CN210513236U - Distributed river channel environment detection system based on LoRamesh - Google Patents

Abstract

The utility model discloses a distributed river channel environment detection system based on LoRamesh, which comprises a main body vertical rod and a balancing weight, wherein the balancing weight is installed on the main body vertical rod, and a main body structure and an auxiliary structure are installed on the main body vertical rod; the main body structure mainly comprises: the liquid level sensor comprises a box body, a liquid level sensor and a main body part; the box body is arranged on the left side wall surface of the main body vertical rod; the utility model relates to a river course environmental detection technical field, this device is researched and improved in the aspect of the structure, make the device have the position of reporting a newspaper pinpointing through adding LoRaMesh subassembly, and carry out the real-time transmission of data through wireless transmission's mode, in time report monitoring data's ability, very big improvement work efficiency, the river course information is in time known to the administrative center of being convenient for, conveniently formulate emergency treatment plan, still set up the battery in this device and carried out the accumulate, can not be interrupted work when meeting with the proruption power failure condition, the going on of assurance real-time supervision work.

Description

Distributed river channel environment detection system based on LoRamesh

Technical Field

The utility model relates to a river course environment detection technology field specifically is a distributed river course environment detecting system based on LoRamesh.

Background

Under the prior art condition, river course monitoring work is carried out by the manual work, and the personnel of need patrolling and examining regularly goes to each river course and carries out the detection of river course condition to record data, carry out the data report again, arrange in order statistics after the management center staff receives each personnel's of patrolling and examining data, its process is loaded down with trivial details, extravagant manpower, influence work efficiency, lack a device that can real-time supervision river course condition and can report fast, in view of this, to the deep research of above-mentioned problem, it produces to report the present case to tunnel.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a distributed river channel environment detecting system based on LoRamesh has solved current river course monitoring work and has gone on by the manual work, need patrol and examine personnel regularly to go to each river course and carry out the detection of the river course condition, and the data of carrying out the data report again, the statistics of arranging after the management center staff receives each patrol and examine personnel's data, its process is loaded down with trivial details, extravagant manpower, influence work efficiency, lack the technical problem of a device that can real-time supervision river course condition and can report fast.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a distributed river channel environment detection system based on LoRamesh comprises a main body vertical rod and a balancing weight, wherein the balancing weight is installed on the main body vertical rod, and a main body structure and an auxiliary structure are installed on the main body vertical rod;

the main body structure mainly comprises: the liquid level sensor comprises a box body, a liquid level sensor and a main body part;

the box is installed on main part montant left side wall, level sensor installs on main part montant front side wall, the main part is installed on the box.

Preferably, the main body portion mainly includes: the battery pack comprises a storage battery, a LoRaMesh component and a main body part;

the storage battery is installed on the wall under in the box, LoRaMesh subassembly is installed on the vertical wall in box left side, the main part is installed on the box.

Preferably, the main body portion mainly includes: a data processor and a scale;

the data processor is arranged on the vertical wall surface on the right side in the box body, and the scales are arranged on the main body vertical rod.

Preferably, the auxiliary structure mainly comprises: warning light, waterproof cover and auxiliary structure;

the warning light is installed on the wall on the main part montant, the buckler is installed on the wall on the main part montant, and is located the warning light outside.

Preferably, the auxiliary structure mainly comprises: a pH sensor, a turbidity sensor and an auxiliary component;

the PH sensor is arranged on the upper wall surface of the balancing weight and corresponds to the PH sensor, and the auxiliary assembly is arranged on the balancing weight.

Preferably, the auxiliary assembly mainly comprises: a temperature sensor and a residual chlorine sensor;

the temperature sensor is arranged on the upper wall surface of the balancing weight, and the residual fluorine sensor is arranged on the upper wall surface of the balancing weight and corresponds to the temperature sensor.

Advantageous effects

The utility model provides a distributed river channel environment detecting system based on LoRamesh. The method has the following beneficial effects: this device is researched and improved in the aspect of the structure, make the device have report position pinpoint through adding LoRaMesh subassembly, and carry out the real-time transmission of data through wireless transmission's mode, in time report monitoring data's ability, very big improvement work efficiency, the river course information is in time known to the management center of being convenient for, conveniently formulate emergency treatment plan, still set up the battery in this device and carried out the accumulate, can not be interrupted work when meeting with the proruption power failure condition, guarantee going on of real-time supervision work, promote going on that river course detection work is better.

Drawings

Fig. 1 is the utility model relates to a distributed river course environment detecting system's main structure sketch map based on LoRamesh.

Fig. 2 is a side-looking structural schematic diagram of distributed river channel environment detecting system based on loRamesh.

Fig. 3 is the utility model relates to a distributed river channel environment detecting system's overlook schematic structure diagram based on LoRamesh.

In the figure: 1-main body vertical bar; 2-a balancing weight; 3, a box body; 4-a liquid level sensor; 5-storage of the battery; 6-LoRaMesh component; 7-a data processor; 8-graduation; 9-warning light; 10-a waterproof cover; 11-a PH sensor; 12-a turbidity sensor; 13-a temperature sensor; 14-residual chlorine sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through a wire, and an appropriate controller and an appropriate encoder should be selected according to actual conditions to meet control requirements, and specific connection and control sequences should be obtained.

Example (b): referring to the attached drawings of the specification, fig. 1-3, the distributed river channel environment detection system based on LoRamesh comprises a main vertical rod 1 and a balancing weight 2, wherein the main vertical rod 1 provides support, the balancing weight 2 reduces the overall gravity center of the device and increases the stability of the device, the balancing weight 2 is installed on the main vertical rod 1, and a main structure and an auxiliary structure are installed on the main vertical rod 1;

in the specific implementation process, it is worth particularly pointing out that the main structure in the present application mainly includes: the tank body 3, the liquid level sensor 4 and the main body part have the following connection relation and position relation:

the box body 3 is arranged on the left side wall surface of the main vertical rod 1, the liquid level sensor 4 is arranged on the front side wall surface of the main vertical rod 1, and the main body part is arranged on the box body 3;

therefore, the box body 3 is used for sealing to prevent part of parts from being affected with damp when the river channel rises, and the liquid level sensor 4 monitors the water level height in the river channel in real time;

the main body mainly includes: the storage battery 5, the LoRamesh component 6 and the main body part have the following connection relationship and position relationship:

the battery 5 is arranged on the inner lower wall surface of the box body 3, the LoRaMesh component 6 is arranged on the left vertical wall surface in the box body 3, and the main body part is arranged on the box body 3;

according to the above, the electricity storage battery is used for storing partial electric energy, and when the device encounters an emergency power-off condition, the power supply can be maintained, so that the monitoring work is ensured to be uninterrupted, and time is provided for the maintenance of workers;

the main body mainly includes: the data processor 7 and the scale 8 have the following connection relationship and position relationship:

the data processor 7 is arranged on the right vertical wall surface in the box body 3, and the scale 8 is arranged on the main body vertical rod 1;

in the specific implementation process, it is important to explain that the auxiliary structure in this case mainly includes: the warning light 9, the waterproof cover 10 and the auxiliary structure are connected and positioned as follows:

the warning lamp 9 is arranged on the upper wall surface of the main body vertical rod 1, and the waterproof cover 10 is arranged on the upper wall surface of the main body vertical rod 1 and is positioned outside the warning lamp 9;

therefore, the warning lamp 9 is used for warning position when visibility is low and the warning lamp emits light at night to prevent the boat, raft and pedestrian from mistakenly hitting the device, and the waterproof cover 10 is used for protecting the warning lamp 9 and preventing the short circuit of the warning lamp 9 when water rises;

the auxiliary structure mainly comprises: the PH sensor 11, the turbidity sensor 12, and the auxiliary components are connected and positioned as follows:

PH sensor 11 is installed on balancing weight 2 and is avoided, and turbidity sensor 12 is installed on the wall on balancing weight 2, and corresponds each other with PH sensor 11, and auxiliary assembly installs on balancing weight 2.

The auxiliary assembly mainly comprises: the connection relationship and the positional relationship between the temperature sensor 13 and the residual chlorine sensor 14 are as follows:

the temperature sensor 13 is arranged on the upper wall surface of the balancing weight 2, and the residual fluorine sensor is arranged on the upper wall surface of the balancing weight 2 and corresponds to the temperature sensor 13;

according to the above description, when the device is used for distributed river environment detection, firstly, the device is arranged in a river to be detected by a worker, part of the balancing weight 2 can be arranged under river foundation stones, then a proper lead is selected to switch on the power supply, the device enters a working state, the device detects the temperature of the river through the temperature sensor 13 in the working process, after the temperature data is detected, an electric signal is transmitted to the data processor 7, the data processor 7 records the temperature data, meanwhile, the pH value in the river is detected through the pH sensor, the water level change of the river is measured through the water level sensor, the free chlorine molecular information in the river water is measured through the residual chlorine sensor 14, the electric signal is reported to the data processor 7, the data processor 7 can analyze whether the chlorine disinfectant is contained in the river water according to the free chlorine molecular information, and then whether illegal sewage discharge exists or not is judged, the device carries out the place information accurate positioning of device position through LoRamesh subassembly 6, carries out the real-time transmission report of data through wireless transmission's mode, and the control center of being convenient for obtains the detection information of each river course fast, provides data for formulating emergency plan, promotes going on that river course monitoring management work is better.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The statement that an element defined by the phrase "comprises an … … does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A distributed river channel environment detection system based on LoRamesh comprises a main body vertical rod (1) and a balancing weight (2), and is characterized in that the balancing weight (2) is installed on the main body vertical rod (1), and a main body structure and an auxiliary structure are installed on the main body vertical rod (1);

the main body structure mainly comprises: a box body (3), a liquid level sensor (4) and a main body part;

the liquid level sensor is characterized in that the box body (3) is installed on the left side wall surface of the main body vertical rod (1), the liquid level sensor (4) is installed on the front side wall surface of the main body vertical rod (1), and the main body part is installed on the box body (3).

2. The distributed river environment detection system based on LoRamesh according to claim 1, wherein the main body mainly comprises: the battery pack comprises a storage battery (5), a LoRaMesh component (6) and a main body part;

the storage battery (5) is arranged on the inner lower wall surface of the box body (3), and the LoRaMesh assembly (6) is arranged on the vertical wall surface of the left side in the box body (3).

3. The distributed river environment detection system based on LoRamesh according to claim 1, wherein the main body mainly comprises: a data processor (7) and a scale (8);

the data processor (7) is installed on the right vertical wall surface in the box body (3), and the scales (8) are installed on the main body vertical rod (1).

4. The distributed river environment detection system based on LoRamesh according to claim 1, wherein the auxiliary structure mainly comprises: a warning light (9), a waterproof cover (10) and an auxiliary structure;

the warning light (9) is installed on the upper wall surface of the main body vertical rod (1), and the waterproof cover (10) is installed on the upper wall surface of the main body vertical rod (1) and located on the outer side of the warning light (9).

5. The distributed river environment detection system based on LoRamesh according to claim 1, wherein the auxiliary structure mainly comprises: a pH sensor (11), a turbidity sensor (12) and auxiliary components;

PH sensor (11) is installed on avoiding on balancing weight (2), turbidity sensor (12) is installed on balancing weight (2) wall, and corresponds each other with PH sensor (11), auxiliary assembly installs on balancing weight (2).

6. The LoRamesh-based distributed river environment detection system of claim 5, wherein the auxiliary components mainly comprise: a temperature sensor (13) and a residual chlorine sensor (14);

the temperature sensor (13) is arranged on the upper wall surface of the balancing weight (2), and the residual chlorine sensor is arranged on the upper wall surface of the balancing weight (2) and corresponds to the temperature sensor (13).

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