CN208458844U - A kind of chargeable buried ponding monitoring device of integration - Google Patents

Abstract

The utility model proposes a kind of chargeable buried ponding monitoring device of integration, the ponding monitoring device include be equipped with can buried installation shell；Equipment cavity is equipped in the shell；The case top is equipped with ponding test surface；The probe aperture of built-in sensitive probe is equipped at the ponding test surface；The opening upwards of the probe aperture；The inducing probes are connected with the ponding detecting module in equipment cavity；When carrying out ponding monitoring, the ultrasonic sensor in equipment cavity sends ultrasonic wave upwards to measure the depth of accumulated water above ponding test surface；The utility model preferably can be monitored depth of accumulated water and transmit monitoring data in the case where no external power supply.

Description

A kind of chargeable buried ponding monitoring device of integration

Technical field

The present invention relates to environmental monitoring technology field, especially a kind of buried ponding monitoring dress of chargeable integration It sets.

Background technique

Currently, existing city ponding monitoring device is in the following aspects Shortcomings:

(1) it is inconvenient to install in city, and routine monitoring equipment is frequently necessary to wiring, installation upright bar bracket etc., and project amount is big；

(2) the buried ponding monitoring device being currently known, is powered using battery, cannot charge, need periodic replacement battery；

(3) it is measured by non-contact type ultrasonic, radar, electric water gauge, is easy to be interfered by environmental factors, it is non-to connect Touch ultrasonic wave and radar are easy to be stopped by vehicle or other objects, and electric water gauge is easy foundry loam water.

(4) underwater signal shields, and 2G/3G/4G signal under water almost can not normal use.

Summary of the invention

The utility model proposes a kind of chargeable buried ponding monitoring devices of integration, can be in the feelings of no external power supply Under condition, preferably depth of accumulated water is monitored and transmits monitoring data.

The utility model uses following technical scheme.

A kind of chargeable buried ponding monitoring device of integration, the ponding monitoring device include being equipped with buried to pacify The shell of dress；Equipment cavity is equipped in the shell；The case top is equipped with ponding test surface；It is equipped at the ponding test surface The probe aperture of built-in sensitive probe；The opening upwards of the probe aperture；Ponding in the inducing probes and equipment cavity detects mould Block is connected；When carrying out ponding monitoring, the ultrasonic sensor in equipment cavity sends ultrasonic wave upwards to measure ponding detection Depth of accumulated water above face.

The case top is additionally provided with photovoltaic panel mounting groove and moisture film blocks face；The sun is equipped at the photovoltaic panel mounting groove It can solar panel.

The photovoltaic panel mounting groove is overlooked in rectangle；The solar panel week edge is bonded shape with photovoltaic panel mounting groove At the sealing structure of waterproof intrusion；The ultrasonic sensor is liquid Jie formula ultrasonic level gage；The moisture film blocks face to set At the top of upper support lid；The shell is a cylindrical shell；Probe aperture is set to moisture film and hinders section part；The probe side and spy Pin hole inner wall is bonded the sealing structure to form waterproof intrusion.

Power management module, main control module, communication module, charge management module, chargeable electricity are equipped in the equipment cavity Pond, data memory module；The solar panel is connected with power management module；The charge management module and power management Module is connected；The rechargeable battery is connected with power management module.

The source control module includes the LDO of the LDO power supply chip of XC6206P332MR model, SPX3819M5-L model The metal-oxide-semiconductor of power supply chip and AO3401 model.

The main control module includes the arm processor of STM32F103RCT6 model.

The data memory module includes the FLASH storage chip of W25Q128FVSIG model.

The communication module is wireless communication module；The wireless communication module includes the NB-IOT mould of SIM7020C model Group.

The rechargeable battery is lithium battery；The charge management module includes the lithium battery charge control of PT6112 model Chip.

The shell further includes upper support lid and the upper cover plate for being overlying on support lid top；The ponding test surface is set At upper support lid；The ponding test surface is also connected with the ponding detecting module in equipment cavity；The ponding detecting module For the detecting module for judging ponding state with water body conducting voltage；The ponding detecting module is connected with power management module；When When ponding detecting module is judged at ponding test surface without ponding, the power management module makes equipment endoluminal be in standby shape State is to save electricity.

Compared to the prior art, the utility model has the following beneficial effects:

1, equipment uses integrated design, and all modular units are all contained in a buried installation outer housing, compact, Without any external connection, hole is taken to install using road surface, it is easy for construction, do not influence the appearance of the city；

2, equipment uses low-power consumption conceptual design, and built-in poly-lithium battery carries miniature solar panels, automatic charging, It can be used for a long time；

3, equipment uses liquid Jie formula ultrasonic liquid level sensor, is not easily susceptible to external environmental interference, reliable and stable.

4, it is communicated using the NB-IOT for being embedded in underground, penetration capacity is strong, strong antijamming capability, long transmission distance, function It consumes low.

Detailed description of the invention

With reference to the accompanying drawings and detailed description to the further details of explanation of the utility model:

Attached drawing 1 is the stereoscopic schematic diagram of the utility model；

Attached drawing 2 is the perspective exploded view of the utility model；

Attached drawing 3 is the schematic diagram of the upper support lid of the utility model；

Attached drawing 4 is the schematic block circuit diagram of the utility model；

Attached drawing 5 is the circuit theory schematic diagram of the power management module of the utility model；

Attached drawing 6 is the main control module circuit theory schematic diagram of the utility model；

Attached drawing 7 is the circuit theory schematic diagram of the data memory module of the utility model；

Attached drawing 8 is the circuit theory schematic diagram of the communication module of the utility model；

Attached drawing 9 is the circuit theory schematic diagram of the charge management module of the utility model；

In figure: 1- upper cover plate；2- solar panel；Lid is supported on 3-；4- ultrasonic sensor；5- ponding detects mould Block；6- rechargeable battery；7- sealing ring；8- equipment cavity；10- probe aperture；11- moisture film blocks face；13- photovoltaic panel mounting groove；14- Bolt hole.

Specific embodiment

As shown in figs 1-9, a kind of chargeable buried ponding monitoring device of integration, the ponding monitoring device include Equipped with can buried installation shell；Equipment cavity 8 is equipped in the shell；The case top is equipped with ponding test surface；The product The probe aperture 10 of built-in sensitive probe is equipped at water test surface；The opening upwards of the probe aperture 10；The inducing probes with set Ponding detecting module 5 in standby chamber is connected；When carrying out ponding monitoring, the ultrasonic sensor 4 in equipment cavity is sent upwards Ultrasonic wave is to measure the depth of accumulated water above ponding test surface.

The case top is additionally provided with photovoltaic panel mounting groove 13 and moisture film blocks face 11；It is set at the photovoltaic panel mounting groove 13 There is solar panel 2.

The photovoltaic panel mounting groove 13 is overlooked in rectangle；The solar panel week edge is bonded with photovoltaic panel mounting groove Form the sealing structure of waterproof intrusion；The ultrasonic sensor 4 is liquid Jie formula ultrasonic level gage；The moisture film blocks face 11 are set to upper 3 top of support lid；The shell is a cylindrical shell；Probe aperture 10 is set to moisture film and blocks at face 11；The spy Needle side is bonded the sealing structure to form waterproof intrusion with 10 inner wall of probe aperture.

Power management module, main control module, communication module, charge management module, chargeable electricity are equipped in the equipment cavity Pond, data memory module；The solar panel 2 is connected with power management module；The charge management module and power supply pipe Module is managed to be connected；The rechargeable battery 6 is connected with power management module.

The source control module includes the LDO of the LDO power supply chip of XC6206P332MR model, SPX3819M5-L model The metal-oxide-semiconductor of power supply chip and AO3401 model.

The main control module includes the arm processor of STM32F103RCT6 model.

The data memory module includes the FLASH storage chip of W25Q128FVSIG model.

The communication module is wireless communication module；The wireless communication module includes the NB-IOT mould of SIM7020C model Group.

The rechargeable battery is lithium battery；The charge management module includes the lithium battery charge control of PT6112 model Chip.

The shell further includes upper support lid 3 and the upper cover plate 1 for being overlying on support lid top；The ponding test surface At upper support lid；The ponding test surface is also connected with the ponding detecting module in equipment cavity；The ponding detects mould Block is the detecting module that ponding state is judged with water body conducting voltage；The ponding detecting module is connected with power management module； When at ponding detecting module judges ponding test surface without ponding, the power management module makes equipment endoluminal be in standby State is to save electricity.

In this example, bolt hole 14 is equipped at upper cover plate 1, upper cover plate schedules upper with the bolt lock being placed through in bolt hole It supports at lid, upper support lid is placed on equipment cavity, is equipped with sealing ring at the contact site between upper support lid and equipment cavity 7；Ponding detecting module is set on circuit board；Ponding detecting module measures outside body of water conducting voltage with probe to judge monitoring dress Set whether top has ponding, if equipment endoluminal is in standby to economize on electricity without ponding.

In this example, wireless communication module can be compatible with the NB-IOT network of the different operators such as telecommunications, movement, volume simultaneously Small, low in energy consumption, strong antijamming capability.

In this example, rechargeable battery is poly-lithium battery, and voltage rating 3.7V, capacity is not less than 5000mAh, even It, can be 1 year on duty or more in the case of continuous rainy days；It can be continuous work 30 days or more in the case of ponding.

In this example, ultrasonic sensor is below upper support lid, not on circuit boards.

Claims (10)

1. a kind of chargeable buried ponding monitoring device of integration, it is characterised in that: the ponding monitoring device includes setting Have can buried installation shell；Equipment cavity is equipped in the shell；The case top is equipped with ponding test surface；The ponding is visited Survey face place is equipped with the probe aperture of built-in sensitive probe；The opening upwards of the probe aperture；In the inducing probes and equipment cavity Ponding detecting module is connected；When carrying out ponding monitoring, the ultrasonic sensor in equipment cavity sends ultrasonic wave upwards to survey Measure the depth of accumulated water above ponding test surface.

2. the buried ponding monitoring device of the chargeable integration of one kind according to claim 1, it is characterised in that: described Case top is additionally provided with photovoltaic panel mounting groove and moisture film blocks face；Solar panel is equipped at the photovoltaic panel mounting groove.

3. the buried ponding monitoring device of the chargeable integration of one kind according to claim 2, it is characterised in that: described Photovoltaic panel mounting groove is overlooked in rectangle；The solar panel week edge is bonded to form waterproof intrusion with photovoltaic panel mounting groove Sealing structure；The ultrasonic sensor is liquid Jie formula ultrasonic level gage；The moisture film blocks face to be set to upper support lid Top；The shell is a cylindrical shell；Probe aperture is set to moisture film and hinders section part；The probe side is bonded with probe aperture inner wall Form the sealing structure of waterproof intrusion.

4. the buried ponding monitoring device of the chargeable integration of one kind according to claim 2, it is characterised in that: described It is equipped with power management module, main control module, communication module, charge management module, rechargeable battery, data in equipment cavity and stores mould Block；The solar panel is connected with power management module；The charge management module is connected with power management module；It is described Rechargeable battery is connected with power management module.

5. the buried ponding monitoring device of the chargeable integration of one kind according to claim 4, it is characterised in that: described Source control module include the LDO power supply chip of XC6206P332MR model, SPX3819M5-L model LDO power supply chip and The metal-oxide-semiconductor of AO3401 model.

6. the buried ponding monitoring device of the chargeable integration of one kind according to claim 4, it is characterised in that: described Main control module includes the arm processor of STM32F103RCT6 model.

7. the buried ponding monitoring device of the chargeable integration of one kind according to claim 4, it is characterised in that: described Data memory module includes the FLASH storage chip of W25Q128FVSIG model.

8. the buried ponding monitoring device of the chargeable integration of one kind according to claim 4, it is characterised in that: described Communication module is wireless communication module；The wireless communication module includes the NB-IOT mould group of SIM7020C model.

9. the buried ponding monitoring device of the chargeable integration of one kind according to claim 4, it is characterised in that: described Rechargeable battery is lithium battery；The charge management module includes the lithium battery charge controlling chip of PT6112 model.

10. the buried ponding monitoring device of the chargeable integration of one kind according to claim 1, it is characterised in that: institute Stating shell further includes upper support lid and the upper cover plate for being overlying on support lid top；The ponding test surface is set to upper Supporting cover At body；The ponding test surface is also connected with the ponding detecting module in equipment cavity；The ponding detecting module is to be led with water body The pressure that is powered judges the detecting module of ponding state；The ponding detecting module is connected with power management module；When ponding detects mould When block is judged at ponding test surface without ponding, the power management module is in standby equipment endoluminal to save electricity Amount.