CN210323435U - Urban waterlogging prediction system - Google Patents

Abstract

The utility model discloses an urban waterlogging forecasting system, which comprises a waterlogging monitoring device, wherein the waterlogging monitoring device comprises a mounting seat, a vertical rod, a mounting sleeve, a lifting device, a sliding sleeve, a floating ball, a water logging sensor, a magnetic stripe and a locator; the top of the mounting base is provided with a vertical rod, a mounting sleeve is slidably sleeved on the vertical rod, and a lifting device is arranged between the top of the vertical rod and the top of the mounting sleeve; a sliding sleeve is slidably sleeved on the outer side of the mounting sleeve, and a plurality of floating balls are arranged on the side face of the bottom of the sliding sleeve along the circumferential direction; the bottom of the floating ball is provided with a water immersion sensor, and the top of the floating ball is provided with a magnetic strip; a positioner is arranged on the outer side surface of the top of the mounting sleeve corresponding to the magnetic strip, and the magnetic strip extends into a positioning groove of the positioner; the utility model discloses have that the waterlogging early warning is timely, waterlogging water level rise height real-time supervision, the initial detection water level is nimble adjustable, waterlogging monitoring is intelligent, prevent effectively that aquatic debris striking, effective protection device are safe beneficial effect.

Description

Urban waterlogging prediction system

Technical Field

The utility model belongs to the technical field of urban waterlogging prediction, concretely relates to urban waterlogging prediction system.

Background

Urban waterlogging refers to a phenomenon that water accumulation disasters occur in cities due to strong precipitation or continuous precipitation exceeding urban drainage capacity; the objective reason for causing waterlogging is that rainfall intensity is large and the range is concentrated; the places with special urgent rainfall may form ponding, and the rainfall intensity is larger, and the time is longer, also may form ponding.

When urban inland inundation occurs, the existing inland inundation detection device can only carry out simple water level detection and cannot detect the rising height of the water level in inland inundation in real time. Meanwhile, the waterlogging water levels in different areas in the city are different, and the waterlogging water level is usually lower in a relatively flat area; in low lying areas, the waterlogging level is generally high. The existing waterlogging detection device cannot adjust the initial ground clearance of the water level detection device according to the actual rainfall condition and the waterlogging area, namely the ground clearance of the water level detection device in the existing waterlogging detection device is usually fixed, and the device cannot be well compatible and applicable to areas with different waterlogging conditions. Therefore, at present, a waterlogging forecasting monthly report system which can adapt to different waterlogging conditions of different areas for water level detection and can detect the water level rising height in real time when waterlogging occurs needs to be developed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a prediction system of city waterlogging realizes carrying out the initial highly flexible regulation of waterlogging detection water level to different regions, and the function of waterlogging early warning is in time carried out to the rising height of while real-time detection waterlogging water level.

The utility model discloses a following technical scheme realizes:

a city waterlogging forecasting system comprises a waterlogging monitoring device, wherein the waterlogging monitoring device comprises a mounting seat, a vertical rod, a mounting sleeve, a lifting device, a sliding sleeve, a floating ball, a water logging sensor, a magnetic stripe and a positioner; the top of the mounting base is provided with an upright rod, a mounting sleeve is slidably sleeved on the upright rod, and a lifting device is arranged between the top of the upright rod and the top of the mounting sleeve; a sliding sleeve is slidably sleeved on the outer side of the mounting sleeve, and a plurality of floating balls are arranged on the side face of the bottom of the sliding sleeve along the circumferential direction; the bottom of the floating ball is provided with a water immersion sensor, and the top of the floating ball is provided with a magnetic strip; the installation cover is characterized in that a positioner is arranged on the outer side face of the top of the installation cover in a corresponding mode of the magnetic strip, and the magnetic strip extends into a positioning groove of the positioner.

The working principle is as follows:

the bottom of mount pad is passed through bolt fixed mounting subaerial, and the pole setting is installed through the mode of welding or spiro union in the top of mount pad, and the slip cover is equipped with the installation cover in the pole setting, and is provided with hoisting device between the top of pole setting and installation cover, and hoisting device is used for promoting the installation cover, makes the installation cover carry out the slip of vertical direction along the pole setting. The sliding sleeve is sleeved outside the mounting sleeve in a sliding mode, the limiting clamp is arranged at the bottom of the mounting sleeve, and the sliding sleeve is prevented from slipping off from the bottom of the mounting sleeve. Be provided with a plurality of floaters along circumference in the outside of sliding sleeve, and be provided with the water logging sensor in the bottom of floater, be provided with the magnetic stripe along vertical direction at the top of floater, and be provided with the locator in the position that the outside at installation cover top corresponds the magnetic stripe, be provided with on the locator to be used for carrying out the constant head tank of magnetic induction with the magnetic stripe, the magnetic stripe upwards extends and passes the constant head tank.

Before rainfall, the height of the mounting sleeve on the upright rod is adjusted through the lifting device so as to determine the initial height of the mounting sleeve and the sliding sleeve on the mounting sleeve, wherein the initial height is the waterline of the waterlogging water level. Under the natural state, the sliding sleeve and the floating ball can stand still at the bottom of the mounting sleeve under the action of self gravity. When rainfall happens, if waterlogging happens, when the ground water level rises to the floating ball, the water sensor at the bottom of the floating ball is submerged by rainwater, namely, the waterlogging happens, and the water sensor prompts a worker to have the waterlogging by a feedback signal at the moment. When the water level continues to rise, the floater drives the sliding sleeve to upwards slide along the outer side of the installation sleeve under the buoyancy effect of accumulated water, the magnetic stripe of the vertical setting at the top of the floater upwards moves simultaneously, when the magnetic stripe upwards moves, the magnetic stripe in the positioning groove of the positioner moves to cause the magnetic change, the positioner calculates the height of the magnetic stripe according to the magnetic change, the rising height of the waterlogging water level is obtained, and the rising speed of the waterlogging water level can be further known.

In order to better realize the utility model, the utility model further comprises an installation box and an image acquisition module which are arranged at the top of the upright stanchion, wherein a wireless signal receiving and sending module, a GPS positioning module, a control module and a power supply module are arranged inside the installation box; the control module is respectively connected with the wireless signal transceiving module, the GPS positioning module and the image acquisition module, and is also respectively connected with the lifting device, the water sensor and the positioner; the power module is connected with the control module.

The top of the upright rod is provided with an image acquisition module, the image acquisition module adopts a high-definition camera assembly, images or video information of the surrounding environment when waterlogging occurs are acquired in real time through the image acquisition module, and then the image acquisition module sends the acquired image information to a remote monitoring terminal through a wireless signal transceiver module for visual display and storage.

The top of the upright stanchion is provided with an openable installation box, the inside of the installation box is provided with a wireless signal transceiver module, a GPS positioning module, a control module and a power supply module, the wireless signal transceiver module and the GPS positioning module are respectively connected with the control module, the GPS positioning module is used for positioning the actual position of the waterlogging monitoring device, and the actual position information of the waterlogging monitoring device is sent to the wireless signal transceiver module through the control module, and then the position information is sent to a remote GIS positioning system through a wireless signal transceiver module, the inland inundation site is positioned through the GIS positioning system, meanwhile, the GIS positioning system is connected with a computer, a mobile phone and other remote monitoring terminals through a wireless network, monitored waterlogging position information is visually displayed on the remote monitoring terminals in a map mode, and people can visually and clearly know the position of urban waterlogging through the map.

Control module still respectively with hoisting device, the water logging sensor, the locator is connected, the staff reachs corresponding waterlogging water line height through rainfall prediction, then send waterlogging water line height to wireless signal transceiver module, then wireless signal transceiver module feeds back waterlogging water line height information to control module, control module drives the installation cover and slides from top to bottom along the pole setting according to waterlogging water line height information control hoisting device, with the regulation installation cover, the sliding sleeve, the initial height of devices such as floater equals waterlogging water line height. Meanwhile, the control module is connected with the water sensor, when waterlogging occurs, the water sensor is submerged by the water level, the water sensor feeds back signals to the control module, and the control module transmits the feedback information to the remote monitoring terminal through the wireless signal transceiver module to prompt staff to have the waterlogging in time; simultaneously, control module still is connected with the locator, and the magnetic stripe that the real-time reception locator detected accompanies the rise of floater, the rise of real-time detection waterlogging water level promptly, then the locator feeds back the magnetic stripe rise to control module, and control module sends the magnetic stripe rise information to remote monitoring terminal through wireless signal transceiver module and carries out real-time early warning, makes people learn waterlogging water level rise and speed in real time.

For better realization the utility model discloses, furtherly, the top of install bin is provided with solar cell panel, solar cell panel is connected with power module.

The solar cell panel converts light energy into electric energy, and transmits the electric energy to the power module for storage, so that the solar cell panel is more energy-saving and environment-friendly.

In order to better realize the utility model discloses, further, the inside of install bin is provided with dampproofing package.

Be provided with the dampproofing package on the inner wall of install bin for fabric love step moisture or moisture get into the inside of install bin and lead to wireless signal transceiver module, GPS orientation module, control module, power module to damage.

In order to better realize the utility model, the anti-collision device comprises a guiding telescopic rod, a buffer spring and an anti-collision plate, wherein a plurality of guiding telescopic rods are circumferentially arranged on the side surface of the floating ball away from the sliding sleeve, an annular anti-collision plate is coaxially arranged outside the side surface of the floating ball away from the sliding sleeve, and one side of the anti-collision plate close to the floating ball is connected with the telescopic end of the guiding telescopic rod; and a plurality of buffer springs are arranged between the side surface of the floating ball far away from the sliding sleeve and one side of the anti-collision plate close to the floating ball along the circumferential direction.

When waterlogging occurs, sundries such as wood and foam can float on the water surface, the sundries can impact the floating ball along with water flow, and when the impact is too large, the water immersion sensor at the bottom of the floating ball and the magnetic strip at the top of the floating ball can be damaged. In order to protect the floating ball, the magnetic stripe and the water immersion sensor, an annular anti-collision plate is arranged on the outer side of the floating ball, a towing rod guiding telescopic rod is arranged between the inner side of the anti-collision plate and one side of the floating ball, which is far away from the sliding sleeve, along the circumferential direction, and a plurality of buffer springs are also arranged between the inner side of the anti-collision plate and one side of the floating ball, which is far away from the sliding sleeve, along the circumferential direction. Outside debris are along with rivers at first striking crashproof board, then buffer spring compression carries out effective buffering absorption to the striking, and the telescopic link that leads simultaneously stretches out and draws back the direction, and the supplementary striking buffering that carries on finally realizes effectively protecting floater, water sensor, magnetic stripe inboard to crashproof board.

For better realization the utility model discloses, furtherly, the bilateral symmetry of direction telescopic link is provided with buffer spring.

In order to better realize the utility model discloses, furtherly, the position that the side at pole setting top corresponds the magnetic stripe is provided with the uide bushing, the top of magnetic stripe slides in the inside of uide bushing.

The top that the side of the top of pole setting corresponds the magnetic stripe is provided with the uide bushing, is provided with the top that supplies the magnetic stripe on the uide bushing and passes and including gliding through-hole, when the magnetic stripe rises along with the floater, the top of magnetic stripe slides in the through-hole of uide bushing is inside, and the uide bushing leads the rising of magnetic stripe.

For a better realization the utility model discloses, further, the bottom of installation cover is provided with limit flange.

The bottom of installation cover is provided with limit flange, and the bottom terminal surface of sliding sleeve and limit flange's top end face contact, limit flange are used for limiting the position of sliding sleeve on the installation cover, avoid the sliding sleeve to deviate from the bottom landing of installation cover.

The water sensor adopts the prior art, and has the model as follows: WS 01; the wireless signal receiving and transmitting module, the GPS positioning module and the power supply module all adopt the prior art.

The control module adopts the existing single chip microcomputer, and the model is as follows: ATMEGA32U 4-MU.

The water sensor and the control module, the wireless signal transceiver module and the control module, the GPS positioning module and the control module, the power module and the control module, and the positioner and the control module are all connected by existing circuits in a wired or wireless manner, so that corresponding specific circuits and working principles are not repeated herein.

The working principle and the specific installation mode of the magnetic strip and the positioner for mutual magnetic induction are already disclosed in the patent numbers: CN201620886487.2 entitled "a displacement feedback transmission device for magnetic induction type pneumatic positioner" is disclosed, and therefore will not be described herein.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

(1) the utility model is provided with the mounting seat, the vertical rod is arranged at the top of the mounting seat, the mounting sleeve is sleeved on the vertical rod in a sliding manner, the lifting device is arranged between the top of the vertical rod and the top of the mounting sleeve, the height above the ground of the mounting sleeve is adjusted by the lifting device, and the height above the ground of devices such as the sliding sleeve and the floating ball on the mounting sleeve is adjusted to be equal to the waterlogging water level line; the utility model has the advantages of flexible and adjustable initial detection water level;

(2) the utility model discloses a slip cover is slipped in the outside of installation cover, set up the floater in the outside of sliding sleeve along circumference, and set up the water logging sensor in the bottom of floater, the water logging sensor is submerged by the water logging when waterlogging and is thought that remote terminal send information in time to indicate the waterlogging emergence, set up the magnetic stripe at the top of floater, and set up the locator that matches with the magnetic stripe at the top of installation cover, detect the magnetic stripe through the locator and accompany the floater height that rises during waterlogging, can draw the height that the waterlogging water level rises in real time; the utility model has the advantages of forecasting waterlogging in time and monitoring the rising height of waterlogging water level in real time;

(3) the utility model discloses a set up the anticollision board coaxial with the sliding sleeve in the outside of floater to set up a plurality of direction telescopic links and buffer spring along circumference between anticollision board and floater, through the debris of anticollision board in the time of stopping waterlogging, lead respectively through direction telescopic link and buffer spring simultaneously and cushion the damping, effectively avoid aquatic debris striking to damage devices such as floater, magnetic stripe, water sensor; the utility model has the advantages of effectively preventing the impact of sundries in water and effectively protecting the safety of the device;

(4) the utility model discloses a set up the install bin at the top of pole setting to install wireless signal transceiver module, GPS orientation module, control module, power module in the install bin, send or receive information through wireless signal transceiver module, through GPS orientation module quick positioning waterlogging emergence area, through control module according to the information of received external information or water sensor feedback, real-time control hoisting device adjusts the initial height of installation cover, control locator detects magnetic stripe height of going up and down; the utility model discloses have the intelligent beneficial effect of waterlogging early warning in time, waterlogging monitoring.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the mounting box and its internal mounting;

FIG. 3 is a schematic structural view of a bump guard;

FIG. 4 is a view taken along line A of FIG. 3;

fig. 5 is a schematic view of the installation of the guide sleeve.

Wherein: 11-mounting a box; 12-a wireless signal transceiver module; 13-a GPS positioning module; 14-a control module; 15-a power supply module; 16-a solar panel; 2-a waterlogging monitoring device; 21-a mounting seat; 22-upright stanchion; 23-mounting a sleeve; 24-a lifting device; 25-a sliding sleeve; 26-floating ball; 27-water immersion sensor; 28-a magnetic strip; 29-a positioner; 3-an anti-collision device; 31-guiding the telescopic rod; 32-a buffer spring; 33-a crash panel; 4-a guide sleeve.

Detailed Description

Example 1:

the urban waterlogging forecasting system of the embodiment is shown in fig. 1, and includes a waterlogging monitoring device 2, where the waterlogging monitoring device 2 includes a mounting base 21, an upright rod 22, a mounting sleeve 23, a lifting device 24, a sliding sleeve 25, a floating ball 26, a water sensor 27, a magnetic stripe 28, and a positioner 29; an upright rod 22 is arranged at the top of the mounting base 21, a mounting sleeve 23 is slidably sleeved on the upright rod 22, and a lifting device 24 is arranged between the top of the upright rod 22 and the top of the mounting sleeve 23; a sliding sleeve 25 is slidably sleeved on the outer side of the mounting sleeve 23, and a plurality of floating balls 26 are arranged on the side face of the bottom of the sliding sleeve 25 along the circumferential direction; a water immersion sensor 27 is arranged at the bottom of the floating ball 26, and a magnetic strip 28 is arranged at the top of the floating ball 26; a locator 29 is arranged on the outer side surface of the sliding sleeve 25 corresponding to the magnetic strip 28, and the magnetic strip 28 extends into a locating slot of the locator 29.

The bottom of the mounting base 21 is fixedly mounted on the ground through bolts, the top of the mounting base 21 is provided with an upright rod 22 through welding or screwing, the upright rod 22 is slidably sleeved with a mounting sleeve 23, the top and the bottom of the upright rod 22 are respectively provided with a limiting block, and the limiting blocks at the top are used for limiting the limiting position of the mounting sleeve 23 when the mounting sleeve 23 ascends along the upright rod 22, so that the mounting sleeve 23 is prevented from sliding off the top of the upright rod 22; the limiting block at the bottom is used for limiting the limit position of the mounting sleeve 23 when descending along the upright rod 22, and the mounting sleeve 23 is prevented from sliding off from the bottom of the upright rod 22.

Between the top of the upright 22 and the top of the mounting sleeve 23, a lifting device 24 is arranged, which lifting device 24 is used to lift the mounting sleeve 23, so that the mounting sleeve 23 slides in a vertical direction along the upright 22. The lifting device 24 is any one of a micro winch, a screw elevator and a cylinder, if the lifting device 24 is the micro winch, the micro winch is arranged on the side surface of the top of the upright rod 22, and the end of a winch rope of the micro winch is connected with the top of the mounting sleeve 23; if the lifting device 24 is a screw rod lifter, a mounting frame is arranged on the side surface of the top of the vertical rod 22, a screw rod is rotatably arranged on the mounting frame, a driving motor for driving the screw rod to rotate is arranged at the top of the screw rod, the bottom of the screw rod downwards penetrates through the mounting frame and extends to the top of the mounting sleeve 23, meanwhile, a nut seat sleeved on the screw rod is arranged on one side of the top of the mounting sleeve 23, and the screw rod can drive the nut seat to perform linear motion in the vertical direction when rotating, so that the mounting sleeve 23 is driven to perform lifting in the vertical direction along the vertical rod 22; if hoisting device 24 is the cylinder, then the stiff end of cylinder and the side fixed connection at pole setting 22 top, the flexible end of cylinder sets up downwards and extends to the top of installation cover 23, and the end of the flexible end of cylinder passes through the connecting piece to be connected with the top of installation cover 23, and the flexible lift that drives installation cover 23 along pole setting 22 through the flexible end of cylinder carries out vertical direction.

The sliding sleeve is provided with a sliding sleeve 25 outside the mounting sleeve 23 in a sliding manner, a plurality of floating balls 26 are arranged outside the sliding sleeve 25 along the circumferential direction, the height of the bottom of each floating ball 26 from the ground is smaller than that of the bottom end face of the sliding sleeve 25 from the ground, and the bottom of each floating ball 26 is closer to the ground. Be provided with water logging sensor 27 in the bottom of floater 26, be provided with magnetic stripe 28 along vertical direction at the top of floater 26, and be provided with locator 29 in the outside at installation cover 23 top corresponding magnetic stripe 28's position, be provided with on the locator 29 and be used for carrying out the constant head tank of magnetic induction with magnetic stripe 28, magnetic stripe 28 upwards extends and passes the constant head tank.

Before rainfall occurs, the height of the mounting sleeve 23 above the upright 22 is adjusted by the lifting device 24 to determine the initial height of the mounting sleeve 23 and the sliding sleeve 25 above the mounting sleeve 23, i.e. the water line of the waterlogging water level. In a natural state, the sliding sleeve 25 and the floating ball 26 will rest on the bottom of the mounting sleeve 23 due to their own weight. When rainfall happens, if waterlogging happens, when the ground water level rises to the floating ball 26, the water sensor 27 at the bottom of the floating ball 26 is submerged by the rainwater, namely, the waterlogging happens, and at the moment, the water sensor 27 gives a feedback signal to prompt a worker to have the waterlogging. When the water level continues to rise, the floating ball 26 drives the sliding sleeve 25 to slide upwards along the outer side of the installation sleeve 23 under the buoyancy effect of the accumulated water, the magnetic strip 28 vertically arranged at the top of the floating ball 26 moves upwards simultaneously, when the magnetic strip 28 moves upwards, the magnetic strip 28 in the positioning groove of the positioner 29 moves to cause magnetic change, the positioner 29 calculates the height of the magnetic strip 28 to rise according to the magnetic change, namely, the rise height of the waterlogging water level, and further the rise speed of the waterlogging water level can be known.

Example 2:

the embodiment is further optimized on the basis of embodiment 1, and as shown in fig. 2, the present invention further includes an installation box 11 disposed at the top of the upright rod 22, and a wireless signal transceiver module 12, a GPS positioning module 13, a control module 14, and a power module 15 are disposed inside the installation box 11; the control module 14 is respectively connected with the wireless signal transceiver module 12 and the GPS positioning module 13, and the control module 14 is also respectively connected with the lifting device 24, the water sensor 27 and the positioner 29; the power module 15 is connected to the control module 14.

The top of pole setting 22 is provided with install bin 11 that can open and shut, the inside of install bin 11 is provided with wireless signal transceiver module 12, GPS orientation module 13, control module 14, power module 15, wireless signal transceiver module 12 and GPS orientation module 13 are connected with control module 14 respectively, GPS orientation module 13 is used for fixing a position waterlogging monitoring devices's actual position, and send waterlogging monitoring devices' actual position information to wireless signal transceiver module 12 through control module 14, and then send position information to remote monitoring terminal through wireless signal transceiver module 12, a region for the waterlogging takes place in the location, wireless signal transceiver module 12 still is used for receiving information such as waterlogging water line height simultaneously. Control module 14 still respectively with hoisting device 24, water logging sensor 27, locator 29 is connected, the staff obtains corresponding waterlogging water level line height through rainfall prediction, then send waterlogging water level line height to wireless signal transceiver module 12, then wireless signal transceiver module 12 feeds back waterlogging water level line height information to control module 14, control module 14 drives installation cover 12 and slides from top to bottom along pole setting 22 according to waterlogging water level line height information control hoisting device 24, with the initial height of adjusting devices such as installation cover 23, sliding sleeve 25, floater 26 equals waterlogging water level line height. Meanwhile, the control module 14 is connected with the water sensor 27, when waterlogging occurs, the water level submerges the water sensor 27, the water sensor 27 feeds back signals to the control module 14, and the control module 14 transmits the feedback information to the remote monitoring terminal through the wireless signal transceiver module 12 to prompt a worker to have waterlogging in time; meanwhile, the control module 14 is also connected with the positioner 29, receives the rising height of the magnetic stripe 28 that the positioner 29 detected in real time along with the floating ball 26, namely detects the rising height of the waterlogging water level in real time, then the positioner 29 feeds back the rising height of the magnetic stripe 28 to the control module 14, the control module 14 sends the rising height information of the magnetic stripe 28 to the remote monitoring terminal through the wireless signal transceiver module 12, and a worker can know the rising height and the speed of the waterlogging water level in real time.

Other parts of this embodiment are the same as embodiment 1, and thus are not described again.

Example 3:

the present embodiment is further optimized based on the above embodiment 1 or 2, as shown in fig. 2, a solar panel 16 is disposed on the top of the installation box 11, and the solar panel 16 is connected to the power module 15.

The height of the vertical rod 22 is 1m-1.5m, the installation box 11 is installed at the top of the vertical rod 22, the solar cell panel 16 is arranged at the top of the installation box 11, the solar cell panel 16 is connected with the power module 15 through the inverter, the solar cell panel 16 converts light energy into electric energy, and the electric energy is transmitted to the power module 15 to be stored, so that the solar energy-saving solar energy-.

The solar panel 16, the inverter, and the power module 15 are connected by using the existing circuit, so the detailed circuit and principle of the corresponding connection circuit are not described herein.

The rest of this embodiment is the same as embodiment 1 or 2, and therefore, the description thereof is omitted.

Example 4:

this embodiment is further optimized on the basis of any one of the above embodiments 1 to 3, and a moisture-proof bag is arranged inside the installation box 11.

The inner wall of the installation box 11 is bonded with a damp-proof bag which comprises a textile fabric outer layer, a water absorption material layer is arranged in the textile fabric outer layer, a plurality of air holes are formed in the textile fabric outer layer in an array mode, and the air holes are used for guaranteeing the inside of the installation box and the outside air circulation, so that the inside of the installation box can be well cooled.

Other parts of this embodiment are the same as any of embodiments 1 to 3, and thus are not described again.

Example 5:

the embodiment is further optimized on the basis of any one of the embodiments 1 to 4, and as shown in fig. 3 and 4, the collision avoidance apparatus 3 further includes a guiding telescopic rod 31, a buffer spring 32 and a collision avoidance plate 33, the side of the floating ball 26 away from the sliding sleeve 25 is circumferentially provided with a plurality of guiding telescopic rods 31, the side of the floating ball 26 away from the sliding sleeve 25 is coaxially provided with an annular collision avoidance plate 33, and one side of the collision avoidance plate 33 close to the floating ball 26 is connected with the telescopic end of the guiding telescopic rod 31; and a plurality of buffer springs 32 are arranged between the side surface of the floating ball 26 far away from the sliding sleeve 25 and the side of the anti-collision plate 33 close to the floating ball 26 along the circumferential direction.

When waterlogging occurs, sundries such as wood materials and foams can float on the water surface, the sundries can impact the floating ball 26 along with water flow, and when the impact is too large, the water sensor 27 at the bottom of the floating ball 26 and the magnetic strip 28 at the top of the floating ball 26 can be damaged. In order to protect the floating ball 26, the water sensor 27 and the magnetic strip 28, an annular anti-collision plate 33 is coaxially arranged on the outer side of the floating ball 26 and the sliding sleeve 25,

six guiding telescopic rods 31 are uniformly arranged between one side of the anti-collision plate 33 close to the floating ball 26 and one side of the floating ball 26 far away from the sliding sleeve 25 along the circumferential direction, each guiding telescopic rod 31 comprises a sleeve rod and a sliding rod, one end of each sleeve rod is connected with one side of the floating ball 26 far away from the sliding sleeve 25, the sliding rod is arranged inside the other end of each sleeve rod in a sliding mode, and one end, extending out of each sleeve rod, of each sliding rod is connected with one side of the anti-collision plate 33 close to the floating ball. Meanwhile, an anti-collision layer made of rubber or foam is arranged on one side of the anti-collision plate 33 away from the floating ball 26 along the circumferential direction, so that the anti-collision plate 33 can bear stronger collision.

12 groups of buffer springs 32 are uniformly arranged between one side of the anti-collision plate 33 close to the floating ball 26 and one side of the floating ball 26 far away from the sliding sleeve 25 along the circumferential direction. The external sundries firstly impact the anti-collision plate 33 along with water flow, then the buffer spring 32 is compressed to effectively buffer and absorb the impact, meanwhile, the telescopic rod 31 is guided to stretch and guide to assist in collision buffering, and finally, the floating ball 26, the water sensor 27 and the magnetic strip 28 on the inner side of the anti-collision plate 33 are effectively protected.

Other parts of this embodiment are the same as any of embodiments 1 to 4, and thus are not described again.

Example 6:

the present embodiment is further optimized on the basis of any one of the above embodiments 1 to 5, and as shown in fig. 4, two sides of the guiding telescopic rod 31 are symmetrically provided with buffer springs 32.

Be provided with buffer spring 32 in the bilateral symmetry of direction telescopic link 31 and constitute a set of buffering anti vibration structure, the buffer spring 32 that is located direction telescopic link 31 both sides carries out buffering damping to the both sides of direction telescopic link 31 simultaneously, and the direction telescopic link 31 that is located between two buffer spring 32 simultaneously carries out corresponding flexible along with buffer spring 32's flexible, carries out supplementary buffering damping, and it is better to compare the shock attenuation effect that sets up single buffer spring 32.

Other parts of this embodiment are the same as any of embodiments 1 to 5, and thus are not described again.

Example 7:

this embodiment is further optimized on the basis of any one of the above embodiments 1 to 6, as shown in fig. 5, the guide sleeve 4 is disposed on the side surface of the top of the upright 22 corresponding to the position of the magnetic strip 28, and the top of the magnetic strip 28 slides inside the guide sleeve 4.

The side of the top of the vertical rod 22 is provided with a guide sleeve 4 corresponding to the top of the magnetic strip 28, the guide sleeve 4 is provided with a through hole for the top of the magnetic strip 28 to pass through and slide in, when the magnetic strip 28 ascends along with the floating ball 26, the top of the magnetic strip 28 slides in the through hole of the guide sleeve 4, and the guide sleeve 4 guides the ascending of the magnetic strip 28.

Other parts of this embodiment are the same as any of embodiments 1 to 6, and thus are not described again.

Example 8:

this embodiment is further optimized on the basis of any one of the above embodiments 1 to 7, and the bottom of the mounting sleeve 23 is provided with a limiting flange.

The bottom of mounting sleeve 23 is provided with limit flange, and the bottom terminal surface of sliding sleeve 25 and limit flange's top end face contact, limit flange are used for limiting the position of sliding sleeve 25 on mounting sleeve 23, avoid sliding sleeve 25 to deviate from the bottom landing of mounting sleeve 23.

Other parts of this embodiment are the same as any of embodiments 1 to 7, and thus are not described again.

The above is only the preferred embodiment of the present invention, not to the limitation of the present invention in any form, all the technical matters of the present invention all fall into the protection scope of the present invention to any simple modification and equivalent change of the above embodiments.

Claims (8)

1. The urban waterlogging forecasting system comprises a waterlogging monitoring device (2), and is characterized in that the waterlogging monitoring device (2) comprises a mounting seat (21), an upright rod (22), a mounting sleeve (23), a lifting device (24), a sliding sleeve (25), a floating ball (26), a water logging sensor (27), a magnetic stripe (28) and a positioner (29); an upright rod (22) is arranged at the top of the mounting base (21), a mounting sleeve (23) is slidably sleeved on the upright rod (22), and a lifting device (24) is arranged between the top of the upright rod (22) and the top of the mounting sleeve (23); a sliding sleeve (25) is slidably sleeved on the outer side of the mounting sleeve (23), and a plurality of floating balls (26) are arranged on the side face of the bottom of the sliding sleeve (25) along the circumferential direction; a water immersion sensor (27) is arranged at the bottom of the floating ball (26), and a magnetic strip (28) is arranged at the top of the floating ball (26); the installation cover is characterized in that a positioner (29) is arranged on the outer side face of the top of the installation cover (23) corresponding to the magnetic strip (28), and the magnetic strip (28) extends into a positioning groove of the positioner (29).

2. The urban waterlogging prediction system according to claim 1, further comprising an installation box (11) and an image acquisition module, wherein the installation box (11) is arranged at the top of the upright rod (22), and a wireless signal transceiver module (12), a GPS positioning module (13), a control module (14) and a power supply module (15) are arranged inside the installation box (11); the control module (14) is respectively connected with the wireless signal transceiving module (12), the GPS positioning module (13) and the image acquisition module, and the control module (14) is also respectively connected with the lifting device (24), the water sensor (27) and the positioner (29); the power supply module (15) is connected with the control module (14).

3. The urban waterlogging prediction system according to claim 2, wherein a solar panel (16) is arranged on the top of the installation box (11), and the solar panel (16) is connected with the power module (15).

4. The urban waterlogging prediction and forecasting system according to claim 3, characterized in that the interior of the installation box (11) is provided with a moisture-proof bag.

5. The urban waterlogging forecasting system according to any one of claims 1 to 4, characterized in that the urban waterlogging forecasting system further comprises an anti-collision device (3), the anti-collision device (3) comprises a guiding telescopic rod (31), a buffer spring (32) and an anti-collision plate (33), the side of the floating ball (26) away from the sliding sleeve (25) is circumferentially provided with a plurality of guiding telescopic rods (31), the side of the floating ball (26) away from the sliding sleeve (25) is coaxially provided with an annular anti-collision plate (33), and one side of the anti-collision plate (33) close to the floating ball (26) is connected with the telescopic end of the guiding telescopic rod (31); and a plurality of buffer springs (32) are arranged between the side surface of the floating ball (26) far away from the sliding sleeve (25) and one side of the anti-collision plate (33) close to the floating ball (26) along the circumferential direction.

6. The urban waterlogging prediction system according to claim 5, characterized in that, the two sides of the guiding telescopic rod (31) are symmetrically provided with buffer springs (32).

7. The urban waterlogging prediction system according to claim 1 or 2 or 3 or 4 or 6, characterized in that, the side of the top of the vertical rod (22) is provided with a guide sleeve (4) corresponding to the position of the magnetic strip (28), and the top of the magnetic strip (28) slides in the guide sleeve (4).

8. The urban waterlogging prediction system according to claim 1, wherein the bottom of the mounting sleeve (23) is provided with a limiting flange.

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