CN210369237U - Road construction intelligent control system - Google Patents

Abstract

The utility model relates to a road construction technical field just discloses a road construction intelligent control system, including ground, the underground is opened downwards and is equipped with the sewer, the below ground is and be located the top of sewer and set up the drainage that is linked together and erect the groove, the top that the groove was erected in the drainage is provided with the outlet, the inside of outlet is provided with the metal filter grid, the length of side of outlet all is less than the length of side of cross section that the groove was erected in the drainage, equal fixed mounting has the connection slide rail on the inner wall that the groove left and right sides was erected in the drainage, subaerial and the outside that is located the outlet is provided with evenly distributed's inner circle water pressure detection module and inner circle rivers detection. This intelligent control system of road construction smashes rubbish through smashing the motor, can effectively reduce the influence of rubbish in the rainwater to the drainage, improves drainage efficiency, avoids leading to the emergence of urban waterlogging phenomenon because of rubbish can't in time clear up, practices thrift the human cost.

Description

Road construction intelligent control system

Technical Field

The utility model relates to a road construction technical field specifically is a road construction intelligent control system.

Background

The sponge city is a new generation of urban rainfall flood management concept, and means that the city has good elasticity in the aspects of adapting to environmental changes, coping with natural disasters caused by rainwater and the like, and can be also called as a water elasticity city. The international general term is "low impact development of rainwater system construction", which absorbs, stores, seeps water, purifies water when raining, and "releases" and utilizes the stored water when necessary.

The development of city construction is greatly accelerated by the proposal of the sponge city concept, the capability of the city for resisting natural disasters is improved, however, when some cities face large-scale rainfall in summer, the problem that rainwater cannot be timely discharged exists, and local areas of the cities are prone to waterlogging.

When the heavy rainfall comes in summer, the rainwater can carry a large amount of rubbish when flowing, these rubbish block up the sewer outlet easily, lead to the rainwater to be difficult to discharge, the rainwater gathers, thereby lead to the phenomenon of urban waterlogging, and after the rainwater is gathered, hardly directly find the sewer outlet again, even can find to waste a lot of time and manpower resources, be unfavorable for in time getting rid of the rainwater, influence urban internal traffic easily, cause adverse effect to people's life.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a road construction intelligent control system possesses and clears up the rubbish that carries in the rainwater, and the rainwater of being convenient for in time gets rid of advantages such as has solved the heavy rainfall that takes place in summer, and the rainwater carries rubbish and blocks up the sewer outlet easily, and the inside problem that produces the waterlogging easily of city.

In order to realize the above-mentioned rubbish of carrying in the rainwater and clear up, the purpose that the rainwater of being convenient for in time got rid of, the utility model provides a following technical scheme:

the utility model provides an intelligent control system of road construction, includes ground, the subaerial sewer that is equipped with is dug, the below ground is and be located the top of sewer and set up the drainage that is linked together and erect the groove, the top that the groove was erect in the drainage is provided with the outlet, the inside of outlet is provided with the metal filter grid, the length of side of the cross section side that the groove was erect in the drainage all is less than, equal fixed mounting has the connection slide rail on the inner wall of the vertical groove left and right sides of drainage.

The water flow detection device is characterized in that inner ring water pressure detection modules and inner ring water flow detection modules which are uniformly distributed are arranged on the ground and on the outer side of the water outlet, and outer ring water pressure detection modules and outer ring water flow detection modules which are uniformly distributed are arranged on the ground and on the outer side of the inner ring water pressure detection modules and the outer ring water flow detection modules.

On the inner wall of sewer and be located the left side fixed mounting that the groove was erected in the drainage and have evenly distributed's preceding rivers detection module and preceding water pressure detection module, on the inner wall of sewer and be located the right side fixed mounting that the groove was erected in the drainage there is evenly distributed's back rivers detection module and back water pressure detection module.

Inner circle water pressure detection module, inner circle rivers detection module, outer lane water pressure detection module and outer lane rivers detection module's output is connected with data communication module's input electricity respectively, preceding rivers detection module, preceding water pressure detection module, back rivers detection module and back water pressure detection module's output is connected with data communication module's input electricity respectively, data communication module's output is connected with the input electricity of treater, the output of treater is connected with the input electricity of cloud database, the cloud database includes the weather information storehouse, the output of weather information storehouse is connected with the input electricity of treater.

Preferably, the bottom of the metal filter grid is fixedly provided with a vertical telescopic rod, the bottom of the vertical telescopic rod is fixedly connected with a horizontal support rod, and the horizontal support rod is fixedly arranged inside the vertical drainage groove.

Preferably, a horizontal telescopic rod is fixedly installed at the top of the inner side wall of the drainage vertical groove, a supporting block is fixedly installed at one end, far away from the inner side wall of the drainage vertical groove, of the horizontal telescopic rod, and the top of the supporting block is in contact with the metal filter grid.

Preferably, be provided with the sliding connection piece rather than sliding connection on connecting the slide rail, sliding connection piece is pulled by synchronous machine and is removed, and synchronous machine can fixed mounting on the inner wall of groove is erected in the drainage, sets up a rolling wheel on synchronous machine, draws through a haulage rope by synchronous machine, and on haulage rope one end was fixed in sliding connection piece, the other end was fixed in synchronous machine's rolling wheel, the left and right sides fixedly connected with rubbish filtration metal grid between the sliding connection piece, the rubbish filters the below slope of metal grid to the left, just the inclination of rubbish filtration metal grid is ten to twenty degrees.

Preferably, the crushing chamber has been seted up on the left side of perpendicular groove of drainage, smash the chamber and erect the groove intercommunication with the drainage through defeated material passageway, the interior diapire of defeated material passageway is the slope form of below left, the inclination of defeated material passageway is greater than the inclination of rubbish filtration metal grid and is less than ninety degrees.

Preferably, the left the top of connecting the slide rail extends the below of defeated material passageway, and the left the bottom of connecting the slide rail down extend to the sewer and with the interior diapire fixed connection of sewer, the right side the length of connecting the slide rail is greater than the length of left connection slide rail, the right side the bottom of connecting the slide rail extends to the bottom of drainage vertical slot.

Preferably, fixed mounting has crushing motor on the inner wall at the crushing chamber back, crushing motor's output shaft has crushing pivot through shaft coupling fixed mounting, fixed mounting has evenly distributed's arc crushing blade in the crushing pivot, the equal fixed mounting in both sides of arc crushing blade has the toper crushing tooth that the equidistance was arranged.

Preferably, the bottom in crushing chamber is the arc form, the bottom in crushing chamber is seted up and discharge material passageway, discharge material passageway diameter crescent from top to bottom, discharge material passageway's bottom and sewer intercommunication.

Preferably, the output end of the processor is electrically connected with the input ends of the crushing motor, the synchronous motor, the horizontal telescopic rod and the vertical telescopic rod respectively.

Compared with the prior art, the utility model provides a road construction intelligent control system possesses following beneficial effect:

the intelligent road construction control system extracts data in a meteorological information base through a cloud database by a processor, the updated weather information of the meteorological information base is conveyed to the processor for analysis so as to be matched with a detection module, when strong rainfall exists, garbage carried by rainwater is accumulated near a water outlet, the water flow is detected through an outer ring water pressure detection module and an outer ring water flow detection module so as to determine the state of the rainwater, the rainwater state with garbage around the water outlet is detected through an inner ring water flow detection module and an inner ring water pressure detection module, metal filter grids are collected into a drainage vertical groove through mutual comparison of the water flows so as to be discharged into the drainage vertical groove, at the moment, the garbage filter metal grids are positioned in a material conveying passage so as to be conveniently conveyed to a crushing cavity for crushing, after waiting to reach the certain time, rubbish filters metal grid and descends to the inside rubbish that filters of sewer, treats that water pressure and rivers in the sewer reach certain threshold value after, rubbish filters metal grid and upwards rises, smashes rubbish through smashing the motor, can effectively reduce the influence of rubbish in the rainwater to the drainage, improves drainage efficiency, avoids leading to the emergence of urban waterlogging phenomenon because of rubbish can't in time clear up, practices thrift the human cost.

Drawings

Fig. 1 is a schematic structural view of an intelligent control system for road construction according to the present invention;

FIG. 2 is an enlarged view of the A-part structure of the intelligent control system for road construction provided by the present invention;

FIG. 3 is an enlarged view of the structure of the part B in the intelligent control system for road construction provided by the present invention;

fig. 4 is the utility model provides a road construction intelligent control system's working principle picture.

In the figure: 1. a ground surface; 2. a sewer; 3. a vertical drainage groove; 4. a water outlet; 5. a metal filter grid; 6. connecting a slide rail; 7. a grinding chamber; 8. an inner ring water pressure detection module; 9. an inner ring water flow detection module; 10. an outer ring water pressure detection module; 11. an outer ring water flow detection module; 12. a front water flow detection module; 13. a front water pressure detection module; 14. a rear water flow detection module; 15. a rear water pressure detection module; 16. a data communication module; 17. a processor; 18. a cloud database; 19. a weather information base; 20. a vertical telescopic rod; 21. a horizontal support bar; 22. a horizontal telescopic rod; 23. a support block; 24. a sliding connection block; 25. a synchronous motor; 26. a garbage filtering metal grid; 27. a material conveying channel; 28. a grinding motor; 29. an arc-shaped crushing blade; 30. conical crushing teeth; 31. a discharge channel.

Detailed Description

Please refer to fig. 1-4, an intelligent control system for road construction, includes ground 1, under ground 1, sewer 2 is opened, under ground 1 and above sewer 2, vertical drainage groove 3 is opened, which is communicated, vertical drainage groove 3 can be poured by concrete, which is not described herein any more, above vertical drainage groove 3, drainage outlet 4 is provided, inside of drainage outlet 4 is provided with metal filter grid 5, side length of drainage outlet 4 is less than side length of cross section of vertical drainage groove 3, and connecting slide rails 6 are fixedly mounted on inner walls of left and right sides of vertical drainage groove 3.

Inner ring water pressure detection modules 8 and inner ring water flow detection modules 9 which are uniformly distributed are arranged on the ground 1 and positioned on the outer side of the water outlet 4, the inner ring water pressure detection modules 8 and the inner ring water flow detection modules 9 are positioned on the outer ring of the water outlet 4 and have garbage accumulation or are areas where garbage is easy to accumulate, outer ring water pressure detection modules 10 and outer ring water flow detection modules 11 which are uniformly distributed are arranged on the ground 1 and positioned on the outer sides of the inner ring water pressure detection modules 8 and the inner ring water flow detection modules 9, the outer ring water pressure detection modules 10 and the outer ring water flow detection modules 11 are farther away from the water outlet 4, and are positioned on the outer ring of the water outlet 4 and have no garbage accumulation or areas where garbage is difficult to accumulate.

On the inner wall of sewer 2 and be located the left side fixed mounting of vertical groove 3 of drainage and have evenly distributed's preceding rivers detection module 12 and preceding water pressure detection module 13, on the inner wall of sewer 2 and be located the right side fixed mounting of vertical groove 3 of drainage and have evenly distributed's back rivers detection module 14 and back water pressure detection module 15.

The output ends of the inner ring water pressure detection module 8, the inner ring water flow detection module 9, the outer ring water pressure detection module 10 and the outer ring water flow detection module 11 are respectively and electrically connected with the input end of the data communication module 16, the output ends of the front water flow detection module 12, the front water pressure detection module 13, the rear water flow detection module 14 and the rear water pressure detection module 15 are respectively and electrically connected with the input end of the data communication module 16, the output end of the data communication module 16 is electrically connected with the input end of the processor 17, the output end of the processor 17 is electrically connected with the input end of the cloud database 18, a worker can input a water flow threshold value, a water pressure threshold value and a water pressure difference threshold value through the cloud database 18, after the corresponding threshold values are reached, the horizontal telescopic rod 22 and the vertical telescopic rod 20 can be controlled by the microprocessor, garbage enters the interior of the vertical drainage groove 3, and the crushing motor 28 and the synchronous motor 25 work to crush the garbage; meanwhile, the staff can input the minimum threshold value of the rear water flow detection module 14 and the rear water pressure detection module 15, the front water flow and the rear water flow and the water pressure threshold value in the cloud database, after the threshold value is reached, the synchronous motor 25 drives the garbage filtering metal grid 26 to move upwards, the garbage is crushed by the crushing motor 28, the time for the synchronous motor 25 to keep above can be preset according to actual requirements, a time value can be preset, the cloud database 18 comprises the weather information database 19, and the output end of the weather information database 19 is electrically connected with the input end of the processor 17.

Specifically, the bottom fixed mounting of metal filter grid 5 has vertical telescopic link 20, the bottom and the horizontal support bar 21 fixed connection of vertical telescopic link 20, horizontal support bar 21 fixed mounting is in the inside that groove 3 was erected in the drainage, vertical telescopic link 20 is used for moving metal filter grid 5 downwards to rubbish carries out the inside that the groove 3 was erected in the drainage, vertical telescopic link 20 and horizontal telescopic link 22 all can adopt electric telescopic handle.

Specifically, the top fixed mounting that 3 inside walls in groove were erected in the drainage has horizontal telescopic rod 22, horizontal telescopic rod 22 keeps away from the one end fixed mounting that 3 inside walls in groove were erected in the drainage and has supporting shoe 23, the top and the 5 contacts of metal filtration grid of supporting shoe 23, horizontal telescopic rod 22 is used for driving supporting shoe 23 flexible, supporting shoe 23 is used for supporting metal filtration grid 5, it needs to explain here, shorten to the shortest time at horizontal telescopic rod 22, supporting shoe 23 is not located metal filtration grid 5 under, do not support metal filtration grid 5 promptly, avoid stopping metal filtration grid 5 production promptly.

It is specific, be provided with sliding connection block 24 rather than sliding connection on connecting slide rail 6, sliding connection block 24 is by synchronous machine 25 traction movement, synchronous machine 25 can fixed mounting on the inner wall of drainage vertical trough 3, set up a rolling wheel on synchronous machine 25, draw through a haulage rope by synchronous machine 25, haulage rope one end is fixed in on sliding connection block 24, the other end is fixed in on synchronous machine 25's the rolling wheel, thereby pulling sliding connection block 24 and removing, no longer describe herein and the attached is shown, fixedly connected with rubbish filtration metal grid 26 between the sliding connection block 24 of the left and right sides, rubbish filtration metal grid 26 is to the below left slope, and the inclination of rubbish filtration metal grid 26 is ten to twenty degrees.

It is specific, crushing chamber 7 has been seted up on the left side of groove 3 is erected in the drainage, crushing chamber 7 erects groove 3 intercommunication with the drainage through defeated material passageway 27, the interior diapire of defeated material passageway 27 is the slope form of below left, the inclination of defeated material passageway 27 is greater than the inclination of rubbish filtration metal grid 26 and is less than ninety degrees, rubbish passes through the leading-in inside of smashing the chamber of rubbish filtration metal grid 26, so that carry out shredding with rubbish, the inclination of defeated material passageway 27 is greater than the inclination of rubbish filtration metal grid 26, avoid rubbish to pile up in defeated material passageway 27 department, smash effectually.

Specifically, the top end of the left connecting slide rail 6 extends below the material conveying channel 27, the bottom end of the left connecting slide rail 6 extends downwards to the sewer 2 and is fixedly connected with the inner bottom wall of the sewer 2, the length of the right connecting slide rail 6 is greater than that of the left connecting slide rail 6, the bottom end of the right connecting slide rail 6 extends to the bottom end of the vertical drainage groove 3, the garbage in the sewer 2 is filtered by the garbage filtering metal grid 26, the left side of the garbage filtering metal grid 26 can extend to the bottom of the sewer 2, the right side of the garbage filtering metal grid 26 is located inside the vertical drainage groove 3 above the sewer 2 to ensure effective filtering of the garbage, when the rear water flow detection module 14 and the rear water pressure detection module 15 are smaller than a certain threshold value, namely, the processor 17 sends an instruction, and the synchronous motor 25 is used for driving the garbage filtering metal grid 26 to move upwards, the waste is poured into the interior of the crushing chamber 7.

Specifically, fixed mounting has crushing motor 28 on the inner wall at the crushing chamber 7 back, and crushing motor 28's output shaft has crushing pivot through shaft coupling fixed mounting, and fixed mounting has evenly distributed's arc crushing blade 29 in the crushing pivot, and the equal fixed mounting in both sides of arc crushing blade 29 has the toper crushing tooth 30 that the equidistance was arranged, and the rubbish of pouring into crushing chamber 7 inside smashes through arc crushing blade and toper crushing tooth 30.

Specifically, the bottom in crushing chamber 7 is the arc form, and the bottom in crushing chamber 7 is seted up and discharge channel 31, and discharge channel 31 diameter crescent from top to bottom, and discharge channel 31's bottom and sewer 2 intercommunication, the rubbish after smashing discharge channel 31 to sewer 2 in, the bottom arc form in crushing chamber 7 to the rubbish after smashing is gathered, and because the effect of arc crushing blade 29, can not lead to the fact the jam in discharge channel 31 department.

Specifically, the output end of the processor 17 is electrically connected to the input ends of the crushing motor 28, the synchronous motor 25, the horizontal telescopic rod 22 and the vertical telescopic rod 20, and it is specifically described that the garbage filtering metal grid 26 can ascend and descend synchronously with the metal filtering grid 5, so as to crush garbage synchronously, save energy, and each part of the application can adopt waterproof measures, which is not described herein again, and the system can be disposed in but not limited to the water outlet 4 where rainwater accumulation or lower topography is easily generated.

When the device is used, the processor 17 extracts the data in the meteorological information base 19 through the cloud database 18, the weather information updated in the meteorological information base 19 is conveyed to the processor 17 for analysis so as to be matched with the detection module, when heavy rainfall occurs, the garbage carried by rainwater is accumulated near the water outlet 4, the water flow is detected through the outer ring water pressure detection module 10 and the outer ring water flow detection module 11 so as to determine the state of the rainwater, the rainwater state with garbage around the water outlet 4 is detected through the inner ring water flow detection module 9 and the inner ring water pressure detection module 8, the metal filter grids 5 are collected into the water drainage vertical grooves 3 through the mutual comparison of the water flow so as to discharge the garbage into the water drainage vertical grooves 3, at the moment, the garbage filter metal grids 26 are positioned at the material conveying channel 27 so as to convey the garbage into the crushing cavity 7 for crushing, after a certain time, the garbage filtering metal grid 26 descends to the inside of the sewer 2 to filter the garbage, and after the water pressure and the water flow in the sewer 2 reach a certain threshold value, the garbage filtering metal grid 26 rises upwards to crush the garbage through the crushing motor 28.

Claims (9)

1. The utility model provides a road construction intelligent control system, includes ground (1), its characterized in that: a sewer (2) is arranged below the ground (1), communicated vertical drainage grooves (3) are formed below the ground (1) and above the sewer (2), a drainage port (4) is arranged above the vertical drainage grooves (3), metal filter grids (5) are arranged inside the drainage port (4), the side length of each drainage port (4) is smaller than that of the cross section of each vertical drainage groove (3), and connecting sliding rails (6) are fixedly arranged on the inner walls of the left side and the right side of each vertical drainage groove (3);

inner ring water pressure detection modules (8) and inner ring water flow detection modules (9) which are uniformly distributed are arranged on the ground (1) and positioned at the outer side of the water outlet (4), and outer ring water pressure detection modules (10) and outer ring water flow detection modules (11) which are uniformly distributed are arranged on the ground (1) and positioned at the outer sides of the inner ring water pressure detection modules (8) and the inner ring water flow detection modules (9);

front water flow detection modules (12) and front water pressure detection modules (13) which are uniformly distributed are fixedly arranged on the inner wall of the sewer (2) and positioned on the left side of the vertical drainage groove (3), and rear water flow detection modules (14) and rear water pressure detection modules (15) which are uniformly distributed are fixedly arranged on the inner wall of the sewer (2) and positioned on the right side of the vertical drainage groove (3);

the utility model discloses a water pressure detection device, including inner circle water pressure detection module (8), inner circle rivers detection module (9), the output of outer lane water pressure detection module (10) and outer lane rivers detection module (11) is connected with the input electricity of data communication module (16) respectively, the output of preceding rivers detection module (12), preceding water pressure detection module (13), back rivers detection module (14) and back water pressure detection module (15) is connected with the input electricity of data communication module (16) respectively, the output of data communication module (16) is connected with the input electricity of treater (17), the output of treater (17) is connected with the input electricity of cloud database (18), cloud database (18) include meteorological information storehouse (19), the output of meteorological information storehouse (19) is connected with the input electricity of treater (17).

2. The intelligent road construction control system according to claim 1, wherein: the bottom fixed mounting of metal filter grid (5) has vertical telescopic link (20), the bottom and the horizontal support pole (21) fixed connection of vertical telescopic link (20), horizontal support pole (21) fixed mounting is in the inside of groove (3) is erected in the drainage.

3. The intelligent road construction control system according to claim 1, wherein: the top of the inner side wall of the drainage vertical groove (3) is fixedly provided with a horizontal telescopic rod (22), one end, far away from the inner side wall of the drainage vertical groove (3), of the horizontal telescopic rod (22) is fixedly provided with a supporting block (23), and the top of the supporting block (23) is in contact with the metal filter grid (5).

4. The intelligent road construction control system according to claim 1, wherein: connect be provided with on slide rail (6) rather than sliding connection's sliding connection piece (24), sliding connection piece (24) are pulled by synchronous machine (25) and are removed, and synchronous machine (25) can fixed mounting on the inner wall of groove (3) is erected in the drainage, set up a rolling wheel on synchronous machine (25), draw through a haulage rope by synchronous machine (25), on haulage rope one end was fixed in sliding connection piece (24), on the other end was fixed in synchronous machine (25) rolling wheel, the left and right sides fixedly connected with rubbish filtration metal grid (26) between sliding connection piece (24), rubbish filtration metal grid (26) are to the below left side slope, just the inclination of rubbish filtration metal grid (26) is ten to twenty degrees.

5. The intelligent road construction control system according to claim 1, wherein: crushing chamber (7) have been seted up on the left side of groove (3) is erected in the drainage, smash chamber (7) and erect groove (3) intercommunication with the drainage through defeated material passageway (27), the interior diapire of defeated material passageway (27) is the slope form of below left, the inclination of defeated material passageway (27) is greater than the inclination of rubbish filtration metal grid (26) and is less than ninety degrees.

6. The intelligent control system for road construction according to claim 1 or 5, wherein: left the top of connecting slide rail (6) extends the below of defeated material passageway (27), and is left the bottom downwardly extending of connecting slide rail (6) extends to sewer (2) and with the interior diapire fixed connection of sewer (2), right side the length of connecting slide rail (6) is greater than the length of left connection slide rail (6), the right side the bottom of connecting slide rail (6) extends to the bottom of vertical groove (3) of drainage.

7. The intelligent road construction control system according to claim 5, wherein: smash on the inner wall at chamber (7) back fixed mounting have crushing motor (28), the output shaft of crushing motor (28) has crushing pivot through shaft coupling fixed mounting, fixed mounting has evenly distributed's arc in the crushing pivot and smashes blade (29), tooth (30) are smashed to the toper that the equidistance was arranged to the equal fixed mounting in both sides of arc crushing blade (29).

8. The intelligent road construction control system according to claim 5, wherein: the bottom in crushing chamber (7) is the arc form, the bottom in crushing chamber (7) is seted up and discharge material passageway (31), discharge material passageway (31) diameter crescent from top to bottom, the bottom and sewer (2) the intercommunication of discharge material passageway (31).

9. The intelligent road construction control system according to claim 1, wherein: the output end of the processor (17) is electrically connected with the input ends of the crushing motor (28), the synchronous motor (25), the horizontal telescopic rod (22) and the vertical telescopic rod (20) respectively.

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