output end is fixedly provided with a positioning rotating shaft, and each positioning rotating shaft is fixedly provided with a positioning gear meshed with the positioning rack for transmission.

Preferably, a positioning trigger base is fixedly arranged on the lower rack, a positioning trigger chute is formed in the positioning trigger base, a positioning trigger slider capable of sliding back and forth is arranged in the positioning trigger chute, a positioning trigger spring is fixedly arranged between the positioning trigger slider and the positioning trigger chute, a positioning trigger slider conducting layer is fixedly arranged on the lower portion of the positioning trigger slider, and a positioning trigger loop capable of being switched on and off under the sliding of the positioning trigger slider is arranged on the positioning trigger base.

Preferably, the sealing mechanism comprises an upper frame, two sealing sliding bodies are symmetrically arranged on the upper frame along the axial center line of the sealing inlet and outlet, a sealing sliding groove is formed in each sealing sliding body, a sealing sliding block which can slide in a reciprocating manner and can abut against the hydraulic vertical sliding column is arranged in each sealing sliding groove, and a sealing spring is fixedly arranged between each sealing sliding block and the corresponding sealing sliding groove.

Preferably, the mobile power and control mechanism comprises an upper mounting frame, a mobile slide bar motor is fixedly arranged on the upper mounting frame, a mobile slide bar rotating shaft is fixedly arranged on an output shaft of the mobile slide bar motor, a mobile slide bar gear is fixedly arranged on the mobile slide bar rotating shaft, a mobile slide bar gear groove is formed in the upper mounting frame, the mobile slide bar gear can freely rotate in the mobile slide bar gear groove, two mobile slide bar sliding grooves are symmetrically formed in the upper mounting frame along the axial geometric center line of the hydraulic vertical sliding column, a mobile slide bar capable of sliding in a reciprocating manner is arranged in each mobile slide bar sliding groove, and a mobile slide bar rack which is meshed with the mobile slide bar gear and is driven is fixedly arranged on each mobile slide bar.

Preferably, the symmetry is fixed to be equipped with two and is removed installation frame, every on the host computer installation frame but be equipped with free rotation's removal pivot on removing the installation frame, every remove and set firmly in the pivot and move the mounting bracket, every remove and have set firmly on moving the mounting bracket and move the rocker, every the last traveling motor that has set firmly of traveling motor, every the output of traveling motor has set firmly and has moved the driving shaft, every on removing the driving shaft set firmly and has moved the driving gear, every remove and have seted up on the rocker and have moved the race, every free rotation's removal driven shaft is established on removing the race, every it can to move to set firmly on the driven shaft removal wheel the moving wheel inslot free rotation's moving wheel, every move on the driven shaft set firmly can with remove the driven gear of driven gear meshing transmission removal driven gear.

Preferably, every it moves the mounting bracket to have set firmly the swing on the removal rocker, but every swing moves and is equipped with the first pivot of free rotation's swing on the mounting bracket, but is equipped with free rotation's swing connecting rod, every on every swing first pivot but has set firmly free rotation's swing second pivot on the swing connecting rod, every but be equipped with free rotation's swing in the swing second pivot and decide mounting bracket, every the mounting bracket is decided in the swing with remove slide bar fixed connection.

Preferably, the hydraulic mechanism comprises a hydraulic cylinder fixedly arranged on the upper mounting frame, a hydraulic sliding cavity is formed in the hydraulic cylinder, a piston capable of sliding back and forth is arranged in the hydraulic sliding cavity, the piston is fixedly connected with the hydraulic vertical sliding column, a hydraulic spring is fixedly arranged between the piston and the hydraulic sliding cavity, and a hydraulic outlet is formed in the hydraulic cylinder.

Preferably, the top of the upright column shell is fixedly provided with a warning lamp, the two sides of the upright column shell are symmetrically provided with a vehicle distance detector, the upright column shell is internally and fixedly provided with a processing circuit board, the upright column shell is provided with a freely rotatable antenna base, the antenna base is provided with an antenna, an antenna connecting line is connected between the antenna base and the processing circuit board, the upright column shell is symmetrically provided with two groups of four fence fixing and mounting frames, each fence fixing and mounting frame is provided with a freely rotatable fence mounting shaft, each fence mounting shaft is provided with a freely rotatable fence moving and mounting frame, each group of the fence moving and mounting frames is fixedly provided with a same fence vertical rod, each fence vertical rod is provided with a plurality of fence cross rods, each group of the fence cross rods is fixedly provided with a solar cell panel, and the ground end of the upright column shell is fixedly provided with an upper positioning detector, and a lower positioning detector which can be corresponding to the upper positioning detector in detection is fixedly arranged on the lower rack.

Has the advantages that:

the invention provides a fence for a tidal lane based on a smart city and a working method thereof through improvement, and compared with the prior art, the fence has the following improvements and advantages:

1. the tidal lane fence can move without greatly damaging the original road by moving the sliding rod and the auxiliary mechanism thereof and moving the wheels and the auxiliary mechanism thereof.

2. The upper positioning detector and the lower positioning detector can realize the gradual positioning of the tidal lane fence through the positioning trigger spring, the positioning trigger loop, the positioning trigger slide block, the vertical sliding column positioning groove, the positioning trigger base, the positioning trigger slide block conducting layer and the positioning trigger sliding groove.

3. The sealing slide groove, the sealing spring, the sealing slide body, the sealing slide block and the sealing inlet and outlet can be used for facilitating the installation of the tide lane when in use and recovering the safe passing of the road when not in use.

4. The circumferential positioning and the axial positioning of the tidal lane fence can be realized through the mutual matching of the positioning sliding body, the positioning sliding block, the positioning sliding groove and the positioning spring.

Drawings

FIG. 1 is a flow chart of the design;

FIG. 2 is a front structural cross-sectional view of the present design;

FIG. 3 is a side cross-sectional block diagram of the present design;

FIG. 4 is a cross-sectional view taken at A-A of FIG. 2;

FIG. 5 is a cross-sectional view taken at B-B of FIG. 2;

FIG. 6 is an enlarged view of a portion of FIG. 2 at C;

FIG. 7 is an enlarged view of a portion of FIG. 2 at D;

FIG. 8 is an enlarged view of a portion of FIG. 2 at E;

fig. 9 is a partial enlarged view of F in fig. 3.

In the figure, a warning light 10, a column housing 11, a vehicle distance detector 12, a hydraulic vertical sliding column 13, a hydraulic spring 14, a hydraulic vertical sliding chute 15, an upper positioning detector 16, an upper frame 17, a mounting frame 18, a lower positioning detector 19, a damping rubber washer 20, a hydraulic outlet 21, a hydraulic cylinder 22, a piston 23, a hydraulic sliding cavity 24, an upper mounting frame 25, a lower frame 26, a storage battery 27, an asphalt pavement 28, a fence upright 29, a fence cross bar 30, a solar panel 31, an antenna 32, an antenna base 33, an antenna connecting wire 34, a processing circuit board 35, a fence fixing mounting frame 36, a fence mounting shaft 37, a fence movable mounting frame 38, a movable sliding bar gear groove 39, a movable sliding bar gear 40, a movable sliding bar rotating shaft 41, a movable sliding bar motor 42, a movable rack sliding bar 43, a movable sliding bar 44, a movable sliding bar connecting bar 45, a movable sliding bar chute 46, a movable mounting frame 47, a movable sliding bar mounting frame 47, The positioning device comprises a moving rotating shaft 48, a moving fixing mounting frame 49, a moving driving shaft 50, a moving driving gear 51, a moving driven shaft 52, a moving driven gear 53, a moving motor 54, a moving swing frame 55, a moving wheel groove 56, a moving wheel 57, a swing mounting frame 58, a swing first rotating shaft 59, a swing connecting rod 60, a swing second rotating shaft 61, a swing fixing mounting frame 62, a positioning trigger spring 63, a positioning trigger circuit 64, a positioning trigger slide block 65, a vertical slide column positioning groove 66, a positioning trigger base 67, a positioning trigger slide block conducting layer 68, a positioning trigger slide groove 69, a positioning slide body 70, a positioning slide block 71, a positioning rack 72, a positioning motor 73, a positioning motor frame 74, a positioning rotating shaft 75, a positioning gear 76, a positioning slide groove 77, a positioning spring 78, a sealing slide groove 79, a sealing spring 80, a sealing slide body 81, a sealing slide block 82 and a sealing inlet and outlet 83.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

As shown in figure 2, the fence for the tidal lane based on the smart city and the working method thereof are matched with a fence for the tidal lane based on the smart city and a working device thereof, the fence for the tidal lane based on the smart city and the working device thereof comprise an asphalt pavement 28, a lower frame 26 is fixedly arranged on the asphalt pavement 28, a mounting frame 18 is fixedly arranged in the lower frame 26, a positioning mechanism is fixedly arranged on the mounting frame 18, an upper frame 17 is fixedly arranged on the lower frame 26, a sealing mechanism is fixedly arranged on the upper frame 17, a sealing inlet/outlet 83 is arranged on the upper frame 17, a hydraulic vertical sliding column 13 is abutted in the sealing inlet/outlet 83, an upper mounting frame 25 is abutted on the hydraulic vertical sliding column 13, a moving power and control mechanism is arranged on the upper mounting frame 25, a hydraulic mechanism is arranged on the upper mounting frame 25, and a damping rubber gasket 20 is fixedly arranged on the hydraulic mechanism, the shock-absorbing rubber washer 20 is fixedly provided with a column shell 11. The remote control terminal can control the operation of the device, and the remote control terminal is in the prior art and is not described herein in detail.

As shown in fig. 3 and 9, the positioning mechanism includes an installation frame 18, two positioning sliders 70 are symmetrically and fixedly disposed on the installation frame 18, a positioning chute 77 is disposed in each positioning slider 70, a positioning slider 71 capable of sliding back and forth is disposed in each positioning chute 77, a positioning spring 78 is fixedly disposed between each positioning slider 71 and the corresponding positioning chute 77, a positioning rack 72 is fixedly disposed on each positioning slider 71, two positioning motor frames 74 are symmetrically disposed on the lower frame 26, a positioning motor 73 is fixedly disposed on each positioning motor frame 74, a positioning rotating shaft 75 is fixedly disposed at an output end of each positioning motor 73, and a positioning gear 76 meshed with the positioning rack 72 for transmission is fixedly disposed on each positioning rotating shaft 75.

As shown in fig. 8, a positioning trigger base 67 is fixedly disposed on the lower frame 26, a positioning trigger chute 69 is disposed in the positioning trigger base 67, a positioning trigger slider 65 capable of sliding back and forth is disposed in the positioning trigger chute 69, a positioning trigger spring 63 is fixedly disposed between the positioning trigger slider 65 and the positioning trigger chute 69, a positioning trigger slider conductive layer 68 is fixedly disposed on a lower portion of the positioning trigger slider 65, and a positioning trigger loop 64 capable of being switched on and off when the positioning trigger slider 65 slides is disposed on the positioning trigger base 67.

As shown in fig. 3 and 9, the sealing mechanism includes an upper frame 17, two sealing sliding bodies 81 are symmetrically disposed on the upper frame 17 along an axial center line of a sealing inlet/outlet 83, a sealing sliding groove 79 is disposed inside each sealing sliding body 81, a sealing sliding block 82 capable of sliding back and forth and abutting against the hydraulic upright sliding column 13 is disposed inside each sealing sliding groove 79, and a sealing spring 80 is fixedly disposed between each sealing sliding block 82 and the corresponding sealing sliding groove 79.

As shown in fig. 2, 4 and 6, the mobile power and control mechanism includes an upper mounting frame 25, a mobile slide bar motor 42 is fixedly arranged on the upper mounting frame 25, a mobile slide bar rotating shaft 41 is fixedly arranged on an output shaft of the mobile slide bar motor 42, a mobile slide bar gear 40 is fixedly arranged on the mobile slide bar rotating shaft 41, a mobile slide bar gear slot 39 is arranged on the upper mounting frame 25, the mobile slide bar gear 40 can freely rotate in the mobile slide bar gear slot 39, two mobile slide bar sliding slots 46 are symmetrically arranged on the upper mounting frame 25 along an axial geometric central line of the hydraulic vertical sliding column 13, a mobile slide bar 44 capable of sliding back and forth is arranged in each mobile slide bar sliding slot 46, and a mobile slide bar rack 43 which is meshed with the mobile slide bar gear 40 for transmission is fixedly arranged on each mobile slide bar 44.

As shown in figure 2 of the drawings, in which, 7, two movable fixed mounting frames 49 are symmetrically and fixedly arranged on the upper mounting frame 25, each movable fixed mounting frame 49 is provided with a movable rotating shaft 48 capable of freely rotating, each movable rotating shaft 48 is fixedly provided with a movable mounting frame 47, each movable mounting frame 47 is fixedly provided with a movable swing frame 55, each movable motor 54 is fixedly provided with a movable motor 54, the output end of each movable motor 54 is fixedly provided with a movable driving shaft 50, each movable driving shaft 50 is fixedly provided with a movable driving gear 51, each movable swing frame 55 is provided with a movable wheel groove 56, each movable wheel groove 56 is provided with a freely rotating movable driven shaft 52, each movable driven shaft 52 is fixedly provided with a movable wheel 57 capable of freely rotating in the movable wheel groove 56, and each movable driven shaft 52 is fixedly provided with a movable driven gear 53 capable of being in meshing transmission with the movable driving gear 51.

As shown in fig. 7, a swing mounting frame 58 is fixedly arranged on each movable swing frame 55, a swing first rotating shaft 59 capable of rotating freely is arranged on each swing mounting frame 58, a swing connecting rod 60 capable of rotating freely is arranged on each swing first rotating shaft 59, a swing second rotating shaft 61 capable of rotating freely is fixedly arranged on each swing connecting rod 60, a swing fixing mounting frame 62 capable of rotating freely is arranged on each swing second rotating shaft 61, and each swing fixing mounting frame 62 is fixedly connected with the movable sliding rod 44.

As shown in fig. 2 and 3, the hydraulic mechanism includes an upper mounting frame 25, a hydraulic cylinder 22 is fixedly arranged on the upper mounting frame 25, a hydraulic sliding cavity 24 is formed in the hydraulic cylinder 22, a piston 23 capable of sliding back and forth is arranged in the hydraulic sliding cavity 24, the piston 23 is fixedly connected with the hydraulic vertical sliding column 13, a hydraulic spring 14 is fixedly arranged between the piston 23 and the hydraulic sliding cavity 24, and a hydraulic outlet 21 is formed in the hydraulic cylinder 22.

As shown in fig. 2 and 3, a warning light 10 is fixedly arranged at the top of a column housing 11, a vehicle distance detector 12 is symmetrically arranged at two sides of the column housing 11, a processing circuit board 35 is fixedly arranged in the column housing 11, a freely rotatable antenna base 33 is arranged on the column housing 11, an antenna 32 is arranged on the antenna base 33, an antenna connecting wire 34 is connected between the antenna base 33 and the processing circuit board 35, two sets of four fence fixing and mounting frames 36 are symmetrically arranged on the column housing 11, a freely rotatable fence mounting shaft 37 is arranged on each fence fixing and mounting frame 36, a freely rotatable fence moving and mounting frame 38 is arranged on each fence mounting shaft 37, the same fence vertical rod 29 is fixedly arranged on each set of fence moving and mounting frame 38, a plurality of fence cross rods 30 are arranged on each fence vertical rod 29, a solar cell panel 31 is fixedly arranged on each set of fence cross rods 30, an upper positioning detector 16 is fixedly arranged at the ground-near end of the column housing 11, the lower frame 26 is fixed with a lower positioning detector 19 which can detect the corresponding upper positioning detector 16.

Initial position: the piston 23 moves the hydraulic stem 13 downward and positions the seal slide 82 against the hydraulic stem 13 under the action of the seal spring 80. The positioning slider 71 is inserted into the strut positioning groove 66 by the positioning spring 78.

The fence for the tidal lane based on the smart city and the working method thereof comprise the following specific steps:

the first step is as follows: timed starting or in special cases controlled starting by a remote terminal.

The second step is that: and unlocking the positioning slide block. The positioning slide block 71 pulls out the vertical strut positioning groove 66 under the action of the positioning gear 76, and axial positioning and circumferential positioning of the hydraulic vertical strut 13 are released.

The third step: the movable slide bar moves downwards and the hydraulic vertical slide column 13 moves upwards. The moving-slide gear 40 moves the moving slide 44 downward by the moving-slide rack 43 and the moving-slide connecting rod 45. The hydraulic spring 14 drives the hydraulic vertical sliding column 13 to move upwards through the piston 23.

The fourth step: the moving wheel contacts the ground and the sealing slide block seals the inlet and the outlet. The moving wheel 57 touches the ground as the moving slide 44 is moved upward. After the hydraulic upright sliding column 13 is withdrawn from the sealing inlet/outlet 83, the sealing slide block 82 seals the sealing inlet/outlet 83 under the action of the sealing spring 80.

The fifth step: the warning lamp and the vehicle distance detector are started.

And a sixth step: the barrier moves. The moving motor 54 drives the moving wheel 57 to rotate through the moving driving shaft 50, the moving driving gear 51, the moving driven shaft 52 and the moving driven gear 53, thereby moving the fence.

The seventh step: the upper and lower positioning detectors are positioned. The upper position detector 16 and the lower position detector 19 are positioned.

Eighth step: the movable sliding rod moves upwards and the hydraulic vertical sliding column moves downwards. The shift-rod gear 40 moves the shift rod 44 upward by the shift-rod rack 43 and the shift-rod connecting rod 45. The hydraulic spring 14 drives the hydraulic vertical sliding column 13 to move downwards through the piston 23.

The ninth step: the moving wheel lifts off the ground and the sealing slide block opens the sealing inlet and outlet. The wheels 57 are moved away with the continuous downward movement of the moving slide 44. After the hydraulic upright sliding column 13 enters the sealing inlet/outlet 83, the sealing slide block 82 opens the sealing inlet/outlet 83 under the action of the sealing spring 80.

The tenth step: the positioning trigger slide block sends out a stop signal.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. A fence for a tidal lane based on a smart city and a working method thereof are matched with a fence for a tidal lane based on a smart city and a working device thereof, the fence for the tidal lane based on the smart city and the working device thereof comprise an asphalt pavement (28), a lower rack (26) is fixedly arranged on the asphalt pavement (28), an installation rack (18) is fixedly arranged in the lower rack (26), a positioning mechanism is fixedly arranged on the installation rack (18), an upper rack (17) is fixedly arranged on the lower rack (26), a sealing mechanism is fixedly arranged on the upper rack (17), a sealing inlet and outlet (83) is arranged on the upper rack (17), a hydraulic vertical sliding column (13) is abutted in the sealing inlet and outlet (83), an upper installation rack (25) is abutted on the hydraulic vertical sliding column (13), and a mobile power and control mechanism is arranged on the upper installation rack (25), and a hydraulic mechanism is arranged on the upper mounting rack (25), a damping rubber gasket (20) is fixedly arranged on the hydraulic mechanism, and an upright shell (11) is fixedly arranged on the damping rubber gasket (20).

2. The fence for tidal lanes based on smart city and its working method as claimed in claim 1, wherein: the positioning mechanism comprises the mounting rack (18), two positioning sliding bodies (70) are symmetrically and fixedly arranged on the mounting rack (18), a positioning sliding groove (77) is formed in each positioning sliding body (70), a positioning sliding block (71) capable of sliding in a reciprocating manner is arranged in each positioning sliding groove (77), a positioning spring (78) is fixedly arranged between each positioning sliding block (71) and the corresponding positioning sliding groove (77), a positioning rack (72) is fixedly arranged on each positioning sliding block (71), two positioning motor frames (74) are symmetrically arranged on the lower frame (26), each positioning motor frame (74) is fixedly provided with a positioning motor (73), the output end of each positioning motor (73) is fixedly provided with a positioning rotating shaft (75), and each positioning rotating shaft (75) is fixedly provided with a positioning gear (76) which is meshed with the positioning rack (72) for transmission.

3. The fence for tidal lanes based on smart city and its working method as claimed in claim 2, wherein: the lower rack (26) is fixedly provided with a positioning trigger base (67), a positioning trigger chute (69) is formed in the positioning trigger base (67), a positioning trigger slide block (65) capable of sliding in a reciprocating manner is arranged in the positioning trigger chute (69), a positioning trigger spring (63) is fixedly arranged between the positioning trigger slide block (65) and the positioning trigger chute (69), a positioning trigger slide block conductive layer (68) is fixedly arranged on the lower portion of the positioning trigger slide block (65), and a positioning trigger loop (64) capable of being switched on and off under the sliding of the positioning trigger slide block (65) is arranged on the positioning trigger base (67).

4. The fence for tidal lanes based on smart city and its working method as claimed in claim 1, wherein: the sealing mechanism comprises an upper frame (17), two sealing sliding bodies (81) are symmetrically arranged on the upper frame (17) along the axial central line of the sealing inlet and outlet (83), a sealing sliding groove (79) is formed in each sealing sliding body (81), a sealing sliding block (82) capable of sliding in a reciprocating mode and abutting against the hydraulic vertical sliding column (13) is arranged in each sealing sliding groove (79), and a sealing spring (80) is fixedly arranged between each sealing sliding block (82) and the corresponding sealing sliding groove (79).

5. The fence for tidal lanes based on smart city and its working method as claimed in claim 1, wherein: the moving power and control mechanism comprises an upper mounting rack (25), a moving slide rod motor (42) is fixedly arranged on the upper mounting rack (25), a moving slide rod rotating shaft (41) is fixedly arranged on an output shaft of the moving slide rod motor (42), a moving slide bar gear (40) is fixedly arranged on the moving slide bar rotating shaft (41), a moving slide bar gear groove (39) is arranged on the upper mounting rack (25), the shift rod gear (40) can freely rotate in the shift rod gear groove (39), the upper mounting rack (25) is symmetrically provided with two moving slide bar sliding grooves (46) along the axial geometric center line of the hydraulic vertical sliding column (13), each moving slide bar sliding groove (46) is internally provided with a moving slide bar (44) capable of sliding in a reciprocating manner, and each moving slide bar (44) is fixedly provided with a moving slide bar rack (43) in meshing transmission with the moving slide bar gear (40).

6. The fence for tidal lanes based on smart city and its working method as claimed in claim 5, wherein: the upper mounting rack (25) is symmetrically and fixedly provided with two movable fixed mounting frames (49), each movable fixed mounting frame (49) is provided with a movable rotating shaft (48) capable of rotating freely, each movable rotating shaft (48) is fixedly provided with a movable mounting frame (47), each movable mounting frame (47) is fixedly provided with a movable swing frame (55), each movable motor (54) is fixedly provided with a movable motor (54), the output end of each movable motor (54) is fixedly provided with a movable driving shaft (50), each movable driving shaft (50) is fixedly provided with a movable driving gear (51), each movable swing frame (55) is provided with a movable wheel groove (56), each movable wheel groove (56) is provided with a movable driven shaft (52) capable of rotating freely, each movable driven shaft (52) is fixedly provided with a movable wheel (57) capable of rotating freely in the movable wheel groove (56), each movable driven shaft (52) is fixedly provided with a movable driven gear (53) which can be meshed with the movable driving gear (51) for transmission.

7. The fence for tidal lanes based on smart city and its working method as claimed in claim 6, wherein: every it moves mounting bracket (58) to have set firmly the swing on removal rocker (55), but is equipped with the first pivot of free rotation's swing (59) on every swing moves mounting bracket (58), is equipped with free rotation's swing connecting rod (60) on every swing first pivot (59), every but set firmly swing second pivot (61) that can free rotation on swing connecting rod (60), every but be equipped with free rotation's swing on swing second pivot (61) and decide mounting bracket (62), every mounting bracket (62) are decided in the swing with remove slide bar (44) fixed connection.

8. The fence for tidal lanes based on smart city and its working method as claimed in claim 1, wherein: the hydraulic mechanism comprises a hydraulic cylinder (22) fixedly arranged on the upper mounting rack (25), a hydraulic sliding cavity (24) is formed in the hydraulic cylinder (22), a piston (23) capable of sliding in a reciprocating mode is arranged in the hydraulic sliding cavity (24), the piston (23) is fixedly connected with the hydraulic vertical sliding column (13), a hydraulic spring (14) is fixedly arranged between the piston (23) and the hydraulic sliding cavity (24), and a hydraulic outlet (21) is formed in the hydraulic cylinder (22).

9. The fence for tidal lanes based on smart city and its working method as claimed in claim 1, wherein: the utility model discloses a fence installation device, including stand shell (11), stand shell (11) bilateral symmetry are equipped with car apart from detector (12), stand shell (11) internal setting has processing circuit board (35), but be equipped with free rotation's antenna base (33) on stand shell (11), be equipped with antenna (32) on antenna base (33), antenna base (33) with be connected with antenna connecting wire (34) between processing circuit board (35), stand shell (11) symmetry is equipped with two sets of four fence level mounting brackets (36), every but be equipped with free rotation's fence installation axle (37) on fence level mounting bracket (36), but every be equipped with free rotation's fence movable mounting bracket (38) on fence installation axle (37), every group has set firmly same fence pole setting (29) on fence movable mounting bracket (38), every be equipped with a plurality of fence horizontal poles (30) on fence pole setting (29), every group solar cell panel (31) have set firmly on fence horizontal pole (30), the nearly ground end of stand shell (11) is equipped with positioning detector (16) admittedly, set firmly on lower frame (26) can with go up positioning detector (16) and detect corresponding lower positioning detector (19).

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